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pyhixtot.f
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1 
2 C*********************************************************************
3 
4  SUBROUTINE pyhixtot
5 
6 C...Parametrizes total, double diffractive, single diffractive and
7 C...elastic cross-sections for different energies and beams.
8  common/ludat1/mstu(200),paru(200),mstj(200),parj(200)
9  SAVE /ludat1/
10  common/pyhipars/mstp(200),parp(200),msti(200),pari(200)
11  SAVE /pyhipars/
12  common/pyhiint1/mint(400),vint(400)
13  SAVE /pyhiint1/
14  common/pyhiint5/ngen(0:200,3),xsec(0:200,3)
15  SAVE /pyhiint5/
16  dimension bcs(5,8),bcb(2,5),bcc(3)
17 
18 C...The following data lines are coefficients needed in the
19 C...Block, Cahn parametrization of total cross-section and nuclear
20 C...slope parameter; see below.
21  DATA ((bcs(i,j),j=1,8),i=1,5)/
22  1 41.74, 0.66, 0.0000, 337., 0.0, 0.0, -39.3, 0.48,
23  2 41.66, 0.60, 0.0000, 306., 0.0, 0.0, -34.6, 0.51,
24  3 41.36, 0.63, 0.0000, 299., 7.3, 0.5, -40.4, 0.47,
25  4 41.68, 0.63, 0.0083, 330., 0.0, 0.0, -39.0, 0.48,
26  5 41.13, 0.59, 0.0074, 278., 10.5, 0.5, -41.2, 0.46/
27  DATA ((bcb(i,j),j=1,5),i=1,2)/
28  1 10.79, -0.049, 0.040, 21.5, 1.23,
29  2 9.92, -0.027, 0.013, 18.9, 1.07/
30  DATA bcc/2.0164346,-0.5590311,0.0376279/
31 
32 C...Total cross-section and nuclear slope parameter for pp and p-pbar
33  nfit=min(5,max(1,mstp(31)))
34  sigp=bcs(nfit,1)+bcs(nfit,2)*(-0.25*paru(1)**2*
35  &(1.-0.25*bcs(nfit,3)*paru(1)**2)+(1.+0.5*bcs(nfit,3)*paru(1)**2)*
36  &(log(vint(2)/bcs(nfit,4)))**2+bcs(nfit,3)*
37  &(log(vint(2)/bcs(nfit,4)))**4)/
38  &((1.-0.25*bcs(nfit,3)*paru(1)**2)**2+2.*bcs(nfit,3)*
39  &(1.+0.25*bcs(nfit,3)*paru(1)**2)*(log(vint(2)/bcs(nfit,4)))**2+
40  &bcs(nfit,3)**2*(log(vint(2)/bcs(nfit,4)))**4)+bcs(nfit,5)*
41  &vint(2)**(bcs(nfit,6)-1.)*sin(0.5*paru(1)*bcs(nfit,6))
42  sigm=-bcs(nfit,7)*vint(2)**(bcs(nfit,8)-1.)*
43  &cos(0.5*paru(1)*bcs(nfit,8))
44  refp=bcs(nfit,2)*paru(1)*log(vint(2)/bcs(nfit,4))/
45  &((1.-0.25*bcs(nfit,3)*paru(1)**2)**2+2.*bcs(nfit,3)*
46  &(1.+0.25*bcs(nfit,3)*paru(1)**2)+(log(vint(2)/bcs(nfit,4)))**2+
47  &bcs(nfit,3)**2*(log(vint(2)/bcs(nfit,4)))**4)-bcs(nfit,5)*
48  &vint(2)**(bcs(nfit,6)-1.)*cos(0.5*paru(1)*bcs(nfit,6))
49  refm=-bcs(nfit,7)*vint(2)**(bcs(nfit,8)-1.)*
50  &sin(0.5*paru(1)*bcs(nfit,8))
51  sigma=sigp-isign(1,mint(11)*mint(12))*sigm
52  rho=(refp-isign(1,mint(11)*mint(12))*refm)/sigma
53 
54 C...Nuclear slope parameter B, curvature C:
55  nfit=1
56  IF(mstp(31).GE.4) nfit=2
57  bp=bcb(nfit,1)+bcb(nfit,2)*log(vint(2))+
58  &bcb(nfit,3)*(log(vint(2)))**2
59  bm=bcb(nfit,4)+bcb(nfit,5)*log(vint(2))
60  b=bp-isign(1,mint(11)*mint(12))*sigm/sigp*(bm-bp)
61  vint(121)=b
62  c=-0.5*bcc(2)/bcc(3)*(1.-sqrt(max(0.,1.+4.*bcc(3)/bcc(2)**2*
63  &(1.e-03*vint(1)-bcc(1)))))
64  vint(122)=c
65 
66 C...Elastic scattering cross-section (fixed by sigma-tot, rho and B).
67  sigel=sigma**2*(1.+rho**2)/(16.*paru(1)*paru(5)*b)
68 
69 C...Single diffractive scattering cross-section from Goulianos:
70  sigsd=2.*0.68*(1.+36./vint(2))*log(0.6+0.1*vint(2))
71 
72 C...Double diffractive scattering cross-section (essentially fixed by
73 C...sigma-sd and sigma-el).
74  sigdd=sigsd**2/(3.*sigel)
75 
76 C...Total non-elastic, non-diffractive cross-section.
77  signd=sigma-sigdd-sigsd-sigel
78 
79 C...Rescale for pions.
80  IF(iabs(mint(11)).EQ.211.AND.iabs(mint(12)).EQ.211) THEN
81  sigma=4./9.*sigma
82  sigdd=4./9.*sigdd
83  sigsd=4./9.*sigsd
84  sigel=4./9.*sigel
85  signd=4./9.*signd
86  ELSEIF(iabs(mint(11)).EQ.211.OR.iabs(mint(12)).EQ.211) THEN
87  sigma=2./3.*sigma
88  sigdd=2./3.*sigdd
89  sigsd=2./3.*sigsd
90  sigel=2./3.*sigel
91  signd=2./3.*signd
92  ENDIF
93 
94 C...Save cross-sections in common block PYPARA.
95  vint(101)=sigma
96  vint(102)=sigel
97  vint(103)=sigsd
98  vint(104)=sigdd
99  vint(106)=signd
100  xsec(95,1)=signd
101 
102  RETURN
103  END