#include "isajet/pilot.h" SUBROUTINE SSHNN C----------------------------------------------------------------------- C Calculates the decay widths of all neutral Higgses into all C possible pairs of neutralinos, and the decay widths of the C charged Higgs into any neutralino and any chargino C C Bisset's NEUINO C----------------------------------------------------------------------- #if defined(CERNLIB_IMPNONE) IMPLICIT NONE #endif #include "isajet/sspar.inc" #include "isajet/sssm.inc" #include "isajet/sstype.inc" C DOUBLE PRECISION XIJ,XJI,DIJ,TEMP,DWZN,TEMP2,T2,RWZ,SWZ $,PI,SR2,XM,THETX,YM,THETY,SGL,CGL,SGR,CGR,MW1,MW2,THETM,THETP $,G2,GP2,BETA,ALPHA,MH,M1,M2 DOUBLE PRECISION SN1,SN2,DWID,LAMB DOUBLE PRECISION A(4,4),MHI(3) DOUBLE PRECISION SSDLAM REAL WID INTEGER II,NUMH,I1,I2,IZ,IW,ID1,ID2,IDHHA INTEGER IDHI(3),IDZI(4) C C Mass matrix parameters C PI=4.*ATAN(1.D0) SR2=SQRT(2.D0) XM=1./TAN(GAMMAL) THETX=SIGN(1.D0,XM) YM=1./TAN(GAMMAR) THETY=SIGN(1.D0,YM) SGL=1/(DSQRT(1+XM**2)) CGL=SGL*XM SGR=1/(DSQRT(1+YM**2)) CGR=SGR*YM MW1=DBLE(ABS(AMW1SS)) MW2=DBLE(ABS(AMW2SS)) THETM=SIGN(1.,AMW1SS) THETP=SIGN(1.,AMW2SS) G2=4*PI*ALFAEM/SN2THW GP2=4*PI*ALFAEM/(1-SN2THW) BETA=ATAN(1.0/RV2V1) ALPHA=ALFAH C The following was calculated in Bisset's MASZIN DO 10 II=1,4 TEMP=SQRT(G2)*ZMIXSS(3,II)+SQRT(GP2)*ZMIXSS(4,II) TEMP=TEMP/SR2 A(1,II)=-TEMP*SGR-SQRT(G2)*ZMIXSS(1,II)*CGR A(2,II)=TEMP*CGR-SQRT(G2)*ZMIXSS(1,II)*SGR A(3,II)=-TEMP*SGL+SQRT(G2)*ZMIXSS(2,II)*CGL A(4,II)=TEMP*CGL+SQRT(G2)*ZMIXSS(2,II)*SGL 10 CONTINUE C C Arrays for loops C MHI(1)=AMHL MHI(2)=AMHH MHI(3)=AMHA IDHI(1)=ISHL IDHI(2)=ISHH IDHI(3)=ISHA IDZI(1)=ISZ1 IDZI(2)=ISZ2 IDZI(3)=ISZ3 IDZI(4)=ISZ4 C C Loop over neutral Higgs decays h(numh) into neutralino C pairs zi(i1) and zi(i2) C DO 100 NUMH=1,3 MH=MHI(NUMH) IDHHA=IDHI(NUMH) DO 110 I1=1,4 M1=ABS(AMZISS(I1)) ID1=IDZI(I1) DO 120 I2=I1,4 M2=ABS(AMZISS(I2)) ID2=IDZI(I2) IF(M1+M2.GE.MH) GO TO 120 LAMB=SSDLAM(MH**2,M1**2,M2**2) IF(I1.EQ.I2) THEN DIJ = 0.5 ELSE DIJ = 1.0 ENDIF TEMP=-0.5*SIGN(1.,AMZISS(I1))*SIGN(1.,AMZISS(I2)) XIJ=TEMP*(SQRT(G2)*ZMIXSS(3,I2)-SQRT(GP2)*ZMIXSS(4,I2)) XJI=TEMP*(SQRT(G2)*ZMIXSS(3,I1)-SQRT(GP2)*ZMIXSS(4,I1)) IF(NUMH.EQ.1) THEN XIJ=XIJ*(ZMIXSS(2,I1)*SIN(ALPHA)-ZMIXSS(1,I1)*COS(ALPHA)) XJI=XJI*(ZMIXSS(2,I2)*SIN(ALPHA)-ZMIXSS(1,I2)*COS(ALPHA)) ELSEIF (NUMH .EQ. 2) THEN XIJ=XIJ*(ZMIXSS(2,I1)*COS(ALPHA)+ZMIXSS(1,I1)*SIN(ALPHA)) XJI=XJI*(ZMIXSS(2,I2)*COS(ALPHA)+ZMIXSS(1,I2)*SIN(ALPHA)) ELSEIF(NUMH.EQ.3) THEN XIJ=-XIJ*(ZMIXSS(2,I1)*SIN(BETA)-ZMIXSS(1,I1)*COS(BETA)) XJI=-XJI*(ZMIXSS(2,I2)*SIN(BETA)-ZMIXSS(1,I2)*COS(BETA)) ENDIF DWID=DIJ*(XIJ+XJI)**2 DWID=DWID*SQRT(LAMB)/(8.0*PI*(MH**3)) IF(NUMH.EQ.1.OR.NUMH.EQ.2) THEN TEMP2 = ((MH**2)-(M1-2.0*TEMP*M2)**2) ELSEIF(NUMH.EQ.3) THEN TEMP2=((MH**2)-(M1+2.0*TEMP*M2)**2) ENDIF DWID=DWID*TEMP2 WID=DWID CALL SSSAVE(IDHHA,WID,ID1,ID2,0,0,0) 120 CONTINUE 110 CONTINUE 100 CONTINUE C C Loop over h+ decays into wi(iw) + zi(iz) C MH=AMHC DO 210 IW=1,2 IF(IW.EQ.1) THEN M1=ABS(AMW1SS) ID1=ISW1 SN1=SIGN(1.,AMW1SS) ELSE M1=ABS(AMW2SS) ID1=ISW2 SN1=SIGN(1.,AMW2SS) ENDIF DO 220 IZ=1,4 M2=ABS(AMZISS(IZ)) ID2=IDZI(IZ) SN2=SIGN(1.,AMZISS(IZ)) IF(M1+M2.GE.MH) GO TO 220 LAMB=SSDLAM(MH**2,M1**2,M2**2) T2=MH**2-M1**2-M2**2 IF(IW.EQ.1) THEN RWZ=COS(BETA)*A(2,IZ)*SN1 TEMP=SIN(BETA)*A(4,IZ)*SN2 SWZ=0.5*(RWZ+TEMP) RWZ=0.5*(RWZ-TEMP) ELSE RWZ=COS(BETA)*A(1,IZ)*THETY*SN1 TEMP=SIN(BETA)*A(3,IZ)*THETX*SN2 SWZ=0.5*(RWZ+TEMP) RWZ=0.5*(RWZ-TEMP) ENDIF DWID=RWZ**2+SWZ**2 DWID=DWID*T2 TEMP=2*M1*M2*(RWZ**2-SWZ**2) DWID=(DWID-TEMP)/(8.0*PI*(MH**3)) DWID=DWID*SQRT(LAMB) WID=DWID CALL SSSAVE(ISHC,WID,ID1,ID2,0,0,0) 220 CONTINUE 210 CONTINUE RETURN END