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enerloss_new.f
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enerloss_new.f
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subroutine enerloss_new(len,dens,zeff,aeff,epart,mpart,typeflag,Eloss)
implicit none
real*8 thick,len,dens,zeff,aeff,epart,mpart,Eloss
real*8 x,chsi,lambda,gauss1,Eloss_mp,gamma
real*8 denscorr,CO,hnup,log10bg,I,beta,Eloss_mp_new
integer typeflag !1=normal eloss (picked from distribution)
!2=min eloss
!3=max eloss
!4=most probable eloss
integer numerr
data numerr /0/
real*8 me
parameter(me=0.51099906)
thick = len*dens
gamma=epart/mpart
beta = sqrt(1.-1./gamma**2)
if(zeff.eq.1) then !Ionization potential in MeV
I = 21.8e-06
else
I = (16.*zeff**0.9)*1.0e-06
endif
hnup = 28.816e-06*sqrt(dens*zeff/aeff) !plasma frequency
log10bg = log(beta*gamma)/log(10.)
CO=log(hnup)-log(I)+0.5
C DJG Get density effect correction (I got this from JV).
if(log10bg.lt.0.) then
denscorr=0.
elseif(log10bg.lt.3.) then
denscorr=CO+log(10.)*log10bg+abs(CO/27.)*(3.-log10bg)**3
elseif(log10bg.lt.4.7) then
denscorr=CO+log(10.)*log10bg
else
denscorr=CO+log(10.)*4.7
endif
if (thick.le.0.) then
Eloss = 0.
else
Eloss_mp = 0.1536e-03 * zeff/aeff * thick * ( 19.26 +
& log(thick/dens) )
Eloss_mp_new = 0.1536e-03 * zeff/aeff *thick/beta**2* (
& log(me/I**2) + 1.063 + 2.*log(gamma*beta) +
& log(0.1536*zeff/aeff*thick/beta**2)-beta**2-denscorr)
c write(6,*) 'ELOSS',Eloss_mp,Eloss_mp_new
! ........ convert to MeV, the unit of choice in THIS program
! ........ (cf. EVCOIN where GeV prevail)
Eloss_mp = Eloss_mp_new*1000.
chsi = 0.307075/2.*zeff/aeff*thick/beta**2
if(typeflag.eq.1)then
x=abs(gauss1(10.0e0))
elseif(typeflag.eq.2)then
x=3
elseif(typeflag.eq.3)then
x=0.0067
elseif(typeflag.eq.4)then
x=1
endif
if(x.gt.0.0) then
lambda = -2.0*log(x)
else
lambda = 100000.
endif
Eloss = lambda*chsi+eloss_mp
endif
if (eloss.gt.(epart-mpart)) then
eloss=(epart-mpart)-0.0000001
numerr=numerr+1
if (numerr.le.10) then
write(6,*) 'Eloss>Total KE; forcing Eloss=KE'
if (numerr.eq.10) write(6,*) ' FURTHER ELOSS ERRORS SUPPRESSED'
endif
endif
return
end