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MSIS atmosphere model
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C----------------------------------------------------------------------- | |
SUBROUTINE GTD7(IYD,SEC,ALT,GLAT,GLONG,STL,F107A,F107,AP,MASS,D,T) | |
C | |
C NRLMSISE-00 | |
C ----------- | |
C Neutral Atmosphere Empirical Model from the surface to lower | |
C exosphere | |
C | |
C NEW FEATURES: | |
C *Extensive satellite drag database used in model generation | |
C *Revised O2 (and O) in lower thermosphere | |
C *Additional nonlinear solar activity term | |
C *"ANOMALOUS OXYGEN" NUMBER DENSITY, OUTPUT D(9) | |
C At high altitudes (> 500 km), hot atomic oxygen or ionized | |
C oxygen can become appreciable for some ranges of subroutine | |
C inputs, thereby affecting drag on satellites and debris. We | |
C group these species under the term "anomalous oxygen," since | |
C their individual variations are not presently separable with | |
C the drag data used to define this model component. | |
C | |
C SUBROUTINES FOR SPECIAL OUTPUTS: | |
C | |
C HIGH ALTITUDE DRAG: EFFECTIVE TOTAL MASS DENSITY | |
C (SUBROUTINE GTD7D, OUTPUT D(6)) | |
C For atmospheric drag calculations at altitudes above 500 km, | |
C call SUBROUTINE GTD7D to compute the "effective total mass | |
C density" by including contributions from "anomalous oxygen." | |
C See "NOTES ON OUTPUT VARIABLES" below on D(6). | |
C | |
C PRESSURE GRID (SUBROUTINE GHP7) | |
C See subroutine GHP7 to specify outputs at a pressure level | |
C rather than at an altitude. | |
C | |
C OUTPUT IN M-3 and KG/M3: CALL METERS(.TRUE.) | |
C | |
C INPUT VARIABLES: | |
C IYD - YEAR AND DAY AS YYDDD (day of year from 1 to 365 (or 366)) | |
C (Year ignored in current model) | |
C SEC - UT(SEC) | |
C ALT - ALTITUDE(KM) | |
C GLAT - GEODETIC LATITUDE(DEG) | |
C GLONG - GEODETIC LONGITUDE(DEG) | |
C STL - LOCAL APPARENT SOLAR TIME(HRS; see Note below) | |
C F107A - 81 day AVERAGE OF F10.7 FLUX (centered on day DDD) | |
C F107 - DAILY F10.7 FLUX FOR PREVIOUS DAY | |
C AP - MAGNETIC INDEX(DAILY) OR WHEN SW(9)=-1. : | |
C - ARRAY CONTAINING: | |
C (1) DAILY AP | |
C (2) 3 HR AP INDEX FOR CURRENT TIME | |
C (3) 3 HR AP INDEX FOR 3 HRS BEFORE CURRENT TIME | |
C (4) 3 HR AP INDEX FOR 6 HRS BEFORE CURRENT TIME | |
C (5) 3 HR AP INDEX FOR 9 HRS BEFORE CURRENT TIME | |
C (6) AVERAGE OF EIGHT 3 HR AP INDICIES FROM 12 TO 33 HRS PRIOR | |
C TO CURRENT TIME | |
C (7) AVERAGE OF EIGHT 3 HR AP INDICIES FROM 36 TO 57 HRS PRIOR | |
C TO CURRENT TIME | |
C MASS - MASS NUMBER (ONLY DENSITY FOR SELECTED GAS IS | |
C CALCULATED. MASS 0 IS TEMPERATURE. MASS 48 FOR ALL. | |
C MASS 17 IS Anomalous O ONLY.) | |
C | |
C NOTES ON INPUT VARIABLES: | |
C UT, Local Time, and Longitude are used independently in the | |
C model and are not of equal importance for every situation. | |
C For the most physically realistic calculation these three | |
C variables should be consistent (STL=SEC/3600+GLONG/15). | |
C The Equation of Time departures from the above formula | |
C for apparent local time can be included if available but | |
C are of minor importance. | |
c | |
C F107 and F107A values used to generate the model correspond | |
C to the 10.7 cm radio flux at the actual distance of the Earth | |
C from the Sun rather than the radio flux at 1 AU. The following | |
C site provides both classes of values: | |
C ftp://ftp.ngdc.noaa.gov/STP/SOLAR_DATA/SOLAR_RADIO/FLUX/ | |
C | |
C F107, F107A, and AP effects are neither large nor well | |
C established below 80 km and these parameters should be set to | |
C 150., 150., and 4. respectively. | |
C | |
C OUTPUT VARIABLES: | |
C D(1) - HE NUMBER DENSITY(CM-3) | |
C D(2) - O NUMBER DENSITY(CM-3) | |
C D(3) - N2 NUMBER DENSITY(CM-3) | |
C D(4) - O2 NUMBER DENSITY(CM-3) | |
C D(5) - AR NUMBER DENSITY(CM-3) | |
C D(6) - TOTAL MASS DENSITY(GM/CM3) | |
C D(7) - H NUMBER DENSITY(CM-3) | |
C D(8) - N NUMBER DENSITY(CM-3) | |
C D(9) - Anomalous oxygen NUMBER DENSITY(CM-3) | |
C T(1) - EXOSPHERIC TEMPERATURE | |
C T(2) - TEMPERATURE AT ALT | |
C | |
C NOTES ON OUTPUT VARIABLES: | |
C TO GET OUTPUT IN M-3 and KG/M3: CALL METERS(.TRUE.) | |
C | |
C O, H, and N are set to zero below 72.5 km | |
C | |
C T(1), Exospheric temperature, is set to global average for | |
C altitudes below 120 km. The 120 km gradient is left at global | |
C average value for altitudes below 72 km. | |
C | |
C D(6), TOTAL MASS DENSITY, is NOT the same for subroutines GTD7 | |
C and GTD7D | |
C | |
C SUBROUTINE GTD7 -- D(6) is the sum of the mass densities of the | |
C species labeled by indices 1-5 and 7-8 in output variable D. | |
C This includes He, O, N2, O2, Ar, H, and N but does NOT include | |
C anomalous oxygen (species index 9). | |
C | |
C SUBROUTINE GTD7D -- D(6) is the "effective total mass density | |
C for drag" and is the sum of the mass densities of all species | |
C in this model, INCLUDING anomalous oxygen. | |
C | |
C SWITCHES: The following is for test and special purposes: | |
C | |
C TO TURN ON AND OFF PARTICULAR VARIATIONS CALL TSELEC(SW), | |
C WHERE SW IS A 25 ELEMENT ARRAY CONTAINING 0. FOR OFF, 1. | |
C FOR ON, OR 2. FOR MAIN EFFECTS OFF BUT CROSS TERMS ON | |
C FOR THE FOLLOWING VARIATIONS | |
C 1 - F10.7 EFFECT ON MEAN 2 - TIME INDEPENDENT | |
C 3 - SYMMETRICAL ANNUAL 4 - SYMMETRICAL SEMIANNUAL | |
C 5 - ASYMMETRICAL ANNUAL 6 - ASYMMETRICAL SEMIANNUAL | |
C 7 - DIURNAL 8 - SEMIDIURNAL | |
C 9 - DAILY AP 10 - ALL UT/LONG EFFECTS | |
C 11 - LONGITUDINAL 12 - UT AND MIXED UT/LONG | |
C 13 - MIXED AP/UT/LONG 14 - TERDIURNAL | |
C 15 - DEPARTURES FROM DIFFUSIVE EQUILIBRIUM | |
C 16 - ALL TINF VAR 17 - ALL TLB VAR | |
C 18 - ALL TN1 VAR 19 - ALL S VAR | |
C 20 - ALL TN2 VAR 21 - ALL NLB VAR | |
C 22 - ALL TN3 VAR 23 - TURBO SCALE HEIGHT VAR | |
C | |
C To get current values of SW: CALL TRETRV(SW) | |
C | |
DIMENSION D(9),T(2),AP(7),DS(9),TS(2) | |
DIMENSION ZN3(5),ZN2(4),SV(25) | |
COMMON/GTS3C/TLB,S,DB04,DB16,DB28,DB32,DB40,DB48,DB01,ZA,T0,Z0 | |
& ,G0,RL,DD,DB14,TR12 | |
COMMON/MESO7/TN1(5),TN2(4),TN3(5),TGN1(2),TGN2(2),TGN3(2) | |
COMMON/LOWER7/PTM(10),PDM(10,8) | |
COMMON/PARM7/PT(150),PD(150,9),PS(150),PDL(25,2),PTL(100,4), | |
$ PMA(100,10),SAM(100) | |
COMMON/DATIM7/ISD(3),IST(2),NAM(2) | |
COMMON/DATIME/ISDATE(3),ISTIME(2),NAME(2) | |
COMMON/CSW/SW(25),ISW,SWC(25) | |
COMMON/MAVG7/PAVGM(10) | |
COMMON/DMIX/DM04,DM16,DM28,DM32,DM40,DM01,DM14 | |
COMMON/PARMB/GSURF,RE | |
COMMON/METSEL/IMR | |
SAVE | |
EXTERNAL GTD7BK | |
DATA MN3/5/,ZN3/32.5,20.,15.,10.,0./ | |
DATA MN2/4/,ZN2/72.5,55.,45.,32.5/ | |
DATA ZMIX/62.5/,ALAST/99999./,MSSL/-999/ | |
DATA SV/25*1./ | |
IF(ISW.NE.64999) CALL TSELEC(SV) | |
C Put identification data into common/datime/ | |
DO 1 I=1,3 | |
ISDATE(I)=ISD(I) | |
1 CONTINUE | |
DO 2 I=1,2 | |
ISTIME(I)=IST(I) | |
NAME(I)=NAM(I) | |
2 CONTINUE | |
C | |
C Test for changed input | |
V1=VTST7(IYD,SEC,GLAT,GLONG,STL,F107A,F107,AP,1) | |
C Latitude variation of gravity (none for SW(2)=0) | |
XLAT=GLAT | |
IF(SW(2).EQ.0) XLAT=45. | |
CALL GLATF(XLAT,GSURF,RE) | |
C | |
XMM=PDM(5,3) | |
C | |
C THERMOSPHERE/MESOSPHERE (above ZN2(1)) | |
ALTT=AMAX1(ALT,ZN2(1)) | |
MSS=MASS | |
C Only calculate N2 in thermosphere if alt in mixed region | |
IF(ALT.LT.ZMIX.AND.MASS.GT.0) MSS=28 | |
C Only calculate thermosphere if input parameters changed | |
C or altitude above ZN2(1) in mesosphere | |
IF(V1.EQ.1..OR.ALT.GT.ZN2(1).OR.ALAST.GT.ZN2(1).OR.MSS.NE.MSSL) | |
$ THEN | |
CALL GTS7(IYD,SEC,ALTT,GLAT,GLONG,STL,F107A,F107,AP,MSS,DS,TS) | |
DM28M=DM28 | |
C metric adjustment | |
IF(IMR.EQ.1) DM28M=DM28*1.E6 | |
MSSL=MSS | |
ENDIF | |
T(1)=TS(1) | |
T(2)=TS(2) | |
IF(ALT.GE.ZN2(1)) THEN | |
DO 5 J=1,9 | |
D(J)=DS(J) | |
5 CONTINUE | |
GOTO 10 | |
ENDIF | |
C | |
C LOWER MESOSPHERE/UPPER STRATOSPHERE [between ZN3(1) and ZN2(1)] | |
C Temperature at nodes and gradients at end nodes | |
C Inverse temperature a linear function of spherical harmonics | |
C Only calculate nodes if input changed | |
IF(V1.EQ.1..OR.ALAST.GE.ZN2(1)) THEN | |
TGN2(1)=TGN1(2) | |
TN2(1)=TN1(5) | |
TN2(2)=PMA(1,1)*PAVGM(1)/(1.-SW(20)*GLOB7S(PMA(1,1))) | |
TN2(3)=PMA(1,2)*PAVGM(2)/(1.-SW(20)*GLOB7S(PMA(1,2))) | |
TN2(4)=PMA(1,3)*PAVGM(3)/(1.-SW(20)*SW(22)*GLOB7S(PMA(1,3))) | |
TGN2(2)=PAVGM(9)*PMA(1,10)*(1.+SW(20)*SW(22)*GLOB7S(PMA(1,10))) | |
$ *TN2(4)*TN2(4)/(PMA(1,3)*PAVGM(3))**2 | |
TN3(1)=TN2(4) | |
ENDIF | |
IF(ALT.GE.ZN3(1)) GOTO 6 | |
C | |
C LOWER STRATOSPHERE AND TROPOSPHERE [below ZN3(1)] | |
C Temperature at nodes and gradients at end nodes | |
C Inverse temperature a linear function of spherical harmonics | |
C Only calculate nodes if input changed | |
IF(V1.EQ.1..OR.ALAST.GE.ZN3(1)) THEN | |
TGN3(1)=TGN2(2) | |
TN3(2)=PMA(1,4)*PAVGM(4)/(1.-SW(22)*GLOB7S(PMA(1,4))) | |
TN3(3)=PMA(1,5)*PAVGM(5)/(1.-SW(22)*GLOB7S(PMA(1,5))) | |
TN3(4)=PMA(1,6)*PAVGM(6)/(1.-SW(22)*GLOB7S(PMA(1,6))) | |
TN3(5)=PMA(1,7)*PAVGM(7)/(1.-SW(22)*GLOB7S(PMA(1,7))) | |
TGN3(2)=PMA(1,8)*PAVGM(8)*(1.+SW(22)*GLOB7S(PMA(1,8))) | |
$ *TN3(5)*TN3(5)/(PMA(1,7)*PAVGM(7))**2 | |
ENDIF | |
6 CONTINUE | |
IF(MASS.EQ.0) GOTO 50 | |
C LINEAR TRANSITION TO FULL MIXING BELOW ZN2(1) | |
DMC=0 | |
IF(ALT.GT.ZMIX) DMC=1.-(ZN2(1)-ALT)/(ZN2(1)-ZMIX) | |
DZ28=DS(3) | |
C ***** N2 DENSITY **** | |
DMR=DS(3)/DM28M-1. | |
D(3)=DENSM(ALT,DM28M,XMM,TZ,MN3,ZN3,TN3,TGN3,MN2,ZN2,TN2,TGN2) | |
D(3)=D(3)*(1.+DMR*DMC) | |
C ***** HE DENSITY **** | |
D(1)=0 | |
IF(MASS.NE.4.AND.MASS.NE.48) GOTO 204 | |
DMR=DS(1)/(DZ28*PDM(2,1))-1. | |
D(1)=D(3)*PDM(2,1)*(1.+DMR*DMC) | |
204 CONTINUE | |
C **** O DENSITY **** | |
D(2)=0 | |
D(9)=0 | |
216 CONTINUE | |
C ***** O2 DENSITY **** | |
D(4)=0 | |
IF(MASS.NE.32.AND.MASS.NE.48) GOTO 232 | |
DMR=DS(4)/(DZ28*PDM(2,4))-1. | |
D(4)=D(3)*PDM(2,4)*(1.+DMR*DMC) | |
232 CONTINUE | |
C ***** AR DENSITY **** | |
D(5)=0 | |
IF(MASS.NE.40.AND.MASS.NE.48) GOTO 240 | |
DMR=DS(5)/(DZ28*PDM(2,5))-1. | |
D(5)=D(3)*PDM(2,5)*(1.+DMR*DMC) | |
240 CONTINUE | |
C ***** HYDROGEN DENSITY **** | |
D(7)=0 | |
C ***** ATOMIC NITROGEN DENSITY **** | |
D(8)=0 | |
C | |
C TOTAL MASS DENSITY | |
C | |
IF(MASS.EQ.48) THEN | |
D(6) = 1.66E-24*(4.*D(1)+16.*D(2)+28.*D(3)+32.*D(4)+40.*D(5)+ | |
& D(7)+14.*D(8)) | |
IF(IMR.EQ.1) D(6)=D(6)/1000. | |
ENDIF | |
T(2)=TZ | |
10 CONTINUE | |
GOTO 90 | |
50 CONTINUE | |
DD=DENSM(ALT,1.,0,TZ,MN3,ZN3,TN3,TGN3,MN2,ZN2,TN2,TGN2) | |
T(2)=TZ | |
90 CONTINUE | |
ALAST=ALT | |
RETURN | |
END | |
C----------------------------------------------------------------------- | |
SUBROUTINE GTD7D(IYD,SEC,ALT,GLAT,GLONG,STL,F107A,F107,AP,MASS, | |
$ D,T) | |
C | |
C NRLMSISE-00 | |
C ----------- | |
C This subroutine provides Effective Total Mass Density for | |
C output D(6) which includes contributions from "anomalous | |
C oxygen" which can affect satellite drag above 500 km. This | |
C subroutine is part of the distribution package for the | |
C Neutral Atmosphere Empirical Model from the surface to lower | |
C exosphere. See subroutine GTD7 for more extensive comments. | |
C | |
C INPUT VARIABLES: | |
C IYD - YEAR AND DAY AS YYDDD (day of year from 1 to 365 (or 366)) | |
C (Year ignored in current model) | |
C SEC - UT(SEC) | |
C ALT - ALTITUDE(KM) | |
C GLAT - GEODETIC LATITUDE(DEG) | |
C GLONG - GEODETIC LONGITUDE(DEG) | |
C STL - LOCAL APPARENT SOLAR TIME(HRS; see Note below) | |
C F107A - 81 day AVERAGE OF F10.7 FLUX (centered on day DDD) | |
C F107 - DAILY F10.7 FLUX FOR PREVIOUS DAY | |
C AP - MAGNETIC INDEX(DAILY) OR WHEN SW(9)=-1. : | |
C - ARRAY CONTAINING: | |
C (1) DAILY AP | |
C (2) 3 HR AP INDEX FOR CURRENT TIME | |
C (3) 3 HR AP INDEX FOR 3 HRS BEFORE CURRENT TIME | |
C (4) 3 HR AP INDEX FOR 6 HRS BEFORE CURRENT TIME | |
C (5) 3 HR AP INDEX FOR 9 HRS BEFORE CURRENT TIME | |
C (6) AVERAGE OF EIGHT 3 HR AP INDICIES FROM 12 TO 33 HRS PRIOR | |
C TO CURRENT TIME | |
C (7) AVERAGE OF EIGHT 3 HR AP INDICIES FROM 36 TO 57 HRS PRIOR | |
C TO CURRENT TIME | |
C MASS - MASS NUMBER (ONLY DENSITY FOR SELECTED GAS IS | |
C CALCULATED. MASS 0 IS TEMPERATURE. MASS 48 FOR ALL. | |
C MASS 17 IS Anomalous O ONLY.) | |
C | |
C NOTES ON INPUT VARIABLES: | |
C UT, Local Time, and Longitude are used independently in the | |
C model and are not of equal importance for every situation. | |
C For the most physically realistic calculation these three | |
C variables should be consistent (STL=SEC/3600+GLONG/15). | |
C The Equation of Time departures from the above formula | |
C for apparent local time can be included if available but | |
C are of minor importance. | |
c | |
C F107 and F107A values used to generate the model correspond | |
C to the 10.7 cm radio flux at the actual distance of the Earth | |
C from the Sun rather than the radio flux at 1 AU. | |
C | |
C OUTPUT VARIABLES: | |
C D(1) - HE NUMBER DENSITY(CM-3) | |
C D(2) - O NUMBER DENSITY(CM-3) | |
C D(3) - N2 NUMBER DENSITY(CM-3) | |
C D(4) - O2 NUMBER DENSITY(CM-3) | |
C D(5) - AR NUMBER DENSITY(CM-3) | |
C D(6) - TOTAL MASS DENSITY(GM/CM3) [includes anomalous oxygen] | |
C D(7) - H NUMBER DENSITY(CM-3) | |
C D(8) - N NUMBER DENSITY(CM-3) | |
C D(9) - Anomalous oxygen NUMBER DENSITY(CM-3) | |
C T(1) - EXOSPHERIC TEMPERATURE | |
C T(2) - TEMPERATURE AT ALT | |
C | |
DIMENSION D(9),T(2),AP(7),DS(9),TS(2) | |
COMMON/METSEL/IMR | |
CALL GTD7(IYD,SEC,ALT,GLAT,GLONG,STL,F107A,F107,AP,MASS,D,T) | |
C TOTAL MASS DENSITY | |
C | |
IF(MASS.EQ.48) THEN | |
D(6) = 1.66E-24*(4.*D(1)+16.*D(2)+28.*D(3)+32.*D(4)+40.*D(5)+ | |
& D(7)+14.*D(8)+16.*D(9)) | |
IF(IMR.EQ.1) D(6)=D(6)/1000. | |
ENDIF | |
RETURN | |
END | |
C----------------------------------------------------------------------- | |
SUBROUTINE GHP7(IYD,SEC,ALT,GLAT,GLONG,STL,F107A,F107,AP, | |
$ D,T,PRESS) | |
C FIND ALTITUDE OF PRESSURE SURFACE (PRESS) FROM GTD7 | |
C INPUT: | |
C IYD - YEAR AND DAY AS YYDDD | |
C SEC - UT(SEC) | |
C GLAT - GEODETIC LATITUDE(DEG) | |
C GLONG - GEODETIC LONGITUDE(DEG) | |
C STL - LOCAL APPARENT SOLAR TIME(HRS) | |
C F107A - 3 MONTH AVERAGE OF F10.7 FLUX | |
C F107 - DAILY F10.7 FLUX FOR PREVIOUS DAY | |
C AP - MAGNETIC INDEX(DAILY) OR WHEN SW(9)=-1. : | |
C - ARRAY CONTAINING: | |
C (1) DAILY AP | |
C (2) 3 HR AP INDEX FOR CURRENT TIME | |
C (3) 3 HR AP INDEX FOR 3 HRS BEFORE CURRENT TIME | |
C (4) 3 HR AP INDEX FOR 6 HRS BEFORE CURRENT TIME | |
C (5) 3 HR AP INDEX FOR 9 HRS BEFORE CURRENT TIME | |
C (6) AVERAGE OF EIGHT 3 HR AP INDICIES FROM 12 TO 33 HRS PRIOR | |
C TO CURRENT TIME | |
C (7) AVERAGE OF EIGHT 3 HR AP INDICIES FROM 36 TO 59 HRS PRIOR | |
C TO CURRENT TIME | |
C PRESS - PRESSURE LEVEL(MB) | |
C OUTPUT: | |
C ALT - ALTITUDE(KM) | |
C D(1) - HE NUMBER DENSITY(CM-3) | |
C D(2) - O NUMBER DENSITY(CM-3) | |
C D(3) - N2 NUMBER DENSITY(CM-3) | |
C D(4) - O2 NUMBER DENSITY(CM-3) | |
C D(5) - AR NUMBER DENSITY(CM-3) | |
C D(6) - TOTAL MASS DENSITY(GM/CM3) | |
C D(7) - H NUMBER DENSITY(CM-3) | |
C D(8) - N NUMBER DENSITY(CM-3) | |
C D(9) - HOT O NUMBER DENSITY(CM-3) | |
C T(1) - EXOSPHERIC TEMPERATURE | |
C T(2) - TEMPERATURE AT ALT | |
C | |
COMMON/PARMB/GSURF,RE | |
COMMON/METSEL/IMR | |
DIMENSION D(9),T(2),AP(7) | |
SAVE | |
DATA BM/1.3806E-19/,RGAS/831.4/ | |
DATA TEST/.00043/,LTEST/12/ | |
PL=ALOG10(PRESS) | |
C Initial altitude estimate | |
IF(PL.GE.-5.) THEN | |
IF(PL.GT.2.5) ZI=18.06*(3.00-PL) | |
IF(PL.GT..75.AND.PL.LE.2.5) ZI=14.98*(3.08-PL) | |
IF(PL.GT.-1..AND.PL.LE..75) ZI=17.8*(2.72-PL) | |
IF(PL.GT.-2..AND.PL.LE.-1.) ZI=14.28*(3.64-PL) | |
IF(PL.GT.-4..AND.PL.LE.-2.) ZI=12.72*(4.32-PL) | |
IF(PL.LE.-4.) ZI=25.3*(.11-PL) | |
IDAY=MOD(IYD,1000) | |
CL=GLAT/90. | |
CL2=CL*CL | |
IF(IDAY.LT.182) CD=1.-IDAY/91.25 | |
IF(IDAY.GE.182) CD=IDAY/91.25-3. | |
CA=0 | |
IF(PL.GT.-1.11.AND.PL.LE.-.23) CA=1.0 | |
IF(PL.GT.-.23) CA=(2.79-PL)/(2.79+.23) | |
IF(PL.LE.-1.11.AND.PL.GT.-3.) CA=(-2.93-PL)/(-2.93+1.11) | |
Z=ZI-4.87*CL*CD*CA-1.64*CL2*CA+.31*CA*CL | |
ENDIF | |
IF(PL.LT.-5.) Z=22.*(PL+4.)**2+110 | |
C ITERATION LOOP | |
L=0 | |
10 CONTINUE | |
L=L+1 | |
CALL GTD7(IYD,SEC,Z,GLAT,GLONG,STL,F107A,F107,AP,48,D,T) | |
XN=D(1)+D(2)+D(3)+D(4)+D(5)+D(7)+D(8) | |
P=BM*XN*T(2) | |
IF(IMR.EQ.1) P=P*1.E-6 | |
DIFF=PL-ALOG10(P) | |
IF(ABS(DIFF).LT.TEST .OR. L.EQ.LTEST) GOTO 20 | |
XM=D(6)/XN/1.66E-24 | |
IF(IMR.EQ.1) XM = XM*1.E3 | |
G=GSURF/(1.+Z/RE)**2 | |
SH=RGAS*T(2)/(XM*G) | |
C New altitude estimate using scale height | |
IF(L.LT.6) THEN | |
Z=Z-SH*DIFF*2.302 | |
ELSE | |
Z=Z-SH*DIFF | |
ENDIF | |
GOTO 10 | |
20 CONTINUE | |
IF(L.EQ.LTEST) WRITE(6,100) PRESS,DIFF | |
100 FORMAT(1X,29HGHP7 NOT CONVERGING FOR PRESS, 1PE12.2,E12.2) | |
ALT=Z | |
RETURN | |
END | |
C----------------------------------------------------------------------- | |
SUBROUTINE GLATF(LAT,GV,REFF) | |
C CALCULATE LATITUDE VARIABLE GRAVITY (GV) AND EFFECTIVE | |
C RADIUS (REFF) | |
REAL LAT | |
SAVE | |
DATA DGTR/1.74533E-2/ | |
C2 = COS(2.*DGTR*LAT) | |
GV = 980.616*(1.-.0026373*C2) | |
REFF = 2.*GV/(3.085462E-6 + 2.27E-9*C2)*1.E-5 | |
RETURN | |
END | |
C----------------------------------------------------------------------- | |
FUNCTION VTST7(IYD,SEC,GLAT,GLONG,STL,F107A,F107,AP,IC) | |
C Test if geophysical variables or switches changed and save | |
C Return 0 if unchanged and 1 if changed | |
DIMENSION AP(7),IYDL(2),SECL(2),GLATL(2),GLL(2),STLL(2) | |
DIMENSION FAL(2),FL(2),APL(7,2),SWL(25,2),SWCL(25,2) | |
COMMON/CSW/SW(25),ISW,SWC(25) | |
SAVE | |
DATA IYDL/2*-999/,SECL/2*-999./,GLATL/2*-999./,GLL/2*-999./ | |
DATA STLL/2*-999./,FAL/2*-999./,FL/2*-999./,APL/14*-999./ | |
DATA SWL/50*-999./,SWCL/50*-999./ | |
VTST7=0 | |
IF(IYD.NE.IYDL(IC)) GOTO 10 | |
IF(SEC.NE.SECL(IC)) GOTO 10 | |
IF(GLAT.NE.GLATL(IC)) GOTO 10 | |
IF(GLONG.NE.GLL(IC)) GOTO 10 | |
IF(STL.NE.STLL(IC)) GOTO 10 | |
IF(F107A.NE.FAL(IC)) GOTO 10 | |
IF(F107.NE.FL(IC)) GOTO 10 | |
DO 5 I=1,7 | |
IF(AP(I).NE.APL(I,IC)) GOTO 10 | |
5 CONTINUE | |
DO 7 I=1,25 | |
IF(SW(I).NE.SWL(I,IC)) GOTO 10 | |
IF(SWC(I).NE.SWCL(I,IC)) GOTO 10 | |
7 CONTINUE | |
GOTO 20 | |
10 CONTINUE | |
VTST7=1 | |
IYDL(IC)=IYD | |
SECL(IC)=SEC | |
GLATL(IC)=GLAT | |
GLL(IC)=GLONG | |
STLL(IC)=STL | |
FAL(IC)=F107A | |
FL(IC)=F107 | |
DO 15 I=1,7 | |
APL(I,IC)=AP(I) | |
15 CONTINUE | |
DO 16 I=1,25 | |
SWL(I,IC)=SW(I) | |
SWCL(I,IC)=SWC(I) | |
16 CONTINUE | |
20 CONTINUE | |
RETURN | |
END | |
C----------------------------------------------------------------------- | |
SUBROUTINE GTS7(IYD,SEC,ALT,GLAT,GLONG,STL,F107A,F107,AP,MASS,D,T) | |
C | |
C Thermospheric portion of NRLMSISE-00 | |
C See GTD7 for more extensive comments | |
C | |
C OUTPUT IN M-3 and KG/M3: CALL METERS(.TRUE.) | |
C | |
C INPUT VARIABLES: | |
C IYD - YEAR AND DAY AS YYDDD (day of year from 1 to 365 (or 366)) | |
C (Year ignored in current model) | |
C SEC - UT(SEC) | |
C ALT - ALTITUDE(KM) (>72.5 km) | |
C GLAT - GEODETIC LATITUDE(DEG) | |
C GLONG - GEODETIC LONGITUDE(DEG) | |
C STL - LOCAL APPARENT SOLAR TIME(HRS; see Note below) | |
C F107A - 81 day AVERAGE OF F10.7 FLUX (centered on day DDD) | |
C F107 - DAILY F10.7 FLUX FOR PREVIOUS DAY | |
C AP - MAGNETIC INDEX(DAILY) OR WHEN SW(9)=-1. : | |
C - ARRAY CONTAINING: | |
C (1) DAILY AP | |
C (2) 3 HR AP INDEX FOR CURRENT TIME | |
C (3) 3 HR AP INDEX FOR 3 HRS BEFORE CURRENT TIME | |
C (4) 3 HR AP INDEX FOR 6 HRS BEFORE CURRENT TIME | |
C (5) 3 HR AP INDEX FOR 9 HRS BEFORE CURRENT TIME | |
C (6) AVERAGE OF EIGHT 3 HR AP INDICIES FROM 12 TO 33 HRS PRIOR | |
C TO CURRENT TIME | |
C (7) AVERAGE OF EIGHT 3 HR AP INDICIES FROM 36 TO 57 HRS PRIOR | |
C TO CURRENT TIME | |
C MASS - MASS NUMBER (ONLY DENSITY FOR SELECTED GAS IS | |
C CALCULATED. MASS 0 IS TEMPERATURE. MASS 48 FOR ALL. | |
C MASS 17 IS Anomalous O ONLY.) | |
C | |
C NOTES ON INPUT VARIABLES: | |
C UT, Local Time, and Longitude are used independently in the | |
C model and are not of equal importance for every situation. | |
C For the most physically realistic calculation these three | |
C variables should be consistent (STL=SEC/3600+GLONG/15). | |
C The Equation of Time departures from the above formula | |
C for apparent local time can be included if available but | |
C are of minor importance. | |
c | |
C F107 and F107A values used to generate the model correspond | |
C to the 10.7 cm radio flux at the actual distance of the Earth | |
C from the Sun rather than the radio flux at 1 AU. The following | |
C site provides both classes of values: | |
C ftp://ftp.ngdc.noaa.gov/STP/SOLAR_DATA/SOLAR_RADIO/FLUX/ | |
C | |
C F107, F107A, and AP effects are neither large nor well | |
C established below 80 km and these parameters should be set to | |
C 150., 150., and 4. respectively. | |
C | |
C OUTPUT VARIABLES: | |
C D(1) - HE NUMBER DENSITY(CM-3) | |
C D(2) - O NUMBER DENSITY(CM-3) | |
C D(3) - N2 NUMBER DENSITY(CM-3) | |
C D(4) - O2 NUMBER DENSITY(CM-3) | |
C D(5) - AR NUMBER DENSITY(CM-3) | |
C D(6) - TOTAL MASS DENSITY(GM/CM3) [Anomalous O NOT included] | |
C D(7) - H NUMBER DENSITY(CM-3) | |
C D(8) - N NUMBER DENSITY(CM-3) | |
C D(9) - Anomalous oxygen NUMBER DENSITY(CM-3) | |
C T(1) - EXOSPHERIC TEMPERATURE | |
C T(2) - TEMPERATURE AT ALT | |
C | |
DIMENSION ZN1(5),ALPHA(9) | |
COMMON/GTS3C/TLB,S,DB04,DB16,DB28,DB32,DB40,DB48,DB01,ZA,T0,Z0 | |
& ,G0,RL,DD,DB14,TR12 | |
COMMON/MESO7/TN1(5),TN2(4),TN3(5),TGN1(2),TGN2(2),TGN3(2) | |
DIMENSION D(9),T(2),MT(11),AP(1),ALTL(8) | |
COMMON/LOWER7/PTM(10),PDM(10,8) | |
COMMON/PARM7/PT(150),PD(150,9),PS(150),PDL(25,2),PTL(100,4), | |
$ PMA(100,10),SAM(100) | |
COMMON/CSW/SW(25),ISW,SWC(25) | |
COMMON/TTEST/TINFG,GB,ROUT,TT(15) | |
COMMON/DMIX/DM04,DM16,DM28,DM32,DM40,DM01,DM14 | |
COMMON/METSEL/IMR | |
SAVE | |
DATA MT/48,0,4,16,28,32,40,1,49,14,17/ | |
DATA ALTL/200.,300.,160.,250.,240.,450.,320.,450./ | |
DATA MN1/5/,ZN1/120.,110.,100.,90.,72.5/ | |
DATA DGTR/1.74533E-2/,DR/1.72142E-2/,ALAST/-999./ | |
DATA ALPHA/-0.38,0.,0.,0.,0.17,0.,-0.38,0.,0./ | |
C Test for changed input | |
V2=VTST7(IYD,SEC,GLAT,GLONG,STL,F107A,F107,AP,2) | |
C | |
YRD=IYD | |
ZA=PDL(16,2) | |
ZN1(1)=ZA | |
DO 2 J=1,9 | |
D(J)=0. | |
2 CONTINUE | |
C TINF VARIATIONS NOT IMPORTANT BELOW ZA OR ZN1(1) | |
IF(ALT.GT.ZN1(1)) THEN | |
IF(V2.EQ.1..OR.ALAST.LE.ZN1(1)) TINF=PTM(1)*PT(1) | |
$ *(1.+SW(16)*GLOBE7(YRD,SEC,GLAT,GLONG,STL,F107A,F107,AP,PT)) | |
ELSE | |
TINF=PTM(1)*PT(1) | |
ENDIF | |
T(1)=TINF | |
C GRADIENT VARIATIONS NOT IMPORTANT BELOW ZN1(5) | |
IF(ALT.GT.ZN1(5)) THEN | |
IF(V2.EQ.1.OR.ALAST.LE.ZN1(5)) G0=PTM(4)*PS(1) | |
$ *(1.+SW(19)*GLOBE7(YRD,SEC,GLAT,GLONG,STL,F107A,F107,AP,PS)) | |
ELSE | |
G0=PTM(4)*PS(1) | |
ENDIF | |
C Calculate these temperatures only if input changed | |
IF(V2.EQ.1. .OR. ALT.LT.300.) | |
$ TLB=PTM(2)*(1.+SW(17)*GLOBE7(YRD,SEC,GLAT,GLONG,STL, | |
$ F107A,F107,AP,PD(1,4)))*PD(1,4) | |
S=G0/(TINF-TLB) | |
C Lower thermosphere temp variations not significant for | |
C density above 300 km | |
IF(ALT.LT.300.) THEN | |
IF(V2.EQ.1..OR.ALAST.GE.300.) THEN | |
TN1(2)=PTM(7)*PTL(1,1)/(1.-SW(18)*GLOB7S(PTL(1,1))) | |
TN1(3)=PTM(3)*PTL(1,2)/(1.-SW(18)*GLOB7S(PTL(1,2))) | |
TN1(4)=PTM(8)*PTL(1,3)/(1.-SW(18)*GLOB7S(PTL(1,3))) | |
TN1(5)=PTM(5)*PTL(1,4)/(1.-SW(18)*SW(20)*GLOB7S(PTL(1,4))) | |
TGN1(2)=PTM(9)*PMA(1,9)*(1.+SW(18)*SW(20)*GLOB7S(PMA(1,9))) | |
$ *TN1(5)*TN1(5)/(PTM(5)*PTL(1,4))**2 | |
ENDIF | |
ELSE | |
TN1(2)=PTM(7)*PTL(1,1) | |
TN1(3)=PTM(3)*PTL(1,2) | |
TN1(4)=PTM(8)*PTL(1,3) | |
TN1(5)=PTM(5)*PTL(1,4) | |
TGN1(2)=PTM(9)*PMA(1,9) | |
$ *TN1(5)*TN1(5)/(PTM(5)*PTL(1,4))**2 | |
ENDIF | |
C | |
Z0=ZN1(4) | |
T0=TN1(4) | |
TR12=1. | |
C | |
IF(MASS.EQ.0) GO TO 50 | |
C N2 variation factor at Zlb | |
G28=SW(21)*GLOBE7(YRD,SEC,GLAT,GLONG,STL,F107A,F107, | |
& AP,PD(1,3)) | |
DAY=AMOD(YRD,1000.) | |
C VARIATION OF TURBOPAUSE HEIGHT | |
ZHF=PDL(25,2) | |
$ *(1.+SW(5)*PDL(25,1)*SIN(DGTR*GLAT)*COS(DR*(DAY-PT(14)))) | |
YRD=IYD | |
T(1)=TINF | |
XMM=PDM(5,3) | |
Z=ALT | |
C | |
DO 10 J = 1,11 | |
IF(MASS.EQ.MT(J)) GO TO 15 | |
10 CONTINUE | |
WRITE(6,100) MASS | |
GO TO 90 | |
15 IF(Z.GT.ALTL(6).AND.MASS.NE.28.AND.MASS.NE.48) GO TO 17 | |
C | |
C **** N2 DENSITY **** | |
C | |
C Diffusive density at Zlb | |
DB28 = PDM(1,3)*EXP(G28)*PD(1,3) | |
C Diffusive density at Alt | |
D(3)=DENSU(Z,DB28,TINF,TLB, 28.,ALPHA(3),T(2),PTM(6),S,MN1,ZN1, | |
& TN1,TGN1) | |
DD=D(3) | |
C Turbopause | |
ZH28=PDM(3,3)*ZHF | |
ZHM28=PDM(4,3)*PDL(6,2) | |
XMD=28.-XMM | |
C Mixed density at Zlb | |
B28=DENSU(ZH28,DB28,TINF,TLB,XMD,ALPHA(3)-1.,TZ,PTM(6),S,MN1, | |
& ZN1,TN1,TGN1) | |
IF(Z.GT.ALTL(3).OR.SW(15).EQ.0.) GO TO 17 | |
C Mixed density at Alt | |
DM28=DENSU(Z,B28,TINF,TLB,XMM,ALPHA(3),TZ,PTM(6),S,MN1, | |
& ZN1,TN1,TGN1) | |
C Net density at Alt | |
D(3)=DNET(D(3),DM28,ZHM28,XMM,28.) | |
17 CONTINUE | |
GO TO (20,50,20,25,90,35,40,45,25,48,46), J | |
20 CONTINUE | |
C | |
C **** HE DENSITY **** | |
C | |
C Density variation factor at Zlb | |
G4 = SW(21)*GLOBE7(YRD,SEC,GLAT,GLONG,STL,F107A,F107,AP,PD(1,1)) | |
C Diffusive density at Zlb | |
DB04 = PDM(1,1)*EXP(G4)*PD(1,1) | |
C Diffusive density at Alt | |
D(1)=DENSU(Z,DB04,TINF,TLB, 4.,ALPHA(1),T(2),PTM(6),S,MN1,ZN1, | |
& TN1,TGN1) | |
DD=D(1) | |
IF(Z.GT.ALTL(1).OR.SW(15).EQ.0.) GO TO 24 | |
C Turbopause | |
ZH04=PDM(3,1) | |
C Mixed density at Zlb | |
B04=DENSU(ZH04,DB04,TINF,TLB,4.-XMM,ALPHA(1)-1., | |
$ T(2),PTM(6),S,MN1,ZN1,TN1,TGN1) | |
C Mixed density at Alt | |
DM04=DENSU(Z,B04,TINF,TLB,XMM,0.,T(2),PTM(6),S,MN1,ZN1,TN1,TGN1) | |
ZHM04=ZHM28 | |
C Net density at Alt | |
D(1)=DNET(D(1),DM04,ZHM04,XMM,4.) | |
C Correction to specified mixing ratio at ground | |
RL=ALOG(B28*PDM(2,1)/B04) | |
ZC04=PDM(5,1)*PDL(1,2) | |
HC04=PDM(6,1)*PDL(2,2) | |
C Net density corrected at Alt | |
D(1)=D(1)*CCOR(Z,RL,HC04,ZC04) | |
24 CONTINUE | |
IF(MASS.NE.48) GO TO 90 | |
25 CONTINUE | |
C | |
C **** O DENSITY **** | |
C | |
C Density variation factor at Zlb | |
G16= SW(21)*GLOBE7(YRD,SEC,GLAT,GLONG,STL,F107A,F107,AP,PD(1,2)) | |
C Diffusive density at Zlb | |
DB16 = PDM(1,2)*EXP(G16)*PD(1,2) | |
C Diffusive density at Alt | |
D(2)=DENSU(Z,DB16,TINF,TLB, 16.,ALPHA(2),T(2),PTM(6),S,MN1, | |
$ ZN1,TN1,TGN1) | |
DD=D(2) | |
IF(Z.GT.ALTL(2).OR.SW(15).EQ.0.) GO TO 34 | |
C Corrected from PDM(3,1) to PDM(3,2) 12/2/85 | |
C Turbopause | |
ZH16=PDM(3,2) | |
C Mixed density at Zlb | |
B16=DENSU(ZH16,DB16,TINF,TLB,16-XMM,ALPHA(2)-1., | |
$ T(2),PTM(6),S,MN1,ZN1,TN1,TGN1) | |
C Mixed density at Alt | |
DM16=DENSU(Z,B16,TINF,TLB,XMM,0.,T(2),PTM(6),S,MN1,ZN1,TN1,TGN1) | |
ZHM16=ZHM28 | |
C Net density at Alt | |
D(2)=DNET(D(2),DM16,ZHM16,XMM,16.) | |
C 3/16/99 Change form to match O2 departure from diff equil near 150 | |
C km and add dependence on F10.7 | |
C RL=ALOG(B28*PDM(2,2)*ABS(PDL(17,2))/B16) | |
RL=PDM(2,2)*PDL(17,2)*(1.+SW(1)*PDL(24,1)*(F107A-150.)) | |
HC16=PDM(6,2)*PDL(4,2) | |
ZC16=PDM(5,2)*PDL(3,2) | |
HC216=PDM(6,2)*PDL(5,2) | |
D(2)=D(2)*CCOR2(Z,RL,HC16,ZC16,HC216) | |
C Chemistry correction | |
HCC16=PDM(8,2)*PDL(14,2) | |
ZCC16=PDM(7,2)*PDL(13,2) | |
RC16=PDM(4,2)*PDL(15,2) | |
C Net density corrected at Alt | |
D(2)=D(2)*CCOR(Z,RC16,HCC16,ZCC16) | |
34 CONTINUE | |
IF(MASS.NE.48.AND.MASS.NE.49) GO TO 90 | |
35 CONTINUE | |
C | |
C **** O2 DENSITY **** | |
C | |
C Density variation factor at Zlb | |
G32= SW(21)*GLOBE7(YRD,SEC,GLAT,GLONG,STL,F107A,F107,AP,PD(1,5)) | |
C Diffusive density at Zlb | |
DB32 = PDM(1,4)*EXP(G32)*PD(1,5) | |
C Diffusive density at Alt | |
D(4)=DENSU(Z,DB32,TINF,TLB, 32.,ALPHA(4),T(2),PTM(6),S,MN1, | |
$ ZN1,TN1,TGN1) | |
IF(MASS.EQ.49) THEN | |
DD=DD+2.*D(4) | |
ELSE | |
DD=D(4) | |
ENDIF | |
IF(SW(15).EQ.0.) GO TO 39 | |
IF(Z.GT.ALTL(4)) GO TO 38 | |
C Turbopause | |
ZH32=PDM(3,4) | |
C Mixed density at Zlb | |
B32=DENSU(ZH32,DB32,TINF,TLB,32.-XMM,ALPHA(4)-1., | |
$ T(2),PTM(6),S,MN1,ZN1,TN1,TGN1) | |
C Mixed density at Alt | |
DM32=DENSU(Z,B32,TINF,TLB,XMM,0.,T(2),PTM(6),S,MN1,ZN1,TN1,TGN1) | |
ZHM32=ZHM28 | |
C Net density at Alt | |
D(4)=DNET(D(4),DM32,ZHM32,XMM,32.) | |
C Correction to specified mixing ratio at ground | |
RL=ALOG(B28*PDM(2,4)/B32) | |
HC32=PDM(6,4)*PDL(8,2) | |
ZC32=PDM(5,4)*PDL(7,2) | |
D(4)=D(4)*CCOR(Z,RL,HC32,ZC32) | |
38 CONTINUE | |
C Correction for general departure from diffusive equilibrium above Zlb | |
HCC32=PDM(8,4)*PDL(23,2) | |
HCC232=PDM(8,4)*PDL(23,1) | |
ZCC32=PDM(7,4)*PDL(22,2) | |
RC32=PDM(4,4)*PDL(24,2)*(1.+SW(1)*PDL(24,1)*(F107A-150.)) | |
C Net density corrected at Alt | |
D(4)=D(4)*CCOR2(Z,RC32,HCC32,ZCC32,HCC232) | |
39 CONTINUE | |
IF(MASS.NE.48) GO TO 90 | |
40 CONTINUE | |
C | |
C **** AR DENSITY **** | |
C | |
C Density variation factor at Zlb | |
G40= SW(21)*GLOBE7(YRD,SEC,GLAT,GLONG,STL,F107A,F107,AP,PD(1,6)) | |
C Diffusive density at Zlb | |
DB40 = PDM(1,5)*EXP(G40)*PD(1,6) | |
C Diffusive density at Alt | |
D(5)=DENSU(Z,DB40,TINF,TLB, 40.,ALPHA(5),T(2),PTM(6),S,MN1, | |
$ ZN1,TN1,TGN1) | |
DD=D(5) | |
IF(Z.GT.ALTL(5).OR.SW(15).EQ.0.) GO TO 44 | |
C Turbopause | |
ZH40=PDM(3,5) | |
C Mixed density at Zlb | |
B40=DENSU(ZH40,DB40,TINF,TLB,40.-XMM,ALPHA(5)-1., | |
$ T(2),PTM(6),S,MN1,ZN1,TN1,TGN1) | |
C Mixed density at Alt | |
DM40=DENSU(Z,B40,TINF,TLB,XMM,0.,T(2),PTM(6),S,MN1,ZN1,TN1,TGN1) | |
ZHM40=ZHM28 | |
C Net density at Alt | |
D(5)=DNET(D(5),DM40,ZHM40,XMM,40.) | |
C Correction to specified mixing ratio at ground | |
RL=ALOG(B28*PDM(2,5)/B40) | |
HC40=PDM(6,5)*PDL(10,2) | |
ZC40=PDM(5,5)*PDL(9,2) | |
C Net density corrected at Alt | |
D(5)=D(5)*CCOR(Z,RL,HC40,ZC40) | |
44 CONTINUE | |
IF(MASS.NE.48) GO TO 90 | |
45 CONTINUE | |
C | |
C **** HYDROGEN DENSITY **** | |
C | |
C Density variation factor at Zlb | |
G1 = SW(21)*GLOBE7(YRD,SEC,GLAT,GLONG,STL,F107A,F107,AP,PD(1,7)) | |
C Diffusive density at Zlb | |
DB01 = PDM(1,6)*EXP(G1)*PD(1,7) | |
C Diffusive density at Alt | |
D(7)=DENSU(Z,DB01,TINF,TLB,1.,ALPHA(7),T(2),PTM(6),S,MN1, | |
$ ZN1,TN1,TGN1) | |
DD=D(7) | |
IF(Z.GT.ALTL(7).OR.SW(15).EQ.0.) GO TO 47 | |
C Turbopause | |
ZH01=PDM(3,6) | |
C Mixed density at Zlb | |
B01=DENSU(ZH01,DB01,TINF,TLB,1.-XMM,ALPHA(7)-1., | |
$ T(2),PTM(6),S,MN1,ZN1,TN1,TGN1) | |
C Mixed density at Alt | |
DM01=DENSU(Z,B01,TINF,TLB,XMM,0.,T(2),PTM(6),S,MN1,ZN1,TN1,TGN1) | |
ZHM01=ZHM28 | |
C Net density at Alt | |
D(7)=DNET(D(7),DM01,ZHM01,XMM,1.) | |
C Correction to specified mixing ratio at ground | |
RL=ALOG(B28*PDM(2,6)*ABS(PDL(18,2))/B01) | |
HC01=PDM(6,6)*PDL(12,2) | |
ZC01=PDM(5,6)*PDL(11,2) | |
D(7)=D(7)*CCOR(Z,RL,HC01,ZC01) | |
C Chemistry correction | |
HCC01=PDM(8,6)*PDL(20,2) | |
ZCC01=PDM(7,6)*PDL(19,2) | |
RC01=PDM(4,6)*PDL(21,2) | |
C Net density corrected at Alt | |
D(7)=D(7)*CCOR(Z,RC01,HCC01,ZCC01) | |
47 CONTINUE | |
IF(MASS.NE.48) GO TO 90 | |
48 CONTINUE | |
C | |
C **** ATOMIC NITROGEN DENSITY **** | |
C | |
C Density variation factor at Zlb | |
G14 = SW(21)*GLOBE7(YRD,SEC,GLAT,GLONG,STL,F107A,F107,AP,PD(1,8)) | |
C Diffusive density at Zlb | |
DB14 = PDM(1,7)*EXP(G14)*PD(1,8) | |
C Diffusive density at Alt | |
D(8)=DENSU(Z,DB14,TINF,TLB,14.,ALPHA(8),T(2),PTM(6),S,MN1, | |
$ ZN1,TN1,TGN1) | |
DD=D(8) | |
IF(Z.GT.ALTL(8).OR.SW(15).EQ.0.) GO TO 49 | |
C Turbopause | |
ZH14=PDM(3,7) | |
C Mixed density at Zlb | |
B14=DENSU(ZH14,DB14,TINF,TLB,14.-XMM,ALPHA(8)-1., | |
$ T(2),PTM(6),S,MN1,ZN1,TN1,TGN1) | |
C Mixed density at Alt | |
DM14=DENSU(Z,B14,TINF,TLB,XMM,0.,T(2),PTM(6),S,MN1,ZN1,TN1,TGN1) | |
ZHM14=ZHM28 | |
C Net density at Alt | |
D(8)=DNET(D(8),DM14,ZHM14,XMM,14.) | |
C Correction to specified mixing ratio at ground | |
RL=ALOG(B28*PDM(2,7)*ABS(PDL(3,1))/B14) | |
HC14=PDM(6,7)*PDL(2,1) | |
ZC14=PDM(5,7)*PDL(1,1) | |
D(8)=D(8)*CCOR(Z,RL,HC14,ZC14) | |
C Chemistry correction | |
HCC14=PDM(8,7)*PDL(5,1) | |
ZCC14=PDM(7,7)*PDL(4,1) | |
RC14=PDM(4,7)*PDL(6,1) | |
C Net density corrected at Alt | |
D(8)=D(8)*CCOR(Z,RC14,HCC14,ZCC14) | |
49 CONTINUE | |
IF(MASS.NE.48) GO TO 90 | |
46 CONTINUE | |
C | |
C **** Anomalous OXYGEN DENSITY **** | |
C | |
G16H = SW(21)*GLOBE7(YRD,SEC,GLAT,GLONG,STL,F107A,F107,AP,PD(1,9)) | |
DB16H = PDM(1,8)*EXP(G16H)*PD(1,9) | |
THO=PDM(10,8)*PDL(7,1) | |
DD=DENSU(Z,DB16H,THO,THO,16.,ALPHA(9),T2,PTM(6),S,MN1, | |
$ ZN1,TN1,TGN1) | |
ZSHT=PDM(6,8) | |
ZMHO=PDM(5,8) | |
ZSHO=SCALH(ZMHO,16.,THO) | |
D(9)=DD*EXP(-ZSHT/ZSHO*(EXP(-(Z-ZMHO)/ZSHT)-1.)) | |
IF(MASS.NE.48) GO TO 90 | |
C | |
C TOTAL MASS DENSITY | |
C | |
D(6) = 1.66E-24*(4.*D(1)+16.*D(2)+28.*D(3)+32.*D(4)+40.*D(5)+ | |
& D(7)+14.*D(8)) | |
DB48=1.66E-24*(4.*DB04+16.*DB16+28.*DB28+32.*DB32+40.*DB40+DB01+ | |
& 14.*DB14) | |
GO TO 90 | |
C TEMPERATURE AT ALTITUDE | |
50 CONTINUE | |
Z=ABS(ALT) | |
DDUM = DENSU(Z,1., TINF,TLB,0.,0.,T(2),PTM(6),S,MN1,ZN1,TN1,TGN1) | |
90 CONTINUE | |
C ADJUST DENSITIES FROM CGS TO KGM | |
IF(IMR.EQ.1) THEN | |
DO 95 I=1,9 | |
D(I)=D(I)*1.E6 | |
95 CONTINUE | |
D(6)=D(6)/1000. | |
ENDIF | |
ALAST=ALT | |
RETURN | |
100 FORMAT(1X,'MASS', I5, ' NOT VALID') | |
END | |
C----------------------------------------------------------------------- | |
SUBROUTINE METERS(METER) | |
C Convert outputs to Kg & Meters if METER true | |
LOGICAL METER | |
COMMON/METSEL/IMR | |
SAVE | |
IMR=0 | |
IF(METER) IMR=1 | |
END | |
C----------------------------------------------------------------------- | |
FUNCTION SCALH(ALT,XM,TEMP) | |
C Calculate scale height (km) | |
COMMON/PARMB/GSURF,RE | |
SAVE | |
DATA RGAS/831.4/ | |
G=GSURF/(1.+ALT/RE)**2 | |
SCALH=RGAS*TEMP/(G*XM) | |
RETURN | |
END | |
C----------------------------------------------------------------------- | |
FUNCTION GLOBE7(YRD,SEC,LAT,LONG,TLOC,F107A,F107,AP,P) | |
C CALCULATE G(L) FUNCTION | |
C Upper Thermosphere Parameters | |
REAL LAT, LONG | |
DIMENSION P(1),SV(25),AP(1) | |
COMMON/TTEST/TINF,GB,ROUT,T(15) | |
COMMON/CSW/SW(25),ISW,SWC(25) | |
COMMON/LPOLY/PLG(9,4),CTLOC,STLOC,C2TLOC,S2TLOC,C3TLOC,S3TLOC, | |
$ IYR,DAY,DF,DFA,APD,APDF,APT(4),XLONG | |
SAVE | |
DATA DGTR/1.74533E-2/,DR/1.72142E-2/, XL/1000./,TLL/1000./ | |
DATA SW9/1./,DAYL/-1./,P14/-1000./,P18/-1000./,P32/-1000./ | |
DATA HR/.2618/,SR/7.2722E-5/,SV/25*1./,NSW/14/,P39/-1000./ | |
C 3hr Magnetic activity functions | |
C Eq. A24d | |
G0(A)=(A-4.+(P(26)-1.)*(A-4.+(EXP(-ABS(P(25))*(A-4.))-1.)/ABS(P(25 | |
*)))) | |
C Eq. A24c | |
SUMEX(EX)=1.+(1.-EX**19)/(1.-EX)*EX**(.5) | |
C Eq. A24a | |
SG0(EX)=(G0(AP(2))+(G0(AP(3))*EX+G0(AP(4))*EX*EX+G0(AP(5))*EX**3 | |
$ +(G0(AP(6))*EX**4+G0(AP(7))*EX**12)*(1.-EX**8)/(1.-EX)) | |
$ )/SUMEX(EX) | |
IF(ISW.NE.64999) CALL TSELEC(SV) | |
DO 10 J=1,14 | |
T(J)=0 | |
10 CONTINUE | |
IF(SW(9).GT.0) SW9=1. | |
IF(SW(9).LT.0) SW9=-1. | |
IYR = YRD/1000. | |
DAY = YRD - IYR*1000. | |
XLONG=LONG | |
C Eq. A22 (remainder of code) | |
IF(XL.EQ.LAT) GO TO 15 | |
C CALCULATE LEGENDRE POLYNOMIALS | |
C = SIN(LAT*DGTR) | |
S = COS(LAT*DGTR) | |
C2 = C*C | |
C4 = C2*C2 | |
S2 = S*S | |
PLG(2,1) = C | |
PLG(3,1) = 0.5*(3.*C2 -1.) | |
PLG(4,1) = 0.5*(5.*C*C2-3.*C) | |
PLG(5,1) = (35.*C4 - 30.*C2 + 3.)/8. | |
PLG(6,1) = (63.*C2*C2*C - 70.*C2*C + 15.*C)/8. | |
PLG(7,1) = (11.*C*PLG(6,1) - 5.*PLG(5,1))/6. | |
C PLG(8,1) = (13.*C*PLG(7,1) - 6.*PLG(6,1))/7. | |
PLG(2,2) = S | |
PLG(3,2) = 3.*C*S | |
PLG(4,2) = 1.5*(5.*C2-1.)*S | |
PLG(5,2) = 2.5*(7.*C2*C-3.*C)*S | |
PLG(6,2) = 1.875*(21.*C4 - 14.*C2 +1.)*S | |
PLG(7,2) = (11.*C*PLG(6,2)-6.*PLG(5,2))/5. | |
C PLG(8,2) = (13.*C*PLG(7,2)-7.*PLG(6,2))/6. | |
C PLG(9,2) = (15.*C*PLG(8,2)-8.*PLG(7,2))/7. | |
PLG(3,3) = 3.*S2 | |
PLG(4,3) = 15.*S2*C | |
PLG(5,3) = 7.5*(7.*C2 -1.)*S2 | |
PLG(6,3) = 3.*C*PLG(5,3)-2.*PLG(4,3) | |
PLG(7,3)=(11.*C*PLG(6,3)-7.*PLG(5,3))/4. | |
PLG(8,3)=(13.*C*PLG(7,3)-8.*PLG(6,3))/5. | |
PLG(4,4) = 15.*S2*S | |
PLG(5,4) = 105.*S2*S*C | |
PLG(6,4)=(9.*C*PLG(5,4)-7.*PLG(4,4))/2. | |
PLG(7,4)=(11.*C*PLG(6,4)-8.*PLG(5,4))/3. | |
XL=LAT | |
15 CONTINUE | |
IF(TLL.EQ.TLOC) GO TO 16 | |
IF(SW(7).EQ.0.AND.SW(8).EQ.0.AND.SW(14).EQ.0) GOTO 16 | |
STLOC = SIN(HR*TLOC) | |
CTLOC = COS(HR*TLOC) | |
S2TLOC = SIN(2.*HR*TLOC) | |
C2TLOC = COS(2.*HR*TLOC) | |
S3TLOC = SIN(3.*HR*TLOC) | |
C3TLOC = COS(3.*HR*TLOC) | |
TLL = TLOC | |
16 CONTINUE | |
IF(DAY.NE.DAYL.OR.P(14).NE.P14) CD14=COS(DR*(DAY-P(14))) | |
IF(DAY.NE.DAYL.OR.P(18).NE.P18) CD18=COS(2.*DR*(DAY-P(18))) | |
IF(DAY.NE.DAYL.OR.P(32).NE.P32) CD32=COS(DR*(DAY-P(32))) | |
IF(DAY.NE.DAYL.OR.P(39).NE.P39) CD39=COS(2.*DR*(DAY-P(39))) | |
DAYL = DAY | |
P14 = P(14) | |
P18 = P(18) | |
P32 = P(32) | |
P39 = P(39) | |
C F10.7 EFFECT | |
DF = F107 - F107A | |
DFA=F107A-150. | |
T(1) = P(20)*DF*(1.+P(60)*DFA) + P(21)*DF*DF + P(22)*DFA | |
& + P(30)*DFA**2 | |
F1 = 1. + (P(48)*DFA +P(20)*DF+P(21)*DF*DF)*SWC(1) | |
F2 = 1. + (P(50)*DFA+P(20)*DF+P(21)*DF*DF)*SWC(1) | |
C TIME INDEPENDENT | |
T(2) = | |
1 (P(2)*PLG(3,1) + P(3)*PLG(5,1)+P(23)*PLG(7,1)) | |
& +(P(15)*PLG(3,1))*DFA*SWC(1) | |
2 +P(27)*PLG(2,1) | |
C SYMMETRICAL ANNUAL | |
T(3) = | |
1 (P(19) )*CD32 | |
C SYMMETRICAL SEMIANNUAL | |
T(4) = | |
1 (P(16)+P(17)*PLG(3,1))*CD18 | |
C ASYMMETRICAL ANNUAL | |
T(5) = F1* | |
1 (P(10)*PLG(2,1)+P(11)*PLG(4,1))*CD14 | |
C ASYMMETRICAL SEMIANNUAL | |
T(6) = P(38)*PLG(2,1)*CD39 | |
C DIURNAL | |
IF(SW(7).EQ.0) GOTO 200 | |
T71 = (P(12)*PLG(3,2))*CD14*SWC(5) | |
T72 = (P(13)*PLG(3,2))*CD14*SWC(5) | |
T(7) = F2* | |
1 ((P(4)*PLG(2,2) + P(5)*PLG(4,2) + P(28)*PLG(6,2) | |
2 + T71)*CTLOC | |
4 + (P(7)*PLG(2,2) + P(8)*PLG(4,2) +P(29)*PLG(6,2) | |
5 + T72)*STLOC) | |
200 CONTINUE | |
C SEMIDIURNAL | |
IF(SW(8).EQ.0) GOTO 210 | |
T81 = (P(24)*PLG(4,3)+P(36)*PLG(6,3))*CD14*SWC(5) | |
T82 = (P(34)*PLG(4,3)+P(37)*PLG(6,3))*CD14*SWC(5) | |
T(8) = F2* | |
1 ((P(6)*PLG(3,3) + P(42)*PLG(5,3) + T81)*C2TLOC | |
3 +(P(9)*PLG(3,3) + P(43)*PLG(5,3) + T82)*S2TLOC) | |
210 CONTINUE | |
C TERDIURNAL | |
IF(SW(14).EQ.0) GOTO 220 | |
T(14) = F2* | |
1 ((P(40)*PLG(4,4)+(P(94)*PLG(5,4)+P(47)*PLG(7,4))*CD14*SWC(5))* | |
$ S3TLOC | |
2 +(P(41)*PLG(4,4)+(P(95)*PLG(5,4)+P(49)*PLG(7,4))*CD14*SWC(5))* | |
$ C3TLOC) | |
220 CONTINUE | |
C MAGNETIC ACTIVITY BASED ON DAILY AP | |
IF(SW9.EQ.-1.) GO TO 30 | |
APD=(AP(1)-4.) | |
P44=P(44) | |
P45=P(45) | |
IF(P44.LT.0) P44=1.E-5 | |
APDF = APD+(P45-1.)*(APD+(EXP(-P44 *APD)-1.)/P44) | |
IF(SW(9).EQ.0) GOTO 40 | |
T(9)=APDF*(P(33)+P(46)*PLG(3,1)+P(35)*PLG(5,1)+ | |
$ (P(101)*PLG(2,1)+P(102)*PLG(4,1)+P(103)*PLG(6,1))*CD14*SWC(5)+ | |
$ (P(122)*PLG(2,2)+P(123)*PLG(4,2)+P(124)*PLG(6,2))*SWC(7)* | |
$ COS(HR*(TLOC-P(125)))) | |
GO TO 40 | |
30 CONTINUE | |
IF(P(52).EQ.0) GO TO 40 | |
EXP1 = EXP(-10800.*ABS(P(52))/(1.+P(139)*(45.-ABS(LAT)))) | |
IF(EXP1.GT..99999) EXP1=.99999 | |
IF(P(25).LT.1.E-4) P(25)=1.E-4 | |
APT(1)=SG0(EXP1) | |
C APT(2)=SG2(EXP1) | |
c APT(3)=SG0(EXP2) | |
C APT(4)=SG2(EXP2) | |
IF(SW(9).EQ.0) GOTO 40 | |
T(9) = APT(1)*(P(51)+P(97)*PLG(3,1)+P(55)*PLG(5,1)+ | |
$ (P(126)*PLG(2,1)+P(127)*PLG(4,1)+P(128)*PLG(6,1))*CD14*SWC(5)+ | |
$ (P(129)*PLG(2,2)+P(130)*PLG(4,2)+P(131)*PLG(6,2))*SWC(7)* | |
$ COS(HR*(TLOC-P(132)))) | |
40 CONTINUE | |
IF(SW(10).EQ.0.OR.LONG.LE.-1000.) GO TO 49 | |
C LONGITUDINAL | |
IF(SW(11).EQ.0) GOTO 230 | |
T(11)= (1.+P(81)*DFA*SWC(1))* | |
$((P(65)*PLG(3,2)+P(66)*PLG(5,2)+P(67)*PLG(7,2) | |
$ +P(104)*PLG(2,2)+P(105)*PLG(4,2)+P(106)*PLG(6,2) | |
$ +SWC(5)*(P(110)*PLG(2,2)+P(111)*PLG(4,2)+P(112)*PLG(6,2))*CD14)* | |
$ COS(DGTR*LONG) | |
$ +(P(91)*PLG(3,2)+P(92)*PLG(5,2)+P(93)*PLG(7,2) | |
$ +P(107)*PLG(2,2)+P(108)*PLG(4,2)+P(109)*PLG(6,2) | |
$ +SWC(5)*(P(113)*PLG(2,2)+P(114)*PLG(4,2)+P(115)*PLG(6,2))*CD14)* | |
$ SIN(DGTR*LONG)) | |
230 CONTINUE | |
C UT AND MIXED UT,LONGITUDE | |
IF(SW(12).EQ.0) GOTO 240 | |
T(12)=(1.+P(96)*PLG(2,1))*(1.+P(82)*DFA*SWC(1))* | |
$(1.+P(120)*PLG(2,1)*SWC(5)*CD14)* | |
$((P(69)*PLG(2,1)+P(70)*PLG(4,1)+P(71)*PLG(6,1))* | |
$ COS(SR*(SEC-P(72)))) | |
T(12)=T(12)+SWC(11)* | |
$ (P(77)*PLG(4,3)+P(78)*PLG(6,3)+P(79)*PLG(8,3))* | |
$ COS(SR*(SEC-P(80))+2.*DGTR*LONG)*(1.+P(138)*DFA*SWC(1)) | |
240 CONTINUE | |
C UT,LONGITUDE MAGNETIC ACTIVITY | |
IF(SW(13).EQ.0) GOTO 48 | |
IF(SW9.EQ.-1.) GO TO 45 | |
T(13)= APDF*SWC(11)*(1.+P(121)*PLG(2,1))* | |
$((P( 61)*PLG(3,2)+P( 62)*PLG(5,2)+P( 63)*PLG(7,2))* | |
$ COS(DGTR*(LONG-P( 64)))) | |
$ +APDF*SWC(11)*SWC(5)* | |
$ (P(116)*PLG(2,2)+P(117)*PLG(4,2)+P(118)*PLG(6,2))* | |
$ CD14*COS(DGTR*(LONG-P(119))) | |
$ + APDF*SWC(12)* | |
$ (P( 84)*PLG(2,1)+P( 85)*PLG(4,1)+P( 86)*PLG(6,1))* | |
$ COS(SR*(SEC-P( 76))) | |
GOTO 48 | |
45 CONTINUE | |
IF(P(52).EQ.0) GOTO 48 | |
T(13)=APT(1)*SWC(11)*(1.+P(133)*PLG(2,1))* | |
$((P(53)*PLG(3,2)+P(99)*PLG(5,2)+P(68)*PLG(7,2))* | |
$ COS(DGTR*(LONG-P(98)))) | |
$ +APT(1)*SWC(11)*SWC(5)* | |
$ (P(134)*PLG(2,2)+P(135)*PLG(4,2)+P(136)*PLG(6,2))* | |
$ CD14*COS(DGTR*(LONG-P(137))) | |
$ +APT(1)*SWC(12)* | |
$ (P(56)*PLG(2,1)+P(57)*PLG(4,1)+P(58)*PLG(6,1))* | |
$ COS(SR*(SEC-P(59))) | |
48 CONTINUE | |
C PARMS NOT USED: 83, 90,100,140-150 | |
49 CONTINUE | |
TINF=P(31) | |
DO 50 I = 1,NSW | |
50 TINF = TINF + ABS(SW(I))*T(I) | |
GLOBE7 = TINF | |
RETURN | |
END | |
C----------------------------------------------------------------------- | |
SUBROUTINE TSELEC(SV) | |
C SET SWITCHES | |
C Output in COMMON/CSW/SW(25),ISW,SWC(25) | |
C SW FOR MAIN TERMS, SWC FOR CROSS TERMS | |
C | |
C TO TURN ON AND OFF PARTICULAR VARIATIONS CALL TSELEC(SV), | |
C WHERE SV IS A 25 ELEMENT ARRAY CONTAINING 0. FOR OFF, 1. | |
C FOR ON, OR 2. FOR MAIN EFFECTS OFF BUT CROSS TERMS ON | |
C | |
C To get current values of SW: CALL TRETRV(SW) | |
C | |
DIMENSION SV(1),SAV(25),SVV(1) | |
COMMON/CSW/SW(25),ISW,SWC(25) | |
SAVE | |
DO 100 I = 1,25 | |
SAV(I)=SV(I) | |
SW(I)=AMOD(SV(I),2.) | |
IF(ABS(SV(I)).EQ.1.OR.ABS(SV(I)).EQ.2.) THEN | |
SWC(I)=1. | |
ELSE | |
SWC(I)=0. | |
ENDIF | |
100 CONTINUE | |
ISW=64999 | |
RETURN | |
ENTRY TRETRV(SVV) | |
DO 200 I=1,25 | |
SVV(I)=SAV(I) | |
200 CONTINUE | |
END | |
C----------------------------------------------------------------------- | |
FUNCTION GLOB7S(P) | |
C VERSION OF GLOBE FOR LOWER ATMOSPHERE 10/26/99 | |
REAL LONG | |
COMMON/LPOLY/PLG(9,4),CTLOC,STLOC,C2TLOC,S2TLOC,C3TLOC,S3TLOC, | |
$ IYR,DAY,DF,DFA,APD,APDF,APT(4),LONG | |
COMMON/CSW/SW(25),ISW,SWC(25) | |
DIMENSION P(1),T(14) | |
SAVE | |
DATA DR/1.72142E-2/,DGTR/1.74533E-2/,PSET/2./ | |
DATA DAYL/-1./,P32,P18,P14,P39/4*-1000./ | |
C CONFIRM PARAMETER SET | |
IF(P(100).EQ.0) P(100)=PSET | |
IF(P(100).NE.PSET) THEN | |
WRITE(6,900) PSET,P(100) | |
900 FORMAT(1X,'WRONG PARAMETER SET FOR GLOB7S',3F10.1) | |
STOP | |
ENDIF | |
DO 10 J=1,14 | |
T(J)=0. | |
10 CONTINUE | |
IF(DAY.NE.DAYL.OR.P32.NE.P(32)) CD32=COS(DR*(DAY-P(32))) | |
IF(DAY.NE.DAYL.OR.P18.NE.P(18)) CD18=COS(2.*DR*(DAY-P(18))) | |
IF(DAY.NE.DAYL.OR.P14.NE.P(14)) CD14=COS(DR*(DAY-P(14))) | |
IF(DAY.NE.DAYL.OR.P39.NE.P(39)) CD39=COS(2.*DR*(DAY-P(39))) | |
DAYL=DAY | |
P32=P(32) | |
P18=P(18) | |
P14=P(14) | |
P39=P(39) | |
C | |
C F10.7 | |
T(1)=P(22)*DFA | |
C TIME INDEPENDENT | |
T(2)=P(2)*PLG(3,1)+P(3)*PLG(5,1)+P(23)*PLG(7,1) | |
$ +P(27)*PLG(2,1)+P(15)*PLG(4,1)+P(60)*PLG(6,1) | |
C SYMMETRICAL ANNUAL | |
T(3)=(P(19)+P(48)*PLG(3,1)+P(30)*PLG(5,1))*CD32 | |
C SYMMETRICAL SEMIANNUAL | |
T(4)=(P(16)+P(17)*PLG(3,1)+P(31)*PLG(5,1))*CD18 | |
C ASYMMETRICAL ANNUAL | |
T(5)=(P(10)*PLG(2,1)+P(11)*PLG(4,1)+P(21)*PLG(6,1))*CD14 | |
C ASYMMETRICAL SEMIANNUAL | |
T(6)=(P(38)*PLG(2,1))*CD39 | |
C DIURNAL | |
IF(SW(7).EQ.0) GOTO 200 | |
T71 = P(12)*PLG(3,2)*CD14*SWC(5) | |
T72 = P(13)*PLG(3,2)*CD14*SWC(5) | |
T(7) = | |
1 ((P(4)*PLG(2,2) + P(5)*PLG(4,2) | |
2 + T71)*CTLOC | |
4 + (P(7)*PLG(2,2) + P(8)*PLG(4,2) | |
5 + T72)*STLOC) | |
200 CONTINUE | |
C SEMIDIURNAL | |
IF(SW(8).EQ.0) GOTO 210 | |
T81 = (P(24)*PLG(4,3)+P(36)*PLG(6,3))*CD14*SWC(5) | |
T82 = (P(34)*PLG(4,3)+P(37)*PLG(6,3))*CD14*SWC(5) | |
T(8) = | |
1 ((P(6)*PLG(3,3) + P(42)*PLG(5,3) + T81)*C2TLOC | |
3 +(P(9)*PLG(3,3) + P(43)*PLG(5,3) + T82)*S2TLOC) | |
210 CONTINUE | |
C TERDIURNAL | |
IF(SW(14).EQ.0) GOTO 220 | |
T(14) = P(40)*PLG(4,4)*S3TLOC | |
$ +P(41)*PLG(4,4)*C3TLOC | |
220 CONTINUE | |
C MAGNETIC ACTIVITY | |
IF(SW(9).EQ.0) GOTO 40 | |
IF(SW(9).EQ.1) | |
$ T(9)=APDF*(P(33)+P(46)*PLG(3,1)*SWC(2)) | |
IF(SW(9).EQ.-1) | |
$ T(9)=(P(51)*APT(1)+P(97)*PLG(3,1)*APT(1)*SWC(2)) | |
40 CONTINUE | |
IF(SW(10).EQ.0.OR.SW(11).EQ.0.OR.LONG.LE.-1000.) GO TO 49 | |
C LONGITUDINAL | |
T(11)= (1.+PLG(2,1)*(P(81)*SWC(5)*COS(DR*(DAY-P(82))) | |
$ +P(86)*SWC(6)*COS(2.*DR*(DAY-P(87)))) | |
$ +P(84)*SWC(3)*COS(DR*(DAY-P(85))) | |
$ +P(88)*SWC(4)*COS(2.*DR*(DAY-P(89)))) | |
$ *((P(65)*PLG(3,2)+P(66)*PLG(5,2)+P(67)*PLG(7,2) | |
$ +P(75)*PLG(2,2)+P(76)*PLG(4,2)+P(77)*PLG(6,2) | |
$ )*COS(DGTR*LONG) | |
$ +(P(91)*PLG(3,2)+P(92)*PLG(5,2)+P(93)*PLG(7,2) | |
$ +P(78)*PLG(2,2)+P(79)*PLG(4,2)+P(80)*PLG(6,2) | |
$ )*SIN(DGTR*LONG)) | |
49 CONTINUE | |
TT=0. | |
DO 50 I=1,14 | |
50 TT=TT+ABS(SW(I))*T(I) | |
GLOB7S=TT | |
RETURN | |
END | |
C-------------------------------------------------------------------- | |
FUNCTION DENSU(ALT,DLB,TINF,TLB,XM,ALPHA,TZ,ZLB,S2, | |
$ MN1,ZN1,TN1,TGN1) | |
C Calculate Temperature and Density Profiles for MSIS models | |
C New lower thermo polynomial 10/30/89 | |
DIMENSION ZN1(MN1),TN1(MN1),TGN1(2),XS(5),YS(5),Y2OUT(5) | |
COMMON/PARMB/GSURF,RE | |
COMMON/LSQV/MP,II,JG,LT,QPB(50),IERR,IFUN,N,J,DV(60) | |
SAVE | |
DATA RGAS/831.4/ | |
ZETA(ZZ,ZL)=(ZZ-ZL)*(RE+ZL)/(RE+ZZ) | |
CCCCCCWRITE(6,*) 'DB',ALT,DLB,TINF,TLB,XM,ALPHA,ZLB,S2,MN1,ZN1,TN1 | |
DENSU=1. | |
C Joining altitude of Bates and spline | |
ZA=ZN1(1) | |
Z=AMAX1(ALT,ZA) | |
C Geopotential altitude difference from ZLB | |
ZG2=ZETA(Z,ZLB) | |
C Bates temperature | |
TT=TINF-(TINF-TLB)*EXP(-S2*ZG2) | |
TA=TT | |
TZ=TT | |
DENSU=TZ | |
IF(ALT.GE.ZA) GO TO 10 | |
C | |
C CALCULATE TEMPERATURE BELOW ZA | |
C Temperature gradient at ZA from Bates profile | |
DTA=(TINF-TA)*S2*((RE+ZLB)/(RE+ZA))**2 | |
TGN1(1)=DTA | |
TN1(1)=TA | |
Z=AMAX1(ALT,ZN1(MN1)) | |
MN=MN1 | |
Z1=ZN1(1) | |
Z2=ZN1(MN) | |
T1=TN1(1) | |
T2=TN1(MN) | |
C Geopotental difference from Z1 | |
ZG=ZETA(Z,Z1) | |
ZGDIF=ZETA(Z2,Z1) | |
C Set up spline nodes | |
DO 20 K=1,MN | |
XS(K)=ZETA(ZN1(K),Z1)/ZGDIF | |
YS(K)=1./TN1(K) | |
20 CONTINUE | |
C End node derivatives | |
YD1=-TGN1(1)/(T1*T1)*ZGDIF | |
YD2=-TGN1(2)/(T2*T2)*ZGDIF*((RE+Z2)/(RE+Z1))**2 | |
C Calculate spline coefficients | |
CALL SPLINE(XS,YS,MN,YD1,YD2,Y2OUT) | |
X=ZG/ZGDIF | |
CALL SPLINT(XS,YS,Y2OUT,MN,X,Y) | |
C temperature at altitude | |
TZ=1./Y | |
DENSU=TZ | |
10 IF(XM.EQ.0.) GO TO 50 | |
C | |
C CALCULATE DENSITY ABOVE ZA | |
GLB=GSURF/(1.+ZLB/RE)**2 | |
GAMMA=XM*GLB/(S2*RGAS*TINF) | |
EXPL=EXP(-S2*GAMMA*ZG2) | |
IF(EXPL.GT.50.OR.TT.LE.0.) THEN | |
EXPL=50. | |
ENDIF | |
C Density at altitude | |
DENSA=DLB*(TLB/TT)**(1.+ALPHA+GAMMA)*EXPL | |
DENSU=DENSA | |
IF(ALT.GE.ZA) GO TO 50 | |
C | |
C CALCULATE DENSITY BELOW ZA | |
GLB=GSURF/(1.+Z1/RE)**2 | |
GAMM=XM*GLB*ZGDIF/RGAS | |
C integrate spline temperatures | |
CALL SPLINI(XS,YS,Y2OUT,MN,X,YI) | |
EXPL=GAMM*YI | |
IF(EXPL.GT.50..OR.TZ.LE.0.) THEN | |
EXPL=50. | |
ENDIF | |
C Density at altitude | |
DENSU=DENSU*(T1/TZ)**(1.+ALPHA)*EXP(-EXPL) | |
50 CONTINUE | |
RETURN | |
END | |
C-------------------------------------------------------------------- | |
FUNCTION DENSM(ALT,D0,XM,TZ,MN3,ZN3,TN3,TGN3,MN2,ZN2,TN2,TGN2) | |
C Calculate Temperature and Density Profiles for lower atmos. | |
DIMENSION ZN3(MN3),TN3(MN3),TGN3(2),XS(10),YS(10),Y2OUT(10) | |
DIMENSION ZN2(MN2),TN2(MN2),TGN2(2) | |
COMMON/PARMB/GSURF,RE | |
COMMON/FIT/TAF | |
COMMON/LSQV/MP,II,JG,LT,QPB(50),IERR,IFUN,N,J,DV(60) | |
SAVE | |
DATA RGAS/831.4/ | |
ZETA(ZZ,ZL)=(ZZ-ZL)*(RE+ZL)/(RE+ZZ) | |
DENSM=D0 | |
IF(ALT.GT.ZN2(1)) GOTO 50 | |
C STRATOSPHERE/MESOSPHERE TEMPERATURE | |
Z=AMAX1(ALT,ZN2(MN2)) | |
MN=MN2 | |
Z1=ZN2(1) | |
Z2=ZN2(MN) | |
T1=TN2(1) | |
T2=TN2(MN) | |
ZG=ZETA(Z,Z1) | |
ZGDIF=ZETA(Z2,Z1) | |
C Set up spline nodes | |
DO 210 K=1,MN | |
XS(K)=ZETA(ZN2(K),Z1)/ZGDIF | |
YS(K)=1./TN2(K) | |
210 CONTINUE | |
YD1=-TGN2(1)/(T1*T1)*ZGDIF | |
YD2=-TGN2(2)/(T2*T2)*ZGDIF*((RE+Z2)/(RE+Z1))**2 | |
C Calculate spline coefficients | |
CALL SPLINE(XS,YS,MN,YD1,YD2,Y2OUT) | |
X=ZG/ZGDIF | |
CALL SPLINT(XS,YS,Y2OUT,MN,X,Y) | |
C Temperature at altitude | |
TZ=1./Y | |
IF(XM.EQ.0.) GO TO 20 | |
C | |
C CALCULATE STRATOSPHERE/MESOSPHERE DENSITY | |
GLB=GSURF/(1.+Z1/RE)**2 | |
GAMM=XM*GLB*ZGDIF/RGAS | |
C Integrate temperature profile | |
CALL SPLINI(XS,YS,Y2OUT,MN,X,YI) | |
EXPL=GAMM*YI | |
IF(EXPL.GT.50.) EXPL=50. | |
C Density at altitude | |
DENSM=DENSM*(T1/TZ)*EXP(-EXPL) | |
20 CONTINUE | |
IF(ALT.GT.ZN3(1)) GOTO 50 | |
C | |
C TROPOSPHERE/STRATOSPHERE TEMPERATURE | |
Z=ALT | |
MN=MN3 | |
Z1=ZN3(1) | |
Z2=ZN3(MN) | |
T1=TN3(1) | |
T2=TN3(MN) | |
ZG=ZETA(Z,Z1) | |
ZGDIF=ZETA(Z2,Z1) | |
C Set up spline nodes | |
DO 220 K=1,MN | |
XS(K)=ZETA(ZN3(K),Z1)/ZGDIF | |
YS(K)=1./TN3(K) | |
220 CONTINUE | |
YD1=-TGN3(1)/(T1*T1)*ZGDIF | |
YD2=-TGN3(2)/(T2*T2)*ZGDIF*((RE+Z2)/(RE+Z1))**2 | |
C Calculate spline coefficients | |
CALL SPLINE(XS,YS,MN,YD1,YD2,Y2OUT) | |
X=ZG/ZGDIF | |
CALL SPLINT(XS,YS,Y2OUT,MN,X,Y) | |
C temperature at altitude | |
TZ=1./Y | |
IF(XM.EQ.0.) GO TO 30 | |
C | |
C CALCULATE TROPOSPHERIC/STRATOSPHERE DENSITY | |
C | |
GLB=GSURF/(1.+Z1/RE)**2 | |
GAMM=XM*GLB*ZGDIF/RGAS | |
C Integrate temperature profile | |
CALL SPLINI(XS,YS,Y2OUT,MN,X,YI) | |
EXPL=GAMM*YI | |
IF(EXPL.GT.50.) EXPL=50. | |
C Density at altitude | |
DENSM=DENSM*(T1/TZ)*EXP(-EXPL) | |
30 CONTINUE | |
50 CONTINUE | |
IF(XM.EQ.0) DENSM=TZ | |
RETURN | |
END | |
C----------------------------------------------------------------------- | |
SUBROUTINE SPLINE(X,Y,N,YP1,YPN,Y2) | |
C CALCULATE 2ND DERIVATIVES OF CUBIC SPLINE INTERP FUNCTION | |
C ADAPTED FROM NUMERICAL RECIPES BY PRESS ET AL | |
C X,Y: ARRAYS OF TABULATED FUNCTION IN ASCENDING ORDER BY X | |
C N: SIZE OF ARRAYS X,Y | |
C YP1,YPN: SPECIFIED DERIVATIVES AT X(1) AND X(N); VALUES | |
C >= 1E30 SIGNAL SIGNAL SECOND DERIVATIVE ZERO | |
C Y2: OUTPUT ARRAY OF SECOND DERIVATIVES | |
PARAMETER (NMAX=100) | |
DIMENSION X(N),Y(N),Y2(N),U(NMAX) | |
SAVE | |
IF(YP1.GT..99E30) THEN | |
Y2(1)=0 | |
U(1)=0 | |
ELSE | |
Y2(1)=-.5 | |
U(1)=(3./(X(2)-X(1)))*((Y(2)-Y(1))/(X(2)-X(1))-YP1) | |
ENDIF | |
DO 11 I=2,N-1 | |
SIG=(X(I)-X(I-1))/(X(I+1)-X(I-1)) | |
P=SIG*Y2(I-1)+2. | |
Y2(I)=(SIG-1.)/P | |
U(I)=(6.*((Y(I+1)-Y(I))/(X(I+1)-X(I))-(Y(I)-Y(I-1)) | |
$ /(X(I)-X(I-1)))/(X(I+1)-X(I-1))-SIG*U(I-1))/P | |
11 CONTINUE | |
IF(YPN.GT..99E30) THEN | |
QN=0 | |
UN=0 | |
ELSE | |
QN=.5 | |
UN=(3./(X(N)-X(N-1)))*(YPN-(Y(N)-Y(N-1))/(X(N)-X(N-1))) | |
ENDIF | |
Y2(N)=(UN-QN*U(N-1))/(QN*Y2(N-1)+1.) | |
DO 12 K=N-1,1,-1 | |
Y2(K)=Y2(K)*Y2(K+1)+U(K) | |
12 CONTINUE | |
RETURN | |
END | |
C----------------------------------------------------------------------- | |
SUBROUTINE SPLINT(XA,YA,Y2A,N,X,Y) | |
C CALCULATE CUBIC SPLINE INTERP VALUE | |
C ADAPTED FROM NUMERICAL RECIPES BY PRESS ET AL. | |
C XA,YA: ARRAYS OF TABULATED FUNCTION IN ASCENDING ORDER BY X | |
C Y2A: ARRAY OF SECOND DERIVATIVES | |
C N: SIZE OF ARRAYS XA,YA,Y2A | |
C X: ABSCISSA FOR INTERPOLATION | |
C Y: OUTPUT VALUE | |
DIMENSION XA(N),YA(N),Y2A(N) | |
SAVE | |
KLO=1 | |
KHI=N | |
1 CONTINUE | |
IF(KHI-KLO.GT.1) THEN | |
K=(KHI+KLO)/2 | |
IF(XA(K).GT.X) THEN | |
KHI=K | |
ELSE | |
KLO=K | |
ENDIF | |
GOTO 1 | |
ENDIF | |
H=XA(KHI)-XA(KLO) | |
IF(H.EQ.0) WRITE(6,*) 'BAD XA INPUT TO SPLINT' | |
A=(XA(KHI)-X)/H | |
B=(X-XA(KLO))/H | |
Y=A*YA(KLO)+B*YA(KHI)+ | |
$ ((A*A*A-A)*Y2A(KLO)+(B*B*B-B)*Y2A(KHI))*H*H/6. | |
RETURN | |
END | |
C----------------------------------------------------------------------- | |
SUBROUTINE SPLINI(XA,YA,Y2A,N,X,YI) | |
C INTEGRATE CUBIC SPLINE FUNCTION FROM XA(1) TO X | |
C XA,YA: ARRAYS OF TABULATED FUNCTION IN ASCENDING ORDER BY X | |
C Y2A: ARRAY OF SECOND DERIVATIVES | |
C N: SIZE OF ARRAYS XA,YA,Y2A | |
C X: ABSCISSA ENDPOINT FOR INTEGRATION | |
C Y: OUTPUT VALUE | |
DIMENSION XA(N),YA(N),Y2A(N) | |
SAVE | |
YI=0 | |
KLO=1 | |
KHI=2 | |
1 CONTINUE | |
IF(X.GT.XA(KLO).AND.KHI.LE.N) THEN | |
XX=X | |
IF(KHI.LT.N) XX=AMIN1(X,XA(KHI)) | |
H=XA(KHI)-XA(KLO) | |
A=(XA(KHI)-XX)/H | |
B=(XX-XA(KLO))/H | |
A2=A*A | |
B2=B*B | |
YI=YI+((1.-A2)*YA(KLO)/2.+B2*YA(KHI)/2.+ | |
$ ((-(1.+A2*A2)/4.+A2/2.)*Y2A(KLO)+ | |
$ (B2*B2/4.-B2/2.)*Y2A(KHI))*H*H/6.)*H | |
KLO=KLO+1 | |
KHI=KHI+1 | |
GOTO 1 | |
ENDIF | |
RETURN | |
END | |
C----------------------------------------------------------------------- | |
FUNCTION DNET(DD,DM,ZHM,XMM,XM) | |
C TURBOPAUSE CORRECTION FOR MSIS MODELS | |
C Root mean density | |
C 8/20/80 | |
C DD - diffusive density | |
C DM - full mixed density | |
C ZHM - transition scale length | |
C XMM - full mixed molecular weight | |
C XM - species molecular weight | |
C DNET - combined density | |
SAVE | |
A=ZHM/(XMM-XM) | |
IF(DM.GT.0.AND.DD.GT.0) GOTO 5 | |
WRITE(6,*) 'DNET LOG ERROR',DM,DD,XM | |
IF(DD.EQ.0.AND.DM.EQ.0) DD=1. | |
IF(DM.EQ.0) GOTO 10 | |
IF(DD.EQ.0) GOTO 20 | |
5 CONTINUE | |
YLOG=A*ALOG(DM/DD) | |
IF(YLOG.LT.-10.) GO TO 10 | |
IF(YLOG.GT.10.) GO TO 20 | |
DNET=DD*(1.+EXP(YLOG))**(1/A) | |
GO TO 50 | |
10 CONTINUE | |
DNET=DD | |
GO TO 50 | |
20 CONTINUE | |
DNET=DM | |
GO TO 50 | |
50 CONTINUE | |
RETURN | |
END | |
C----------------------------------------------------------------------- | |
FUNCTION CCOR(ALT, R,H1,ZH) | |
C CHEMISTRY/DISSOCIATION CORRECTION FOR MSIS MODELS | |
C ALT - altitude | |
C R - target ratio | |
C H1 - transition scale length | |
C ZH - altitude of 1/2 R | |
SAVE | |
E=(ALT-ZH)/H1 | |
IF(E.GT.70.) GO TO 20 | |
IF(E.LT.-70.) GO TO 10 | |
EX=EXP(E) | |
CCOR=R/(1.+EX) | |
GO TO 50 | |
10 CCOR=R | |
GO TO 50 | |
20 CCOR=0. | |
GO TO 50 | |
50 CONTINUE | |
CCOR=EXP(CCOR) | |
RETURN | |
END | |
C----------------------------------------------------------------------- | |
FUNCTION CCOR2(ALT, R,H1,ZH,H2) | |
C O&O2 CHEMISTRY/DISSOCIATION CORRECTION FOR MSIS MODELS | |
E1=(ALT-ZH)/H1 | |
E2=(ALT-ZH)/H2 | |
IF(E1.GT.70. .OR. E2.GT.70.) GO TO 20 | |
IF(E1.LT.-70. .AND. E2.LT.-70) GO TO 10 | |
EX1=EXP(E1) | |
EX2=EXP(E2) | |
CCOR2=R/(1.+.5*(EX1+EX2)) | |
GO TO 50 | |
10 CCOR2=R | |
GO TO 50 | |
20 CCOR2=0. | |
GO TO 50 | |
50 CONTINUE | |
CCOR2=EXP(CCOR2) | |
RETURN | |
END | |
C----------------------------------------------------------------------- | |
BLOCK DATA GTD7BK | |
C MSISE-00 01-FEB-02 | |
COMMON/PARM7/PT1(50),PT2(50),PT3(50),PA1(50),PA2(50),PA3(50), | |
$ PB1(50),PB2(50),PB3(50),PC1(50),PC2(50),PC3(50), | |
$ PD1(50),PD2(50),PD3(50),PE1(50),PE2(50),PE3(50), | |
$ PF1(50),PF2(50),PF3(50),PG1(50),PG2(50),PG3(50), | |
$ PH1(50),PH2(50),PH3(50),PI1(50),PI2(50),PI3(50), | |
$ PJ1(50),PJ2(50),PJ3(50),PK1(50),PL1(50),PL2(50), | |
$ PM1(50),PM2(50),PN1(50),PN2(50),PO1(50),PO2(50), | |
$ PP1(50),PP2(50),PQ1(50),PQ2(50),PR1(50),PR2(50), | |
$ PS1(50),PS2(50),PU1(50),PU2(50),PV1(50),PV2(50), | |
$ PW1(50),PW2(50),PX1(50),PX2(50),PY1(50),PY2(50), | |
$ PZ1(50),PZ2(50),PAA1(50),PAA2(50) | |
COMMON/LOWER7/PTM(10),PDM(10,8) | |
COMMON/MAVG7/PAVGM(10) | |
COMMON/DATIM7/ISDATE(3),ISTIME(2),NAME(2) | |
COMMON/METSEL/IMR | |
DATA IMR/0/ | |
DATA ISDATE/'01-F','EB-0','2 '/,ISTIME/'15:4','9:27'/ | |
DATA NAME/'MSIS','E-00'/ | |
C TEMPERATURE | |
DATA PT1/ | |
* 9.86573E-01, 1.62228E-02, 1.55270E-02,-1.04323E-01,-3.75801E-03, | |
* -1.18538E-03,-1.24043E-01, 4.56820E-03, 8.76018E-03,-1.36235E-01, | |
* -3.52427E-02, 8.84181E-03,-5.92127E-03,-8.61650E+00, 0.00000E+00, | |
* 1.28492E-02, 0.00000E+00, 1.30096E+02, 1.04567E-02, 1.65686E-03, | |
* -5.53887E-06, 2.97810E-03, 0.00000E+00, 5.13122E-03, 8.66784E-02, | |
* 1.58727E-01, 0.00000E+00, 0.00000E+00, 0.00000E+00,-7.27026E-06, | |
* 0.00000E+00, 6.74494E+00, 4.93933E-03, 2.21656E-03, 2.50802E-03, | |
* 0.00000E+00, 0.00000E+00,-2.08841E-02,-1.79873E+00, 1.45103E-03, | |
* 2.81769E-04,-1.44703E-03,-5.16394E-05, 8.47001E-02, 1.70147E-01, | |
* 5.72562E-03, 5.07493E-05, 4.36148E-03, 1.17863E-04, 4.74364E-03/ | |
DATA PT2/ | |
* 6.61278E-03, 4.34292E-05, 1.44373E-03, 2.41470E-05, 2.84426E-03, | |
* 8.56560E-04, 2.04028E-03, 0.00000E+00,-3.15994E+03,-2.46423E-03, | |
* 1.13843E-03, 4.20512E-04, 0.00000E+00,-9.77214E+01, 6.77794E-03, | |
* 5.27499E-03, 1.14936E-03, 0.00000E+00,-6.61311E-03,-1.84255E-02, | |
* -1.96259E-02, 2.98618E+04, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 6.44574E+02, 8.84668E-04, 5.05066E-04, 0.00000E+00, 4.02881E+03, | |
* -1.89503E-03, 0.00000E+00, 0.00000E+00, 8.21407E-04, 2.06780E-03, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* -1.20410E-02,-3.63963E-03, 9.92070E-05,-1.15284E-04,-6.33059E-05, | |
* -6.05545E-01, 8.34218E-03,-9.13036E+01, 3.71042E-04, 0.00000E+00/ | |
DATA PT3/ | |
* 4.19000E-04, 2.70928E-03, 3.31507E-03,-4.44508E-03,-4.96334E-03, | |
* -1.60449E-03, 3.95119E-03, 2.48924E-03, 5.09815E-04, 4.05302E-03, | |
* 2.24076E-03, 0.00000E+00, 6.84256E-03, 4.66354E-04, 0.00000E+00, | |
* -3.68328E-04, 0.00000E+00, 0.00000E+00,-1.46870E+02, 0.00000E+00, | |
* 0.00000E+00, 1.09501E-03, 4.65156E-04, 5.62583E-04, 3.21596E+00, | |
* 6.43168E-04, 3.14860E-03, 3.40738E-03, 1.78481E-03, 9.62532E-04, | |
* 5.58171E-04, 3.43731E+00,-2.33195E-01, 5.10289E-04, 0.00000E+00, | |
* 0.00000E+00,-9.25347E+04, 0.00000E+00,-1.99639E-03, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
C HE DENSITY | |
DATA PA1/ | |
* 1.09979E+00,-4.88060E-02,-1.97501E-01,-9.10280E-02,-6.96558E-03, | |
* 2.42136E-02, 3.91333E-01,-7.20068E-03,-3.22718E-02, 1.41508E+00, | |
* 1.68194E-01, 1.85282E-02, 1.09384E-01,-7.24282E+00, 0.00000E+00, | |
* 2.96377E-01,-4.97210E-02, 1.04114E+02,-8.61108E-02,-7.29177E-04, | |
* 1.48998E-06, 1.08629E-03, 0.00000E+00, 0.00000E+00, 8.31090E-02, | |
* 1.12818E-01,-5.75005E-02,-1.29919E-02,-1.78849E-02,-2.86343E-06, | |
* 0.00000E+00,-1.51187E+02,-6.65902E-03, 0.00000E+00,-2.02069E-03, | |
* 0.00000E+00, 0.00000E+00, 4.32264E-02,-2.80444E+01,-3.26789E-03, | |
* 2.47461E-03, 0.00000E+00, 0.00000E+00, 9.82100E-02, 1.22714E-01, | |
* -3.96450E-02, 0.00000E+00,-2.76489E-03, 0.00000E+00, 1.87723E-03/ | |
DATA PA2/ | |
* -8.09813E-03, 4.34428E-05,-7.70932E-03, 0.00000E+00,-2.28894E-03, | |
* -5.69070E-03,-5.22193E-03, 6.00692E-03,-7.80434E+03,-3.48336E-03, | |
* -6.38362E-03,-1.82190E-03, 0.00000E+00,-7.58976E+01,-2.17875E-02, | |
* -1.72524E-02,-9.06287E-03, 0.00000E+00, 2.44725E-02, 8.66040E-02, | |
* 1.05712E-01, 3.02543E+04, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* -6.01364E+03,-5.64668E-03,-2.54157E-03, 0.00000E+00, 3.15611E+02, | |
* -5.69158E-03, 0.00000E+00, 0.00000E+00,-4.47216E-03,-4.49523E-03, | |
* 4.64428E-03, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 4.51236E-02, 2.46520E-02, 6.17794E-03, 0.00000E+00, 0.00000E+00, | |
* -3.62944E-01,-4.80022E-02,-7.57230E+01,-1.99656E-03, 0.00000E+00/ | |
DATA PA3/ | |
* -5.18780E-03,-1.73990E-02,-9.03485E-03, 7.48465E-03, 1.53267E-02, | |
* 1.06296E-02, 1.18655E-02, 2.55569E-03, 1.69020E-03, 3.51936E-02, | |
* -1.81242E-02, 0.00000E+00,-1.00529E-01,-5.10574E-03, 0.00000E+00, | |
* 2.10228E-03, 0.00000E+00, 0.00000E+00,-1.73255E+02, 5.07833E-01, | |
* -2.41408E-01, 8.75414E-03, 2.77527E-03,-8.90353E-05,-5.25148E+00, | |
* -5.83899E-03,-2.09122E-02,-9.63530E-03, 9.77164E-03, 4.07051E-03, | |
* 2.53555E-04,-5.52875E+00,-3.55993E-01,-2.49231E-03, 0.00000E+00, | |
* 0.00000E+00, 2.86026E+01, 0.00000E+00, 3.42722E-04, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
C O DENSITY | |
DATA PB1/ | |
* 1.02315E+00,-1.59710E-01,-1.06630E-01,-1.77074E-02,-4.42726E-03, | |
* 3.44803E-02, 4.45613E-02,-3.33751E-02,-5.73598E-02, 3.50360E-01, | |
* 6.33053E-02, 2.16221E-02, 5.42577E-02,-5.74193E+00, 0.00000E+00, | |
* 1.90891E-01,-1.39194E-02, 1.01102E+02, 8.16363E-02, 1.33717E-04, | |
* 6.54403E-06, 3.10295E-03, 0.00000E+00, 0.00000E+00, 5.38205E-02, | |
* 1.23910E-01,-1.39831E-02, 0.00000E+00, 0.00000E+00,-3.95915E-06, | |
* 0.00000E+00,-7.14651E-01,-5.01027E-03, 0.00000E+00,-3.24756E-03, | |
* 0.00000E+00, 0.00000E+00, 4.42173E-02,-1.31598E+01,-3.15626E-03, | |
* 1.24574E-03,-1.47626E-03,-1.55461E-03, 6.40682E-02, 1.34898E-01, | |
* -2.42415E-02, 0.00000E+00, 0.00000E+00, 0.00000E+00, 6.13666E-04/ | |
DATA PB2/ | |
* -5.40373E-03, 2.61635E-05,-3.33012E-03, 0.00000E+00,-3.08101E-03, | |
* -2.42679E-03,-3.36086E-03, 0.00000E+00,-1.18979E+03,-5.04738E-02, | |
* -2.61547E-03,-1.03132E-03, 1.91583E-04,-8.38132E+01,-1.40517E-02, | |
* -1.14167E-02,-4.08012E-03, 1.73522E-04,-1.39644E-02,-6.64128E-02, | |
* -6.85152E-02,-1.34414E+04, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 6.07916E+02,-4.12220E-03,-2.20996E-03, 0.00000E+00, 1.70277E+03, | |
* -4.63015E-03, 0.00000E+00, 0.00000E+00,-2.25360E-03,-2.96204E-03, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 3.92786E-02, 1.31186E-02,-1.78086E-03, 0.00000E+00, 0.00000E+00, | |
* -3.90083E-01,-2.84741E-02,-7.78400E+01,-1.02601E-03, 0.00000E+00/ | |
DATA PB3/ | |
* -7.26485E-04,-5.42181E-03,-5.59305E-03, 1.22825E-02, 1.23868E-02, | |
* 6.68835E-03,-1.03303E-02,-9.51903E-03, 2.70021E-04,-2.57084E-02, | |
* -1.32430E-02, 0.00000E+00,-3.81000E-02,-3.16810E-03, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00,-9.05762E-04,-2.14590E-03,-1.17824E-03, 3.66732E+00, | |
* -3.79729E-04,-6.13966E-03,-5.09082E-03,-1.96332E-03,-3.08280E-03, | |
* -9.75222E-04, 4.03315E+00,-2.52710E-01, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
C N2 DENSITY | |
DATA PC1/ | |
* 1.16112E+00, 0.00000E+00, 0.00000E+00, 3.33725E-02, 0.00000E+00, | |
* 3.48637E-02,-5.44368E-03, 0.00000E+00,-6.73940E-02, 1.74754E-01, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 1.74712E+02, 0.00000E+00, | |
* 1.26733E-01, 0.00000E+00, 1.03154E+02, 5.52075E-02, 0.00000E+00, | |
* 0.00000E+00, 8.13525E-04, 0.00000E+00, 0.00000E+00, 8.66784E-02, | |
* 1.58727E-01, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00,-2.50482E+01, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-2.48894E-03, | |
* 6.16053E-04,-5.79716E-04, 2.95482E-03, 8.47001E-02, 1.70147E-01, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
DATA PC2/ | |
* 0.00000E+00, 2.47425E-05, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
DATA PC3/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
C TLB | |
DATA PD1/ | |
* 9.44846E-01, 0.00000E+00, 0.00000E+00,-3.08617E-02, 0.00000E+00, | |
* -2.44019E-02, 6.48607E-03, 0.00000E+00, 3.08181E-02, 4.59392E-02, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 1.74712E+02, 0.00000E+00, | |
* 2.13260E-02, 0.00000E+00,-3.56958E+02, 0.00000E+00, 1.82278E-04, | |
* 0.00000E+00, 3.07472E-04, 0.00000E+00, 0.00000E+00, 8.66784E-02, | |
* 1.58727E-01, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 3.83054E-03, 0.00000E+00, 0.00000E+00, | |
* -1.93065E-03,-1.45090E-03, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00,-1.23493E-03, 1.36736E-03, 8.47001E-02, 1.70147E-01, | |
* 3.71469E-03, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
DATA PD2/ | |
* 5.10250E-03, 2.47425E-05, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 3.68756E-03, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
DATA PD3/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
C O2 DENSITY | |
DATA PE1/ | |
* 1.35580E+00, 1.44816E-01, 0.00000E+00, 6.07767E-02, 0.00000E+00, | |
* 2.94777E-02, 7.46900E-02, 0.00000E+00,-9.23822E-02, 8.57342E-02, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.38636E+01, 0.00000E+00, | |
* 7.71653E-02, 0.00000E+00, 8.18751E+01, 1.87736E-02, 0.00000E+00, | |
* 0.00000E+00, 1.49667E-02, 0.00000E+00, 0.00000E+00, 8.66784E-02, | |
* 1.58727E-01, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00,-3.67874E+02, 5.48158E-03, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 8.47001E-02, 1.70147E-01, | |
* 1.22631E-02, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
DATA PE2/ | |
* 8.17187E-03, 3.71617E-05, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-2.10826E-03, | |
* -3.13640E-03, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* -7.35742E-02,-5.00266E-02, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 1.94965E-02, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
DATA PE3/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
C AR DENSITY | |
DATA PF1/ | |
* 1.04761E+00, 2.00165E-01, 2.37697E-01, 3.68552E-02, 0.00000E+00, | |
* 3.57202E-02,-2.14075E-01, 0.00000E+00,-1.08018E-01,-3.73981E-01, | |
* 0.00000E+00, 3.10022E-02,-1.16305E-03,-2.07596E+01, 0.00000E+00, | |
* 8.64502E-02, 0.00000E+00, 9.74908E+01, 5.16707E-02, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 8.66784E-02, | |
* 1.58727E-01, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 3.46193E+02, 1.34297E-02, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-3.48509E-03, | |
* -1.54689E-04, 0.00000E+00, 0.00000E+00, 8.47001E-02, 1.70147E-01, | |
* 1.47753E-02, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
DATA PF2/ | |
* 1.89320E-02, 3.68181E-05, 1.32570E-02, 0.00000E+00, 0.00000E+00, | |
* 3.59719E-03, 7.44328E-03,-1.00023E-03,-6.50528E+03, 0.00000E+00, | |
* 1.03485E-02,-1.00983E-03,-4.06916E-03,-6.60864E+01,-1.71533E-02, | |
* 1.10605E-02, 1.20300E-02,-5.20034E-03, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* -2.62769E+03, 7.13755E-03, 4.17999E-03, 0.00000E+00, 1.25910E+04, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00,-2.23595E-03, 4.60217E-03, | |
* 5.71794E-03, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* -3.18353E-02,-2.35526E-02,-1.36189E-02, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 2.03522E-02,-6.67837E+01,-1.09724E-03, 0.00000E+00/ | |
DATA PF3/ | |
* -1.38821E-02, 1.60468E-02, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 1.51574E-02, | |
* -5.44470E-04, 0.00000E+00, 7.28224E-02, 6.59413E-02, 0.00000E+00, | |
* -5.15692E-03, 0.00000E+00, 0.00000E+00,-3.70367E+03, 0.00000E+00, | |
* 0.00000E+00, 1.36131E-02, 5.38153E-03, 0.00000E+00, 4.76285E+00, | |
* -1.75677E-02, 2.26301E-02, 0.00000E+00, 1.76631E-02, 4.77162E-03, | |
* 0.00000E+00, 5.39354E+00, 0.00000E+00,-7.51710E-03, 0.00000E+00, | |
* 0.00000E+00,-8.82736E+01, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
C H DENSITY | |
DATA PG1/ | |
* 1.26376E+00,-2.14304E-01,-1.49984E-01, 2.30404E-01, 2.98237E-02, | |
* 2.68673E-02, 2.96228E-01, 2.21900E-02,-2.07655E-02, 4.52506E-01, | |
* 1.20105E-01, 3.24420E-02, 4.24816E-02,-9.14313E+00, 0.00000E+00, | |
* 2.47178E-02,-2.88229E-02, 8.12805E+01, 5.10380E-02,-5.80611E-03, | |
* 2.51236E-05,-1.24083E-02, 0.00000E+00, 0.00000E+00, 8.66784E-02, | |
* 1.58727E-01,-3.48190E-02, 0.00000E+00, 0.00000E+00, 2.89885E-05, | |
* 0.00000E+00, 1.53595E+02,-1.68604E-02, 0.00000E+00, 1.01015E-02, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.84552E-04, | |
* -1.22181E-03, 0.00000E+00, 0.00000E+00, 8.47001E-02, 1.70147E-01, | |
* -1.04927E-02, 0.00000E+00, 0.00000E+00, 0.00000E+00,-5.91313E-03/ | |
DATA PG2/ | |
* -2.30501E-02, 3.14758E-05, 0.00000E+00, 0.00000E+00, 1.26956E-02, | |
* 8.35489E-03, 3.10513E-04, 0.00000E+00, 3.42119E+03,-2.45017E-03, | |
* -4.27154E-04, 5.45152E-04, 1.89896E-03, 2.89121E+01,-6.49973E-03, | |
* -1.93855E-02,-1.48492E-02, 0.00000E+00,-5.10576E-02, 7.87306E-02, | |
* 9.51981E-02,-1.49422E+04, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 2.65503E+02, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 6.37110E-03, 3.24789E-04, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 6.14274E-02, 1.00376E-02,-8.41083E-04, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00,-1.27099E-02, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
DATA PG3/ | |
* -3.94077E-03,-1.28601E-02,-7.97616E-03, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00,-6.71465E-03,-1.69799E-03, 1.93772E-03, 3.81140E+00, | |
* -7.79290E-03,-1.82589E-02,-1.25860E-02,-1.04311E-02,-3.02465E-03, | |
* 2.43063E-03, 3.63237E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
C N DENSITY | |
DATA PH1/ | |
* 7.09557E+01,-3.26740E-01, 0.00000E+00,-5.16829E-01,-1.71664E-03, | |
* 9.09310E-02,-6.71500E-01,-1.47771E-01,-9.27471E-02,-2.30862E-01, | |
* -1.56410E-01, 1.34455E-02,-1.19717E-01, 2.52151E+00, 0.00000E+00, | |
* -2.41582E-01, 5.92939E-02, 4.39756E+00, 9.15280E-02, 4.41292E-03, | |
* 0.00000E+00, 8.66807E-03, 0.00000E+00, 0.00000E+00, 8.66784E-02, | |
* 1.58727E-01, 9.74701E-02, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 6.70217E+01,-1.31660E-03, 0.00000E+00,-1.65317E-02, | |
* 0.00000E+00, 0.00000E+00, 8.50247E-02, 2.77428E+01, 4.98658E-03, | |
* 6.15115E-03, 9.50156E-03,-2.12723E-02, 8.47001E-02, 1.70147E-01, | |
* -2.38645E-02, 0.00000E+00, 0.00000E+00, 0.00000E+00, 1.37380E-03/ | |
DATA PH2/ | |
* -8.41918E-03, 2.80145E-05, 7.12383E-03, 0.00000E+00,-1.66209E-02, | |
* 1.03533E-04,-1.68898E-02, 0.00000E+00, 3.64526E+03, 0.00000E+00, | |
* 6.54077E-03, 3.69130E-04, 9.94419E-04, 8.42803E+01,-1.16124E-02, | |
* -7.74414E-03,-1.68844E-03, 1.42809E-03,-1.92955E-03, 1.17225E-01, | |
* -2.41512E-02, 1.50521E+04, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 1.60261E+03, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00,-3.54403E-04,-1.87270E-02, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 2.76439E-02, 6.43207E-03,-3.54300E-02, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00,-2.80221E-02, 8.11228E+01,-6.75255E-04, 0.00000E+00/ | |
DATA PH3/ | |
* -1.05162E-02,-3.48292E-03,-6.97321E-03, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00,-1.45546E-03,-1.31970E-02,-3.57751E-03,-1.09021E+00, | |
* -1.50181E-02,-7.12841E-03,-6.64590E-03,-3.52610E-03,-1.87773E-02, | |
* -2.22432E-03,-3.93895E-01, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
C HOT O DENSITY | |
DATA PI1/ | |
* 6.04050E-02, 1.57034E+00, 2.99387E-02, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-1.51018E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00,-8.61650E+00, 1.26454E-02, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 5.50878E-03, 0.00000E+00, 0.00000E+00, 8.66784E-02, | |
* 1.58727E-01, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 6.23881E-02, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 8.47001E-02, 1.70147E-01, | |
* -9.45934E-02, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
DATA PI2/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
DATA PI3/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
C S PARAM | |
DATA PJ1/ | |
* 9.56827E-01, 6.20637E-02, 3.18433E-02, 0.00000E+00, 0.00000E+00, | |
* 3.94900E-02, 0.00000E+00, 0.00000E+00,-9.24882E-03,-7.94023E-03, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 1.74712E+02, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 2.74677E-03, 0.00000E+00, 1.54951E-02, 8.66784E-02, | |
* 1.58727E-01, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00,-6.99007E-04, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 1.24362E-02,-5.28756E-03, 8.47001E-02, 1.70147E-01, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
DATA PJ2/ | |
* 0.00000E+00, 2.47425E-05, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
DATA PJ3/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
C TURBO | |
DATA PK1/ | |
* 1.09930E+00, 3.90631E+00, 3.07165E+00, 9.86161E-01, 1.63536E+01, | |
* 4.63830E+00, 1.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 1.28840E+00, 3.10302E-02, 1.18339E-01, | |
* 1.00000E+00, 7.00000E-01, 1.15020E+00, 3.44689E+00, 1.28840E+00, | |
* 1.00000E+00, 1.08738E+00, 1.22947E+00, 1.10016E+00, 7.34129E-01, | |
* 1.15241E+00, 2.22784E+00, 7.95046E-01, 4.01612E+00, 4.47749E+00, | |
* 1.23435E+02,-7.60535E-02, 1.68986E-06, 7.44294E-01, 1.03604E+00, | |
* 1.72783E+02, 1.15020E+00, 3.44689E+00,-7.46230E-01, 9.49154E-01/ | |
C LOWER BOUNDARY | |
DATA PTM/ | |
L 1.04130E+03, 3.86000E+02, 1.95000E+02, 1.66728E+01, 2.13000E+02, | |
L 1.20000E+02, 2.40000E+02, 1.87000E+02,-2.00000E+00, 0.00000E+00/ | |
DATA PDM/ | |
L 2.45600E+07, 6.71072E-06, 1.00000E+02, 0.00000E+00, 1.10000E+02, | |
L 1.00000E+01, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
C | |
L 8.59400E+10, 1.00000E+00, 1.05000E+02,-8.00000E+00, 1.10000E+02, | |
L 1.00000E+01, 9.00000E+01, 2.00000E+00, 0.00000E+00, 0.00000E+00, | |
C | |
L 2.81000E+11, 0.00000E+00, 1.05000E+02, 2.80000E+01, 2.89500E+01, | |
L 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
C | |
L 3.30000E+10, 2.68270E-01, 1.05000E+02, 1.00000E+00, 1.10000E+02, | |
L 1.00000E+01, 1.10000E+02,-1.00000E+01, 0.00000E+00, 0.00000E+00, | |
C | |
L 1.33000E+09, 1.19615E-02, 1.05000E+02, 0.00000E+00, 1.10000E+02, | |
L 1.00000E+01, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
C | |
L 1.76100E+05, 1.00000E+00, 9.50000E+01,-8.00000E+00, 1.10000E+02, | |
L 1.00000E+01, 9.00000E+01, 2.00000E+00, 0.00000E+00, 0.00000E+00, | |
C | |
L 1.00000E+07, 1.00000E+00, 1.05000E+02,-8.00000E+00, 1.10000E+02, | |
L 1.00000E+01, 9.00000E+01, 2.00000E+00, 0.00000E+00, 0.00000E+00, | |
C | |
L 1.00000E+06, 1.00000E+00, 1.05000E+02,-8.00000E+00, 5.50000E+02, | |
L 7.60000E+01, 9.00000E+01, 2.00000E+00, 0.00000E+00, 4.00000E+03/ | |
C TN1(2) | |
DATA PL1/ | |
* 1.00858E+00, 4.56011E-02,-2.22972E-02,-5.44388E-02, 5.23136E-04, | |
* -1.88849E-02, 5.23707E-02,-9.43646E-03, 6.31707E-03,-7.80460E-02, | |
* -4.88430E-02, 0.00000E+00, 0.00000E+00,-7.60250E+00, 0.00000E+00, | |
* -1.44635E-02,-1.76843E-02,-1.21517E+02, 2.85647E-02, 0.00000E+00, | |
* 0.00000E+00, 6.31792E-04, 0.00000E+00, 5.77197E-03, 8.66784E-02, | |
* 1.58727E-01, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00,-8.90272E+03, 3.30611E-03, 3.02172E-03, 0.00000E+00, | |
* -2.13673E-03,-3.20910E-04, 0.00000E+00, 0.00000E+00, 2.76034E-03, | |
* 2.82487E-03,-2.97592E-04,-4.21534E-03, 8.47001E-02, 1.70147E-01, | |
* 8.96456E-03, 0.00000E+00,-1.08596E-02, 0.00000E+00, 0.00000E+00/ | |
DATA PL2/ | |
* 5.57917E-03, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 9.65405E-03, 0.00000E+00, 0.00000E+00, 2.00000E+00/ | |
C TN1(3) | |
DATA PM1/ | |
* 9.39664E-01, 8.56514E-02,-6.79989E-03, 2.65929E-02,-4.74283E-03, | |
* 1.21855E-02,-2.14905E-02, 6.49651E-03,-2.05477E-02,-4.24952E-02, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 1.19148E+01, 0.00000E+00, | |
* 1.18777E-02,-7.28230E-02,-8.15965E+01, 1.73887E-02, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00,-1.44691E-02, 2.80259E-04, 8.66784E-02, | |
* 1.58727E-01, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 2.16584E+02, 3.18713E-03, 7.37479E-03, 0.00000E+00, | |
* -2.55018E-03,-3.92806E-03, 0.00000E+00, 0.00000E+00,-2.89757E-03, | |
* -1.33549E-03, 1.02661E-03, 3.53775E-04, 8.47001E-02, 1.70147E-01, | |
* -9.17497E-03, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
DATA PM2/ | |
* 3.56082E-03, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00,-1.00902E-02, 0.00000E+00, 0.00000E+00, 2.00000E+00/ | |
C TN1(4) | |
DATA PN1/ | |
* 9.85982E-01,-4.55435E-02, 1.21106E-02, 2.04127E-02,-2.40836E-03, | |
* 1.11383E-02,-4.51926E-02, 1.35074E-02,-6.54139E-03, 1.15275E-01, | |
* 1.28247E-01, 0.00000E+00, 0.00000E+00,-5.30705E+00, 0.00000E+00, | |
* -3.79332E-02,-6.24741E-02, 7.71062E-01, 2.96315E-02, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 6.81051E-03,-4.34767E-03, 8.66784E-02, | |
* 1.58727E-01, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 1.07003E+01,-2.76907E-03, 4.32474E-04, 0.00000E+00, | |
* 1.31497E-03,-6.47517E-04, 0.00000E+00,-2.20621E+01,-1.10804E-03, | |
* -8.09338E-04, 4.18184E-04, 4.29650E-03, 8.47001E-02, 1.70147E-01, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
DATA PN2/ | |
* -4.04337E-03, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-9.52550E-04, | |
* 8.56253E-04, 4.33114E-04, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 1.21223E-03, | |
* 2.38694E-04, 9.15245E-04, 1.28385E-03, 8.67668E-04,-5.61425E-06, | |
* 1.04445E+00, 3.41112E+01, 0.00000E+00,-8.40704E-01,-2.39639E+02, | |
* 7.06668E-01,-2.05873E+01,-3.63696E-01, 2.39245E+01, 0.00000E+00, | |
* -1.06657E-03,-7.67292E-04, 1.54534E-04, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.00000E+00/ | |
C TN1(5) TN2(1) | |
DATA PO1/ | |
* 1.00320E+00, 3.83501E-02,-2.38983E-03, 2.83950E-03, 4.20956E-03, | |
* 5.86619E-04, 2.19054E-02,-1.00946E-02,-3.50259E-03, 4.17392E-02, | |
* -8.44404E-03, 0.00000E+00, 0.00000E+00, 4.96949E+00, 0.00000E+00, | |
* -7.06478E-03,-1.46494E-02, 3.13258E+01,-1.86493E-03, 0.00000E+00, | |
* -1.67499E-02, 0.00000E+00, 0.00000E+00, 5.12686E-04, 8.66784E-02, | |
* 1.58727E-01,-4.64167E-03, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 4.37353E-03,-1.99069E+02, 0.00000E+00,-5.34884E-03, 0.00000E+00, | |
* 1.62458E-03, 2.93016E-03, 2.67926E-03, 5.90449E+02, 0.00000E+00, | |
* 0.00000E+00,-1.17266E-03,-3.58890E-04, 8.47001E-02, 1.70147E-01, | |
* 0.00000E+00, 0.00000E+00, 1.38673E-02, 0.00000E+00, 0.00000E+00/ | |
DATA PO2/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 1.60571E-03, | |
* 6.28078E-04, 5.05469E-05, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-1.57829E-03, | |
* -4.00855E-04, 5.04077E-05,-1.39001E-03,-2.33406E-03,-4.81197E-04, | |
* 1.46758E+00, 6.20332E+00, 0.00000E+00, 3.66476E-01,-6.19760E+01, | |
* 3.09198E-01,-1.98999E+01, 0.00000E+00,-3.29933E+02, 0.00000E+00, | |
* -1.10080E-03,-9.39310E-05, 1.39638E-04, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.00000E+00/ | |
C TN2(2) | |
DATA PP1/ | |
* 9.81637E-01,-1.41317E-03, 3.87323E-02, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-3.58707E-02, | |
* -8.63658E-03, 0.00000E+00, 0.00000E+00,-2.02226E+00, 0.00000E+00, | |
* -8.69424E-03,-1.91397E-02, 8.76779E+01, 4.52188E-03, 0.00000E+00, | |
* 2.23760E-02, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00,-7.07572E-03, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* -4.11210E-03, 3.50060E+01, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00,-8.36657E-03, 1.61347E+01, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00,-1.45130E-02, 0.00000E+00, 0.00000E+00/ | |
DATA PP2/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 1.24152E-03, | |
* 6.43365E-04, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 1.33255E-03, | |
* 2.42657E-03, 1.60666E-03,-1.85728E-03,-1.46874E-03,-4.79163E-06, | |
* 1.22464E+00, 3.53510E+01, 0.00000E+00, 4.49223E-01,-4.77466E+01, | |
* 4.70681E-01, 8.41861E+00,-2.88198E-01, 1.67854E+02, 0.00000E+00, | |
* 7.11493E-04, 6.05601E-04, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.00000E+00/ | |
C TN2(3) | |
DATA PQ1/ | |
* 1.00422E+00,-7.11212E-03, 5.24480E-03, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-5.28914E-02, | |
* -2.41301E-02, 0.00000E+00, 0.00000E+00,-2.12219E+01,-1.03830E-02, | |
* -3.28077E-03, 1.65727E-02, 1.68564E+00,-6.68154E-03, 0.00000E+00, | |
* 1.45155E-02, 0.00000E+00, 8.42365E-03, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00,-4.34645E-03, 0.00000E+00, 0.00000E+00, 2.16780E-02, | |
* 0.00000E+00,-1.38459E+02, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 7.04573E-03,-4.73204E+01, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 1.08767E-02, 0.00000E+00, 0.00000E+00/ | |
DATA PQ2/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-8.08279E-03, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 5.21769E-04, | |
* -2.27387E-04, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 3.26769E-03, | |
* 3.16901E-03, 4.60316E-04,-1.01431E-04, 1.02131E-03, 9.96601E-04, | |
* 1.25707E+00, 2.50114E+01, 0.00000E+00, 4.24472E-01,-2.77655E+01, | |
* 3.44625E-01, 2.75412E+01, 0.00000E+00, 7.94251E+02, 0.00000E+00, | |
* 2.45835E-03, 1.38871E-03, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.00000E+00/ | |
C TN2(4) TN3(1) | |
DATA PR1/ | |
* 1.01890E+00,-2.46603E-02, 1.00078E-02, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-6.70977E-02, | |
* -4.02286E-02, 0.00000E+00, 0.00000E+00,-2.29466E+01,-7.47019E-03, | |
* 2.26580E-03, 2.63931E-02, 3.72625E+01,-6.39041E-03, 0.00000E+00, | |
* 9.58383E-03, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00,-1.85291E-03, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 1.39717E+02, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 9.19771E-03,-3.69121E+02, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00,-1.57067E-02, 0.00000E+00, 0.00000E+00/ | |
DATA PR2/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-7.07265E-03, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-2.92953E-03, | |
* -2.77739E-03,-4.40092E-04, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.47280E-03, | |
* 2.95035E-04,-1.81246E-03, 2.81945E-03, 4.27296E-03, 9.78863E-04, | |
* 1.40545E+00,-6.19173E+00, 0.00000E+00, 0.00000E+00,-7.93632E+01, | |
* 4.44643E-01,-4.03085E+02, 0.00000E+00, 1.15603E+01, 0.00000E+00, | |
* 2.25068E-03, 8.48557E-04,-2.98493E-04, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.00000E+00/ | |
C TN3(2) | |
DATA PS1/ | |
* 9.75801E-01, 3.80680E-02,-3.05198E-02, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 3.85575E-02, | |
* 5.04057E-02, 0.00000E+00, 0.00000E+00,-1.76046E+02, 1.44594E-02, | |
* -1.48297E-03,-3.68560E-03, 3.02185E+01,-3.23338E-03, 0.00000E+00, | |
* 1.53569E-02, 0.00000E+00,-1.15558E-02, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 4.89620E-03, 0.00000E+00, 0.00000E+00,-1.00616E-02, | |
* -8.21324E-03,-1.57757E+02, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 6.63564E-03, 4.58410E+01, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00,-2.51280E-02, 0.00000E+00, 0.00000E+00/ | |
DATA PS2/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 9.91215E-03, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-8.73148E-04, | |
* -1.29648E-03,-7.32026E-05, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-4.68110E-03, | |
* -4.66003E-03,-1.31567E-03,-7.39390E-04, 6.32499E-04,-4.65588E-04, | |
* -1.29785E+00,-1.57139E+02, 0.00000E+00, 2.58350E-01,-3.69453E+01, | |
* 4.10672E-01, 9.78196E+00,-1.52064E-01,-3.85084E+03, 0.00000E+00, | |
* -8.52706E-04,-1.40945E-03,-7.26786E-04, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.00000E+00/ | |
C TN3(3) | |
DATA PU1/ | |
* 9.60722E-01, 7.03757E-02,-3.00266E-02, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.22671E-02, | |
* 4.10423E-02, 0.00000E+00, 0.00000E+00,-1.63070E+02, 1.06073E-02, | |
* 5.40747E-04, 7.79481E-03, 1.44908E+02, 1.51484E-04, 0.00000E+00, | |
* 1.97547E-02, 0.00000E+00,-1.41844E-02, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 5.77884E-03, 0.00000E+00, 0.00000E+00, 9.74319E-03, | |
* 0.00000E+00,-2.88015E+03, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00,-4.44902E-03,-2.92760E+01, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 2.34419E-02, 0.00000E+00, 0.00000E+00/ | |
DATA PU2/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 5.36685E-03, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-4.65325E-04, | |
* -5.50628E-04, 3.31465E-04, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-2.06179E-03, | |
* -3.08575E-03,-7.93589E-04,-1.08629E-04, 5.95511E-04,-9.05050E-04, | |
* 1.18997E+00, 4.15924E+01, 0.00000E+00,-4.72064E-01,-9.47150E+02, | |
* 3.98723E-01, 1.98304E+01, 0.00000E+00, 3.73219E+03, 0.00000E+00, | |
* -1.50040E-03,-1.14933E-03,-1.56769E-04, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.00000E+00/ | |
C TN3(4) | |
DATA PV1/ | |
* 1.03123E+00,-7.05124E-02, 8.71615E-03, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-3.82621E-02, | |
* -9.80975E-03, 0.00000E+00, 0.00000E+00, 2.89286E+01, 9.57341E-03, | |
* 0.00000E+00, 0.00000E+00, 8.66153E+01, 7.91938E-04, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 4.68917E-03, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 7.86638E-03, 0.00000E+00, 0.00000E+00, 9.90827E-03, | |
* 0.00000E+00, 6.55573E+01, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00,-4.00200E+01, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 7.07457E-03, 0.00000E+00, 0.00000E+00/ | |
DATA PV2/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 5.72268E-03, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-2.04970E-04, | |
* 1.21560E-03,-8.05579E-06, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-2.49941E-03, | |
* -4.57256E-04,-1.59311E-04, 2.96481E-04,-1.77318E-03,-6.37918E-04, | |
* 1.02395E+00, 1.28172E+01, 0.00000E+00, 1.49903E-01,-2.63818E+01, | |
* 0.00000E+00, 4.70628E+01,-2.22139E-01, 4.82292E-02, 0.00000E+00, | |
* -8.67075E-04,-5.86479E-04, 5.32462E-04, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.00000E+00/ | |
C TN3(5) SURFACE TEMP TSL | |
DATA PW1/ | |
* 1.00828E+00,-9.10404E-02,-2.26549E-02, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-2.32420E-02, | |
* -9.08925E-03, 0.00000E+00, 0.00000E+00, 3.36105E+01, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00,-1.24957E+01,-5.87939E-03, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 2.79765E+01, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.01237E+03, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00,-1.75553E-02, 0.00000E+00, 0.00000E+00/ | |
DATA PW2/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 3.29699E-03, | |
* 1.26659E-03, 2.68402E-04, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 1.17894E-03, | |
* 1.48746E-03, 1.06478E-04, 1.34743E-04,-2.20939E-03,-6.23523E-04, | |
* 6.36539E-01, 1.13621E+01, 0.00000E+00,-3.93777E-01, 2.38687E+03, | |
* 0.00000E+00, 6.61865E+02,-1.21434E-01, 9.27608E+00, 0.00000E+00, | |
* 1.68478E-04, 1.24892E-03, 1.71345E-03, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.00000E+00/ | |
C TGN3(2) SURFACE GRAD TSLG | |
DATA PX1/ | |
* 1.57293E+00,-6.78400E-01, 6.47500E-01, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-7.62974E-02, | |
* -3.60423E-01, 0.00000E+00, 0.00000E+00, 1.28358E+02, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 4.68038E+01, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00,-1.67898E-01, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 2.90994E+04, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 3.15706E+01, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
DATA PX2/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.00000E+00/ | |
C TGN2(1) TGN1(2) | |
DATA PY1/ | |
* 8.60028E-01, 3.77052E-01, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-1.17570E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 7.77757E-03, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 1.01024E+02, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 6.54251E+02, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
DATA PY2/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00,-1.56959E-02, | |
* 1.91001E-02, 3.15971E-02, 1.00982E-02,-6.71565E-03, 2.57693E-03, | |
* 1.38692E+00, 2.82132E-01, 0.00000E+00, 0.00000E+00, 3.81511E+02, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.00000E+00/ | |
C TGN3(1) TGN2(2) | |
DATA PZ1/ | |
* 1.06029E+00,-5.25231E-02, 3.73034E-01, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 3.31072E-02, | |
* -3.88409E-01, 0.00000E+00, 0.00000E+00,-1.65295E+02,-2.13801E-01, | |
* -4.38916E-02,-3.22716E-01,-8.82393E+01, 1.18458E-01, 0.00000E+00, | |
* -4.35863E-01, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00,-1.19782E-01, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 2.62229E+01, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00,-5.37443E+01, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00,-4.55788E-01, 0.00000E+00, 0.00000E+00/ | |
DATA PZ2/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 3.84009E-02, | |
* 3.96733E-02, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 5.05494E-02, | |
* 7.39617E-02, 1.92200E-02,-8.46151E-03,-1.34244E-02, 1.96338E-02, | |
* 1.50421E+00, 1.88368E+01, 0.00000E+00, 0.00000E+00,-5.13114E+01, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 5.11923E-02, 3.61225E-02, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 2.00000E+00/ | |
C SEMIANNUAL MULT SAM | |
DATA PAA1/ | |
* 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, | |
* 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, | |
* 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, | |
* 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, | |
* 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, | |
* 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, | |
* 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, | |
* 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, | |
* 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, | |
* 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00, 1.00000E+00/ | |
DATA PAA2/ | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, | |
* 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00, 0.00000E+00/ | |
C MIDDLE ATMOSPHERE AVERAGES | |
DATA PAVGM/ | |
M 2.61000E+02, 2.64000E+02, 2.29000E+02, 2.17000E+02, 2.17000E+02, | |
M 2.23000E+02, 2.86760E+02,-2.93940E+00, 2.50000E+00, 0.00000E+00/ | |
END |
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