#include <G4Abla.hh>

Public Member Functions
	G4Abla (G4Volant aVolant, G4VarNtp aVarntp)

	~G4Abla ()

void	setVerboseLevel (G4int level)

G4Volant *	getVolant ()

void	breakItUp (G4int nucleusA, G4int nucleusZ, G4double nucleusMass, G4double excitationEnergy, G4double angularMomentum, G4double recoilEnergy, G4double momX, G4double momY, G4double momZ, G4int eventnumber)

void	initEvapora ()

void	qrot (G4double z, G4double a, G4double bet, G4double sig, G4double u, G4double *qr)

void	mglw (G4double a, G4double z, G4double *el)

void	mglms (G4double a, G4double z, G4int refopt4, G4double *el)

G4double	spdef (G4int a, G4int z, G4int optxfis)

G4double	fissility (int a, int z, int optxfis)

void	evapora (G4double zprf, G4double aprf, G4double ee_par, G4double jprf, G4double zf_par, G4double af_par, G4double mtota_par, G4double pleva_par, G4double pxeva_par, G4double pyeva_par, G4int ff_par, G4int inttype_par, G4int inum_par)

void	direct (G4double zprf, G4double a, G4double ee, G4double jprf, G4double probp_par, G4double probn_par, G4double proba_par, G4double probf_par, G4double ptotl_par, G4double sn_par, G4double sbp_par, G4double sba_par, G4double ecn_par, G4double ecp_par, G4double eca_par, G4double bp_par, G4double *ba_par, G4int, G4int inum, G4int itest)

void	densniv (G4double a, G4double z, G4double ee, G4double esous, G4double dens, G4double bshell, G4double bs, G4double bk, G4double temp, G4int optshp, G4int optcol, G4double defbet)

G4double	bfms67 (G4double zms, G4double ams)

void	lpoly (G4double x, G4int n, G4double pl[])

G4double	eflmac (G4int ia, G4int iz, G4int flag, G4int optshp)

void	appariem (G4double a, G4double z, G4double *del)

void	parite (G4double n, G4double *par)

G4double	tau (G4double bet, G4double homega, G4double ef, G4double t)

G4double	cram (G4double bet, G4double homega)

G4double	bipol (int iflag, G4double y)

void	barfit (G4int iz, G4int ia, G4int il, G4double sbfis, G4double segs, G4double *selmax)

G4double	haz (G4int k)

void	standardRandom (G4double rndm, G4long seed)

G4double	expohaz (G4int k, G4double T)

G4double	fd (G4double E)

G4double	f (G4double E)

G4double	fmaxhaz (G4double T)

G4double	pace2 (G4double a, G4double z)

void	guet (G4double x_par, G4double z_par, G4double *find_par)

void	lorab (G4double gam, G4double eta, G4double ein, G4double pin[], G4double *eout, G4double pout[])

void	translab (G4double gamrem, G4double etrem, G4double csrem[4], G4int nopart, G4int ndec)

void	translabpf (G4double masse1, G4double t1, G4double p1, G4double ctet1, G4double phi1, G4double gamrem, G4double etrem, G4double R[][4], G4double plab1, G4double gam1, G4double *eta1, G4double csdir[])

void	rotab (G4double R[4][4], G4double pin[4], G4double pout[4])

G4int	min (G4int a, G4int b)

G4double	min (G4double a, G4double b)

G4int	max (G4int a, G4int b)

G4double	max (G4double a, G4double b)

G4int	nint (G4double number)

G4int	secnds (G4int x)

G4int	mod (G4int a, G4int b)

G4double	dmod (G4double a, G4double b)

G4double	dint (G4double a)

G4int	idint (G4double a)

G4int	idnint (G4double value)

G4double	utilabs (G4double a)

G4double	dmin1 (G4double a, G4double b, G4double c)

G4Ec2sub *	getFrldmTable ()

Detailed Description

Class containing ABLA de-excitation code.

Definition at line 54 of file G4Abla.hh.

Constructor & Destructor Documentation

G4Abla::G4Abla	(	G4Volant *	aVolant,
		G4VarNtp *	aVarntp
	)

This constructor is used by standalone test driver and the Geant4 interface.

Parameters

aHazard	random seeds
aVolant	data structure for ABLA output
aVarNtp	data structure for transfering ABLA output to Geant4 interface

Definition at line 45 of file G4Abla.cc.

G4Abla::~G4Abla ( )

Basic destructor.

Definition at line 82 of file G4Abla.cc.

Member Function Documentation

void G4Abla::appariem	(	G4double	a,
		G4double	z,
		G4double *	del
	)

Procedure for calculating the pairing correction to the binding energy of a specific nucleus.

Definition at line 2531 of file G4Abla.cc.

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void G4Abla::barfit	(	G4int	iz,
		G4int	ia,
		G4int	il,
		G4double *	sbfis,
		G4double *	segs,
		G4double *	selmax
	)

THIS SUBROUTINE RETURNS THE BARRIER HEIGHT BFIS, THE GROUND-STATE ENERGY SEGS, IN MEV, AND THE ANGULAR MOMENTUM AT WHICH THE FISSION BARRIER DISAPPEARS, LMAX, IN UNITS OF H-BAR, WHEN CALLED WITH INTEGER AGUMENTS IZ, THE ATOMIC NUMBER, IA, THE ATOMIC MASS NUMBER, AND IL, THE ANGULAR MOMENTUM IN UNITS OF H-BAR. (PLANCK'S CONSTANT DIVIDED BY 2*PI).

Definition at line 2687 of file G4Abla.cc.

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G4double G4Abla::bfms67	(	G4double	zms,
		G4double	ams
	)

This subroutine calculates the fission barriers of the liquid-drop model of Myers and Swiatecki (1967). Analytic parameterization of Dahlinger 1982 replaces tables. Barrier heights from Myers and Swiatecki

Definition at line 2350 of file G4Abla.cc.

G4double G4Abla::bipol	(	int	iflag,
		G4double	y
	)

CALCULATION OF THE SURFACE BS OR CURVATURE BK OF A NUCLEUS RELATIVE TO THE SPHERICAL CONFIGURATION BASED ON MYERS, DROPLET MODEL FOR ARBITRARY SHAPES

Definition at line 2632 of file G4Abla.cc.

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void G4Abla::breakItUp	(	G4int	nucleusA,
		G4int	nucleusZ,
		G4double	nucleusMass,
		G4double	excitationEnergy,
		G4double	angularMomentum,
		G4double	recoilEnergy,
		G4double	momX,
		G4double	momY,
		G4double	momZ,
		G4int	eventnumber
	)

Main interface to the de-excitation code.

Parameters

nucleusA	mass number of the nucleus
nucleusZ	charge number of the nucleus
nucleusMass	mass of the nucleus
excitationEnergy	excitation energy of the nucleus
angularMomentum	angular momentum of the nucleus (produced as output by INCL4)
recoilEnergy	recoil energy of the nucleus
momX	momentum x-component
momY	momentum y-component
momZ	momentum z-component
eventnumber	number of the event

Definition at line 102 of file G4Abla.cc.

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G4double G4Abla::cram	(	G4double	bet,
		G4double	homega
	)

KRAMERS FAKTOR - REDUCTION OF THE FISSION PROBABILITY INDEPENDENT OF EXCITATION ENERGY

Definition at line 2615 of file G4Abla.cc.

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void G4Abla::densniv	(	G4double	a,
		G4double	z,
		G4double	ee,
		G4double	esous,
		G4double *	dens,
		G4double	bshell,
		G4double	bs,
		G4double	bk,
		G4double *	temp,
		G4int	optshp,
		G4int	optcol,
		G4double	defbet
	)

Level density parameters.

Definition at line 2127 of file G4Abla.cc.

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G4double G4Abla::dint ( G4double a )

Definition at line 3685 of file G4Abla.cc.

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void G4Abla::direct	(	G4double	zprf,
		G4double	a,
		G4double	ee,
		G4double	jprf,
		G4double *	probp_par,
		G4double *	probn_par,
		G4double *	proba_par,
		G4double *	probf_par,
		G4double *	ptotl_par,
		G4double *	sn_par,
		G4double *	sbp_par,
		G4double *	sba_par,
		G4double *	ecn_par,
		G4double *	ecp_par,
		G4double *	eca_par,
		G4double *	bp_par,
		G4double *	ba_par,
		G4int	,
		G4int	inum,
		G4int	itest
	)

Calculation of particle emission probabilities.

Definition at line 1457 of file G4Abla.cc.

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G4double G4Abla::dmin1	(	G4double	a,
		G4double	b,
		G4double	c
	)

Definition at line 3719 of file G4Abla.cc.

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G4double G4Abla::dmod	(	G4double	a,
		G4double	b
	)

G4double G4Abla::eflmac	(	G4int	ia,
		G4int	iz,
		G4int	flag,
		G4int	optshp
	)

This function will calculate the liquid-drop nuclear mass for spheri configuration according to the preprint NUCLEAR GROUND-STATE MASSES and DEFORMATIONS by P. Mo"ller et al. from August 16, 1993 p. All constants are taken from this publication for consistency.

Definition at line 2385 of file G4Abla.cc.

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void G4Abla::evapora	(	G4double	zprf,
		G4double	aprf,
		G4double *	ee_par,
		G4double	jprf,
		G4double *	zf_par,
		G4double *	af_par,
		G4double *	mtota_par,
		G4double *	pleva_par,
		G4double *	pxeva_par,
		G4double *	pyeva_par,
		G4int *	ff_par,
		G4int *	inttype_par,
		G4int *	inum_par
	)

Main evaporation routine.

Definition at line 1098 of file G4Abla.cc.

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G4double G4Abla::expohaz	(	G4int	k,
		G4double	T
	)

TIRAGE ALEATOIRE DANS UNE EXPONENTIELLLE : Y=EXP(-X/T)

Definition at line 3012 of file G4Abla.cc.

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G4double G4Abla::f ( G4double E )

FONCTION INTEGRALE DE FD(E)

Definition at line 3026 of file G4Abla.cc.

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G4double G4Abla::fd ( G4double E )

DISTRIBUTION DE MAXWELL

Definition at line 3019 of file G4Abla.cc.

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G4double G4Abla::fissility	(	int	a,
		int	z,
		int	optxfis
	)

Calculation of fissility parameter

Definition at line 1064 of file G4Abla.cc.

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G4double G4Abla::fmaxhaz ( G4double T )

tirage aleatoire dans une maxwellienne

Definition at line 3032 of file G4Abla.cc.

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G4Ec2sub* G4Abla::getFrldmTable ( )

inline

Definition at line 300 of file G4Abla.hh.

G4Volant* G4Abla::getVolant ( )

inline

Get the internal output data structure pointer.

Definition at line 83 of file G4Abla.hh.

void G4Abla::guet	(	G4double *	x_par,
		G4double *	z_par,
		G4double *	find_par
	)

Definition at line 3131 of file G4Abla.cc.

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G4double G4Abla::haz ( G4int k )

Random numbers.

Definition at line 3520 of file G4Abla.cc.

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G4int G4Abla::idint ( G4double a )

Definition at line 3699 of file G4Abla.cc.

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G4int G4Abla::idnint ( G4double value )

Definition at line 3713 of file G4Abla.cc.

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void G4Abla::initEvapora ( )

Initialize ABLA evaporation code.

Definition at line 682 of file G4Abla.cc.

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void G4Abla::lorab	(	G4double	gam,
		G4double	eta,
		G4double	ein,
		G4double	pin[],
		G4double *	eout,
		G4double	pout[]
	)

Definition at line 3489 of file G4Abla.cc.

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void G4Abla::lpoly	(	G4double	x,
		G4int	n,
		G4double	pl[]
	)

This subroutine calculates the ordinary legendre polynomials of order 0 to n-1 of argument x and stores them in the vector pl. They are calculated by recursion relation from the first two polynomials. Written by A.J.Sierk LANL t-9 February, 1984

Definition at line 2367 of file G4Abla.cc.

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G4int G4Abla::max	(	G4int	a,
		G4int	b
	)

Definition at line 3621 of file G4Abla.cc.

G4double G4Abla::max	(	G4double	a,
		G4double	b
	)

Definition at line 3611 of file G4Abla.cc.

void G4Abla::mglms	(	G4double	a,
		G4double	z,
		G4int	refopt4,
		G4double *	el
	)

Mglms

Definition at line 971 of file G4Abla.cc.

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void G4Abla::mglw	(	G4double	a,
		G4double	z,
		G4double *	el
	)

Model de la goutte liquide de c. f. weizsacker. usually an obsolete option

Definition at line 944 of file G4Abla.cc.

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G4int G4Abla::min	(	G4int	a,
		G4int	b
	)

Definition at line 3601 of file G4Abla.cc.

G4double G4Abla::min	(	G4double	a,
		G4double	b
	)

Definition at line 3591 of file G4Abla.cc.

G4int G4Abla::mod	(	G4int	a,
		G4int	b
	)

Definition at line 3675 of file G4Abla.cc.

G4int G4Abla::nint ( G4double number )

Definition at line 3631 of file G4Abla.cc.

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G4double G4Abla::pace2	(	G4double	a,
		G4double	z
	)

Definition at line 3093 of file G4Abla.cc.

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void G4Abla::parite	(	G4double	n,
		G4double *	par
	)

PROCEDURE FOR CALCULATING THE PARITY OF THE NUMBER N. RETURNS -1 IF N IS ODD AND +1 IF N IS EVEN

Definition at line 2561 of file G4Abla.cc.

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void G4Abla::qrot	(	G4double	z,
		G4double	a,
		G4double	bet,
		G4double	sig,
		G4double	u,
		G4double *	qr
	)

Coefficient of collective enhancement including damping Input: z,a,bet,sig,u Output: qr - collective enhancement factor See junghans et al., nucl. phys. a 629 (1998) 635

Parameters

z	charge number
a	mass number
bet	beta deformation
sig	perpendicular spin cut-off factor
u	Energy

Returns: Coefficient of collective enhancement

Definition at line 898 of file G4Abla.cc.

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void G4Abla::rotab	(	G4double	R[4][4],
		G4double	pin[4],
		G4double	pout[4]
	)

Definition at line 3505 of file G4Abla.cc.

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G4int G4Abla::secnds ( G4int x )

Definition at line 3659 of file G4Abla.cc.

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void G4Abla::setVerboseLevel ( G4int level )

Set verbosity level.

Definition at line 76 of file G4Abla.cc.

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G4double G4Abla::spdef	(	G4int	a,
		G4int	z,
		G4int	optxfis
	)

Definition at line 1014 of file G4Abla.cc.

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void G4Abla::standardRandom	(	G4double *	rndm,
		G4long *	seed
	)

G4double G4Abla::tau	(	G4double	bet,
		G4double	homega,
		G4double	ef,
		G4double	t
	)

RISE TIME IN WHICH THE FISSION WIDTH HAS REACHED 90 PERCENT OF ITS FINAL VALUE

Definition at line 2586 of file G4Abla.cc.

void G4Abla::translab	(	G4double	gamrem,
		G4double	etrem,
		G4double	csrem[4],
		G4int	nopart,
		G4int	ndec
	)

Definition at line 3202 of file G4Abla.cc.

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void G4Abla::translabpf	(	G4double	masse1,
		G4double	t1,
		G4double	p1,
		G4double	ctet1,
		G4double	phi1,
		G4double	gamrem,
		G4double	etrem,
		G4double	R[][4],
		G4double *	plab1,
		G4double *	gam1,
		G4double *	eta1,
		G4double	csdir[]
	)

Definition at line 3428 of file G4Abla.cc.

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G4double G4Abla::utilabs ( G4double a )

Definition at line 3733 of file G4Abla.cc.

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The documentation for this class was generated from the following files:

source/source/processes/hadronic/models/abla/include/G4Abla.hh
source/source/processes/hadronic/models/abla/src/G4Abla.cc

Public Member Functions

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation