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PROGRAM XNFPELSYN
c revised 04nov2014 constants given D exponents
C revised 26jul2004 correction from Fiorella Castelli xnfpch and xnfpoh
c revised 13jun00
C PRODUCES XNFPEL AND DOPPLE FOR SYNTHE
IMPLICIT REAL*8 (A-H,O-Z)
PARAMETER (kw=99)
PARAMETER (MAXMOL=200,MAX1=MAXMOL+1,MAXEQ=30,MAXLOC=3*MAXMOL)
COMMON /ABROSS/ABROSS(kw),TAUROS(kw)
COMMON /ABTOT/ABTOT(kw),ALPHA(kw)
COMMON /BAL/BAL1(kw,9),AAL1(kw),SAL1(kw),XNFPAL(kw,2),BAL2(kw,1)
COMMON /BB/BB1(kw,7),XNFPB(kw,1)
COMMON /BC/BC1(kw,14),AC1(kw),SC1(kw),XNFPC(kw,2),BC2(kw,6)
COMMON /BCA/BCA1(kw,8),BCA2(kw,5),XNFPCA(kw,2)
COMMON /BFE/BFE1(kw,15),AFE1(kw),SFE1(kw),XNFPFE(kw,1)
COMMON /BHE/BHE1(kw,29),AHE1(kw),SHE1(kw),BHE2(kw,6),AHE2(kw),
1 SHE2(kw),AHEMIN(kw),SIGHE(kw),XNFPHE(kw,3),XNFHE(kw,2)
COMMON /BHYD/BHYD(kw,8),AHYD(kw),SHYD(kw),AH2P(kw),BMIN(kw),
1 AHMIN(kw),SHMIN(kw),SIGH(kw),SIGH2(kw),AHLINE(kw),
2 SHLINE(kw),XNFPH(kw,2),XNFH(kw)
COMMON /BK/BK1(kw,8),XNFPK(kw,1)
COMMON /BMG/BMG1(kw,11),AMG1(kw),SMG1(kw),XNFPMG(kw,2),BMG2(kw,6)
COMMON /BNA/BNA1(kw,8),XNFPNA(kw,1)
COMMON /BO/BO1(kw,13),XNFPO(kw,1),BO2(kw,4)
COMMON /BSI/BSI1(kw,11),ASI1(kw),SSI1(kw),XNFPSI(kw,2),BSI2(kw,10)
COMMON /CHOH/XNFPCH(kw),XNFPOH(kw)
COMMON /CONV/DLTDLP(kw),HEATCP(kw),DLRDLT(kw),VELSND(kw),
1 GRDADB(kw),HSCALE(kw),FLXCNV(kw),VCONV(kw),MIXLTH,
2 IFCONV
REAL*8 MIXLTH
COMMON /ELEM/ABUND(99),ATMASS(99),ELEM(99),XABUND(99),WTMOLE
COMMON /FLUX/FLUX,FLXERR(kw),FLXDRV(kw),FLXRAD(kw)
COMMON /FREQ/FREQ,FREQLG,EHVKT(kw),STIM(kw),BNU(kw),WAVENO
COMMON /FRESET/FRESET(500),RCOSET(500),NULO,NUHI,NUMNU,IFWAVE,
1 WBEGIN,DELTAW
COMMON /HEIGHT/HEIGHT(kw)
COMMON /IF/IFCORR,IFPRES,IFSURF,IFSCAT,IFMOL,NLTEON,IFOP(20)
COMMON /ITER/ITER,IFPRNT(15),IFPNCH(15),NUMITS
COMMON /JUNK/TITLE(74),FREQID(6),WLTE,XSCALE
COMMON /MUS/ANGLE(20),SURFI(20),NMU
COMMON /OPS/ACOOL(kw),ALUKE(kw),AHOT(kw),SIGEL(kw),ALINES(kw),
1 SIGLIN(kw),AXLINE(kw),SIGXL(kw),AXCONT(kw),SIGX(kw),
2 SXLINE(kw),SXCONT(kw)
COMMON /OPTOT/ACONT(kw),SCONT(kw),ALINE(kw),SLINE(kw),SIGMAC(kw),
1 SIGMAL(kw)
COMMON /PUT/PUT,IPUT
COMMON /PZERO/PZERO,PCON,PRADK0,PTURB0,KNU(kw),PRADK(kw),EDENS(kw)
REAL*8 KNU
COMMON /RAD/ACCRAD(kw),PRAD(kw)
COMMON /RHOX/RHOX(kw),NRHOX
COMMON /STATE/P(kw),XNE(kw),XNATOM(kw),RHO(kw),PTOTAL(kw)
COMMON /TAUSHJ/TAUNU(kw),SNU(kw),HNU(kw),JNU(kw),JMINS(kw)
REAL*8 JNU,JMINS
COMMON /TEFF/TEFF,GRAV,GLOG
COMMON /TEMP/T(kw),TKEV(kw),TK(kw),HKT(kw),TLOG(kw),HCKT(kw),ITEMP
COMMON /TURBPR/VTURB(kw),PTURB(kw),TRBFDG,TRBCON,TRBPOW,TRBSND,
1 IFTURB
REAL*8 IDMOL(60),MOMASS(60)
DIMENSION XNFH2(kw),XNFPH2(kw),XNFPCO(kw)
C DIMENSION XNFH(kw),XNFHE(kw),XNFH2(kw),IFOUT(kw)
DIMENSION XNFP(kw,10,99),XNFPEL(6,99),DOPPLE(6,99)
DIMENSION ABLOG(kw)
DIMENSION WLEDGE(377),CMEDGE(377),FRQEDG(377)
DIMENSION A(377),CONTINALL(1131,kw),FREQSET(1131),CONTABS(1131,kw)
DIMENSION CONTSCAT(1131,KW)
COMMON /FREE/WORD(6),NUMCOL,LETCOL,LAST,MORE,IFFAIL,MAXPOW
COMMON /XNMOL/CODEMOL(MAXMOL),XNMOL(kw,MAXMOL),
1 XNFPMOL(kw,MAXMOL),NUMMOL
DIMENSION CARD(81)
DATA CARD/81*1H /
C CHANGE PO TO H3+
DATA IDMOL/
1 101., 106., 107., 108., 606., 607., 608., 707., 708.,
2 808., 112., 113., 114., 812., 813., 814., 116., 120.,
3 816., 820., 821., 822., 823., 103., 104., 105., 109.,
4 115., 117., 121., 122., 123., 124., 125., 126.,106.01,
C 5 107.01,108.01,112.01,113.01,114.01,120.01, 408., 508., 815.,
5 107.01,108.01,112.01,113.01,114.01,120.01, 408., 508.,10101.01,
6 817., 824., 825., 826.,10108.,60808.,10106.,60606., 127.,
7 128., 129., 827., 828., 829.,608.01/
DATA MOMASS/
1 2., 13., 15., 17., 24., 26., 28., 28., 30.,
2 32., 25., 28., 29., 40., 43., 44., 33., 41.,
3 48., 56., 61., 64., 67., 8., 10., 12., 20.,
4 32., 36., 46., 49., 52., 53., 56., 57., 13.,
C 5 15., 17., 25., 28., 29., 41., 25., 27., 47.,
5 15., 17., 25., 28., 29., 41., 25., 27., 3.,
6 51., 68., 71., 72., 18., 44., 14., 36., 60.,
7 59., 64., 75., 74., 79., 28./
OPEN(UNIT=17,TYPE='OLD',READONLY,SHARED)
10 CALL READIN(20)
IFOP(14)=0
IFOP(15)=0
IFOP(16)=0
IFOP(17)=0
MORE=1
MAXPOW=99
LAST=81
NUMCOL=1
ITEMP=0
IFPRES=0
IFPRES=1
ITER=1
NUMITS=1
NT=NRHOX
REWIND 10
WRITE(10)NT,TEFF,GLOG,TITLE
IN=0
11 EDGE=XFREEF(CARD)
IF(EDGE.EQ.0.)GO TO 14
IN=IN+1
PRINT 15,IN,EDGE
IF(ABS(EDGE).LT.1.D6)GO TO 12
IF(ABS(EDGE).LT.1.D25)GO TO 13
C WAVENUMBERS MUST BE MULTIPLIED BY 1.E25
CMEDGE(IN)=EDGE/1.D25
WLEDGE(IN)=1.D7/CMEDGE(IN)
FRQEDG(IN)=2.99792458D17/WLEDGE(IN)
A(IN)=ABS(WLEDGE(IN))
GO TO 1111
12 WLEDGE(IN)=EDGE
CMEDGE(IN)=1.D7/EDGE
FRQEDG(IN)=2.99792458D17/WLEDGE(IN)
A(IN)=ABS(WLEDGE(IN))
GO TO 1111
13 FRQEDG(IN)=EDGE
WLEDGE(IN)=2.99792458D17/EDGE
CMEDGE(IN)=1.D7/WLEDGE(IN)
A(IN)=ABS(WLEDGE(IN))
1111 WRITE(6,15)IN,FRQEDG(IN),WLEDGE(IN),CMEDGE(IN)
15 FORMAT(I5,1PE25.15,0PF20.7,F20.7)
GO TO 11
14 DO 17 LAST=2,IN
LAST1=IN-LAST+2
DO 16 I=2,LAST1
IF(A(I).GE.A(I-1))GO TO 16
SAVE=A(I-1)
A(I-1)=A(I)
A(I)=SAVE
SAVE=FRQEDG(I-1)
FRQEDG(I-1)=FRQEDG(I)
FRQEDG(I)=SAVE
SAVE=WLEDGE(I-1)
WLEDGE(I-1)=WLEDGE(I)
WLEDGE(I)=SAVE
SAVE=CMEDGE(I-1)
CMEDGE(I-1)=CMEDGE(I)
CMEDGE(I)=SAVE
16 CONTINUE
17 CONTINUE
WRITE(6,15)(I,FRQEDG(I),WLEDGE(I),CMEDGE(I),I=1,IN)
WRITE(10)IN,(FRQEDG(I),WLEDGE(I),CMEDGE(I),I=1,IN),IDMOL,MOMASS
NUMNU=0
DO 18 I=1,IN-1
NUMNU=NUMNU+1
FREQSET(NUMNU)=ABS(FRQEDG(I))/1.0000001
NUMNU=NUMNU+1
FREQSET(NUMNU)=2.99792458D17/(ABS(WLEDGE(I))+ABS(WLEDGE(I+1)))*2.
NUMNU=NUMNU+1
18 FREQSET(NUMNU)=ABS(FRQEDG(I+1))*1.0000001
WRITE(6,15)NUMNU
WRITE(10)NUMNU,(FREQSET(NU),NU=1,NUMNU)
ITEMP=ITEMP+1
CALL POPS(1.00D0,12,XNFH)
CALL POPS(2.01D0,12,XNFHE)
CALL POPS(1.01D0,11,XNFPH)
CALL POPS(2.02D0,11,XNFPHE)
CALL POPS(5.00D0,11,XNFPB)
CALL POPS(6.01D0,11,XNFPC)
CALL POPS(8.00D0,11,XNFPO)
CALL POPS(11.00D0,11,XNFPNA)
CALL POPS(12.01D0,11,XNFPMG)
CALL POPS(13.01D0,11,XNFPAL)
CALL POPS(14.01D0,11,XNFPSI)
CALL POPS(19.00D0,11,XNFPK)
CALL POPS(20.01D0,11,XNFPCA)
CALL POPS(26.00D0,11,XNFPFE)
C 26jul2004 correction from Fiorella Castelli
C IF(IFMOL.EQ.1)CALL POPS(106.00D0,11,XNFPCH)
C IF(IFMOL.EQ.1)CALL POPS(108.00D0,11,XNFPOH)
IF(IFMOL.EQ.1)CALL POPS(106.00D0,1,XNFPCH)
IF(IFMOL.EQ.1)CALL POPS(108.00D0,1,XNFPOH)
DO 444 J=1,NRHOX
XNFH2(J)=0.
XNFPH2(J)=0.
XNFPCO(J)=0.
C IF(T(J).LT.10000.)XNFH2(J)=XNFH(J)**2*EXP(4.477/TKEV(J)-4.6628E1+
C 1(1.8031E-3+(-5.0239E-7+(8.1424E-11-5.0501E-15*T(J))*T(J))*T(J))*
C 2T(J)-1.5*TLOG(J))
C IF(T(J).LT.9000.)XNFH2(J)=XNFH(J)**2*EXP(4.478/TKEV(J)-4.64584E1+
C 1(1.63660E-3+(-4.93992E-7+(1.11822E-10+(-1.49567E-14+
C 2(1.06206E-18-3.08720E-23*T(J))*T(J))*T(J))*T(J))*T(J))*T(J)-
C 3 1.5*TLOG(J))
IF(T(J).GT.9000.)GO TO 444
EQ=EXP(4.478D0/TKEV(J)-4.64584D1+
1(1.63660D-3+(-4.93992D-7+(1.11822D-10+(-1.49567D-14+
2(1.06206D-18-3.08720D-23*T(J))*T(J))*T(J))*T(J))*T(J))*T(J)-
3 1.5*TLOG(J))
XNFH2(J)=XNFH(J)**2*EQ
XNFPH2(J)=XNFPH(J,1)**2*EQ
EQ=EXP(4.478D0/TKEV(J)-4.64584D1+
1(1.63660D-3+(-4.93992D-7+(1.11822D-10+(-1.49567D-14+
2(1.06206D-18-3.08720D-23*T(J))*T(J))*T(J))*T(J))*T(J))*T(J)-
3 1.5*TLOG(J))
XNFPCO(J)=XNFPC(J,1)*XNFPO(J,1)*EXP(11.091E0/TKEV(J)-49.0414E0+
1 14.0306D-4*T(J)-26.6341D-8*T(J)**2+35.382D-12*T(J)**3-
2 26.5424D-16*T(J)**4+8.32385D-20*T(J)**5-1.5*TLOG(J))
444 CONTINUE
445 CONTINUE
DO 125 NU=1,NUMNU
FREQ=FREQSET(NU)
FREQ15=FREQ/1.E15
RCO=0.
FREQLG= LOG(FREQ)
DO 120 J=1,NRHOX
EHVKT(J)=EXP(-FREQ*HKT(J))
STIM(J)=1.-EHVKT(J)
120 BNU(J)=1.47439D-02*FREQ15**3*EHVKT(J)/STIM(J)
N=1
WAVE=2.99792458D17/FREQ
WAVENO=1.E7/WAVE
CALL KAPP(N,NSTEPS,STEPWT)
WRITE(6,15)NU,FREQ,WAVE,WAVENO
DO 129 J=1,NRHOX
ABTOT(J)=ACONT(J)+SIGMAC(J)
CONTINALL(NU,J)=LOG10(ABTOT(J))
CONTABS(NU,J)=LOG10(ACONT(J))
CONTSCAT(NU,J)=LOG10(SIGMAC(J))
129 ABLOG(J)= LOG10(ABTOT(J))
WRITE(6,105)(ABLOG(J),J=1,NRHOX)
105 FORMAT(1X,20F5.2)
C WRITE(10)ABLOG
125 CONTINUE
C
WRITE(10)T,TKEV,TK,HKT,TLOG,HCKT,P,XNE,XNATOM,RHO,RHOX,VTURB,
1XNFH,XNFHE,XNFH2
DO 30 NELEM=1,99
DO 30 ION=1,10
DO 30 J=1,NRHOX
30 XNFP(J,ION,NELEM)=0.
CALL POPS(1.01D0,11,XNFP(1,1,1))
CALL POPS(2.02D0,11,XNFP(1,1,2))
CALL POPS(3.03D0,11,XNFP(1,1,3))
CALL POPS(4.03D0,11,XNFP(1,1,4))
CALL POPS(5.03D0,11,XNFP(1,1,5))
CALL POPS(6.05D0,11,XNFP(1,1,6))
CALL POPS(7.05D0,11,XNFP(1,1,7))
CALL POPS(8.05D0,11,XNFP(1,1,8))
CALL POPS(9.05D0,11,XNFP(1,1,9))
CALL POPS(10.05D0,11,XNFP(1,1,10))
CALL POPS(11.05D0,11,XNFP(1,1,11))
CALL POPS(12.05D0,11,XNFP(1,1,12))
CALL POPS(13.05D0,11,XNFP(1,1,13))
CALL POPS(14.05D0,11,XNFP(1,1,14))
CALL POPS(15.05D0,11,XNFP(1,1,15))
CALL POPS(16.05D0,11,XNFP(1,1,16))
CALL POPS(17.04D0,11,XNFP(1,1,17))
CALL POPS(18.04D0,11,XNFP(1,1,18))
CALL POPS(19.04D0,11,XNFP(1,1,19))
CALL POPS(20.09D0,11,XNFP(1,1,20))
CALL POPS(21.09D0,11,XNFP(1,1,21))
CALL POPS(22.09D0,11,XNFP(1,1,22))
CALL POPS(23.09D0,11,XNFP(1,1,23))
CALL POPS(24.09D0,11,XNFP(1,1,24))
CALL POPS(25.09D0,11,XNFP(1,1,25))
CALL POPS(26.09D0,11,XNFP(1,1,26))
CALL POPS(27.09D0,11,XNFP(1,1,27))
CALL POPS(28.09D0,11,XNFP(1,1,28))
DO 28 NELEM=29,99
28 CALL POPS(FLOAT(NELEM)+.02D0,11,XNFP(1,1,NELEM))
DO 2828 J=1,NRHOX
XNFP(J,6,40)=XNFPH2(J)
2828 XNFP(J,6,46)=XNFPCO(J)
IF(IFMOL.EQ.0)GO TO 210
DO 201 NELEM=40,99
201 CALL POPS(IDMOL(NELEM-39),1,XNFP(1,6,NELEM))
210 DO 250 J=1,NRHOX
DO 250 NELEM=20,28
XNFP(J,5,30+NELEM)=XNFP(J,7,NELEM)
XNFP(J,5,40+NELEM)=XNFP(J,8,NELEM)
XNFP(J,5,50+NELEM)=XNFP(J,9,NELEM)
250 XNFP(J,5,60+NELEM)=XNFP(J,10,NELEM)
DO 300 J=1,NRHOX
DO 260 NELEM=1,99
DO 260 ION=1,6
260 XNFPEL(ION,NELEM)=XNFP(J,ION,NELEM)
DO 20 NELEM=1,99
DOPPLE(1,NELEM)=SQRT(2.*TK(J)/ATMASS(NELEM)/1.660D-24+
1VTURB(J)**2)/2.99792458D10
DOPPLE(2,NELEM)=DOPPLE(1,NELEM)
DOPPLE(3,NELEM)=DOPPLE(1,NELEM)
DOPPLE(4,NELEM)=DOPPLE(1,NELEM)
DOPPLE(5,NELEM)=DOPPLE(1,NELEM)
20 DOPPLE(6,NELEM)=DOPPLE(1,NELEM)
DO 21 NELEM=20,28
DOPPLE(5,30+NELEM)=DOPPLE(1,NELEM)
DOPPLE(5,40+NELEM)=DOPPLE(1,NELEM)
DOPPLE(5,50+NELEM)=DOPPLE(1,NELEM)
21 DOPPLE(5,60+NELEM)=DOPPLE(1,NELEM)
C IF(IFMOL.EQ.0)GO TO 270
DO 265 NELEM=40,99
265 DOPPLE(6,NELEM)=SQRT(2.*TK(J)/MOMASS(NELEM-39)/1.660D-24+
1VTURB(J)**2)/2.99792458D10
270 CONTINUE
C
IT=ITEMP
IP=J
C
WRITE(10)(CONTINALL(NU,J),NU=1,1131)
WRITE(10)(CONTABS(NU,J),NU=1,1131)
WRITE(10)(CONTSCAT(NU,J),NU=1,1131)
WRITE(10)XNFPEL,DOPPLE
WRITE(6,280)J
280 FORMAT(18H0XNFPEL.....DOPPLE,I10)
DO 29 NELEM=1,39
29 WRITE(6,290)NELEM,(XNFPEL(ION,NELEM),ION=1,6),DOPPLE(1,NELEM)
290 FORMAT(I5,1P6E12.4,5X,2E12.4,0PF10.2,I5)
DO 33 NELEM=40,99
NELEM6=NELEM*6
33 WRITE(6,290)NELEM,(XNFPEL(ION,NELEM),ION=1,6),DOPPLE(1,NELEM),
1DOPPLE(6,NELEM),IDMOL(NELEM-39),NELEM6
WRITE(6,333)T(J),TK(J),HKT(J),TKEV(J),TLOG(J),RHOX(J),P(J),
1XNE(J),RHO(J),XNFH(J),XNFHE(J,1),XNFH2(J)
333 FORMAT(10H0 T ,1PE12.4,10H TK ,E12.4,10H HKT ,
1E12.4,10H TKEV ,E12.4,10H TLOG ,E12.4/10H0 RHOX ,
2E12.4,10H P ,E12.4,10H XNE ,E12.4,10H RHO ,E12.4/
3 10H0 XNFH ,E12.4,10H XNFHE ,E12.4,10H XNFH2 ,E12.4)
300 CONTINUE
CALL EXIT
END
SUBROUTINE ATLAS7
END
FUNCTION XFREEF(CARD)
IMPLICIT REAL*8 (A-H,O-Z)
COMMON /FREE/WORD(6),NUMCOL,LETCOL,LAST,MORE,IFFAIL,MAXPOW
DIMENSION CARD(81)
MORE=1
XFREEF=FREEFF(CARD)
IF(IFFAIL.EQ.0)RETURN
L=LAST-1
READ(17,1)(CARD(I),I=1,L)
1 FORMAT(80A1)
NUMCOL=1
XFREEF=FREEFF(CARD)
RETURN
END
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