[u/mrichter/AliRoot.git] / LHC / AliLhcProcessIBS.cxx

/**************************************************************************
 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 *                                                                        *
 * Author: The ALICE Off-line Project.                                    *
 * Contributors are mentioned in the code where appropriate.              *
 *                                                                        *
 * Permission to use, copy, modify and distribute this software and its   *
 * documentation strictly for non-commercial purposes is hereby granted   *
 * without fee, provided that the above copyright notice appears in all   *
 * copies and that both the copyright notice and this permission notice   *
 * appear in the supporting documentation. The authors make no claims     *
 * about the suitability of this software for any purpose. It is          *
 * provided "as is" without express or implied warranty.                  *
 **************************************************************************/

/* $Id$ */

#include "AliLhcProcessIBS.h"
#include "AliLHC.h"
#include "AliLhcIRegion.h"
#include "AliLhcBeam.h"

#include <TF1.h>
#include <TMath.h>
#include <TCanvas.h>
#include <TGraph.h>
#include <TMultiGraph.h>

ClassImp(AliLhcProcessIBS)

  Double_t func(Double_t *x, Double_t *par);

AliLhcProcessIBS::AliLhcProcessIBS(AliLHC* lhc, const char* name, const char* title)
    :AliLhcProcess(lhc,name,title)
{
// Constructor
}


AliLhcProcessIBS::~AliLhcProcessIBS()
{
// Destructor

}

void AliLhcProcessIBS::Init()
{
  // Initialization
   const Float_t r0=1.535e-16;

   printf("\n Initializing Process %s", GetName());
   printf("\n ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^");

   fIRegions = fAccelerator->IRegions();

   for (Int_t i = 0; i < 2; i++) {
     fBeam[i] = fAccelerator->Beam(i);
     fR[i]    = r0*fBeam[i]->Z()*fBeam[i]->Z()/fBeam[i]->A();
     fE[i]    = 0.938*fBeam[i]->A();
   }
}

void AliLhcProcessIBS::Evolve(Float_t dt)
{
  printf("\n Here process %s %f:", GetName(), dt);
   for (Int_t i=0; i<2; i++) {
     // Density
     Float_t sige    = fBeam[i]->EnergySpread();
     Float_t avbeta  = fAccelerator->AverageBeta();
     Float_t avd     = fAccelerator->AverageDisp();

     Float_t gamma   = fBeam[i]->Gamma();
     Float_t epsx    = fBeam[i]->Emittance()*gamma;
     Float_t epsy    = epsx;
     Float_t epse    = fBeam[i]->LongEmittance();
     Float_t sigxb   = TMath::Sqrt(epsx/gamma*avbeta);
     Float_t sigx    = TMath::Sqrt(sigxb*sigxb+(avd*avd*sige*sige));
     Float_t ssigx   = TMath::Sqrt(epsx/gamma/avbeta);
     Float_t sigy    = sigx;
     Float_t ssigy   = ssigx;

     Float_t asd = fBeam[i]->N()*fR[i]*fR[i]*fE[i]/
       (16.*TMath::Pi()*gamma*epsx*epsy*epse);
     
     // impact parameter
     Float_t d    = sige*avd/sigx;
     // 
     Float_t at = sige*TMath::Sqrt(1.-d*d)/(gamma*ssigx);
     Float_t bt = sige*TMath::Sqrt(1.-d*d)/(gamma*ssigy);
     Float_t ct = sige*TMath::Sqrt(1.-d*d)*TMath::Sqrt(4.*sigy/fR[i]);
     //
     Double_t par[3];
     par[0] = at;
     par[1] = bt;
     par[2] = ct;
     TF1 *fct = new TF1("func",func, 0., 1., 3);
     
     Float_t f = (Float_t) 8.0*TMath::Pi()*
	 fct->Integral(0., 1., par, 1.e-5);
     //
     fTaux =  1./(asd*f*(d*d-at*at/2.));
     fTaue =  1./(asd*f*(1.-d*d));
     //     printf("\n taux, taue %f %f", taux, taue);
     //     Float_t tauy = -2./at*at/asd/f;
     fBeam[i]->IncreaseEmittance(dt/fTaux, dt/fTaue);
   }

}

void AliLhcProcessIBS::SetMonitor(Int_t n)
{
  // Initialize Monitor
  if (fTauxArray) delete fTauxArray;
  if (fTaueArray) delete fTaueArray;
  fTauxArray = new Float_t[n];
  fTaueArray = new Float_t[n];
  fNmax = n;
}

void AliLhcProcessIBS::Record()
{
  // Record monitor quantities
    fTauxArray[fAccelerator->Nt()] = fTaux/3600.;
    fTaueArray[fAccelerator->Nt()] = fTaue/3600.;
}


void AliLhcProcessIBS::DrawPlots()
{
  // Draw monitor plots
  Float_t* t =  fAccelerator->TimeA();
  
  TH1 *t1 = new TH1F("t1","Hor. IBS growth time",fNmax,0,t[fNmax]);
  t1->SetMinimum(0);
  t1->SetMaximum(fTauxArray[fNmax]*1.1);
  t1->SetStats(0);
  t1->GetXaxis()->SetTitle("t (h)");
  t1->GetYaxis()->SetTitle("tau_x (t)");

  TH1 *t2 = new TH1F("t2","Long. IBS growth time",fNmax,0,t[fNmax]);
  t2->SetMinimum(0);
  t2->SetMaximum(fTaueArray[fNmax]*1.1);
  t2->SetStats(0);
  t2->GetXaxis()->SetTitle("t (h)");
  t2->GetYaxis()->SetTitle("tau_l (t)");

  TGraph* grTaux = new TGraph(fNmax, fAccelerator->TimeA(), fTauxArray);
  grTaux->SetHistogram(t1);

  TGraph* grTaue = new TGraph(fNmax, fAccelerator->TimeA(), fTaueArray);
  grTaue->SetHistogram(t2);
  grTaue->SetLineStyle(2);

  TMultiGraph* mg = new TMultiGraph();
  mg->Add(grTaux);
  mg->Add(grTaue);

  TCanvas *c3 = new TCanvas("c3","IBS", 200, 10, 700, 500);
  c3->SetGrid();
  mg->Draw("AC");  
  mg->GetXaxis()->SetTitle("t (h)");
  mg->GetYaxis()->SetTitle("IBS Growth Time (h)");
  mg->Draw("AC");
}


AliLhcProcessIBS& AliLhcProcessIBS::operator=(const  AliLhcProcessIBS & /*rhs*/)
{
// Assignment operator
    return *this;
}

Double_t func(Double_t *x, Double_t *par)
{
  Double_t a  = par[0];
  Double_t b  = par[1];
  Double_t cc = par[2];

  const Double_t bc = 0.5772;
  Double_t xx = x[0];
  Double_t x2=xx*xx;
  Double_t x1=1.0-x2;
  Double_t p=1.0/TMath::Sqrt(x2+a*a*x1);
  Double_t q=1.0/TMath::Sqrt(x2+b*b*x1);
  return (1.0-3.0*x2)*p*q*(2.0*TMath::Log(0.5*cc*(p+q))-bc);
}
Commit	Line	Data
11141716	1	/**************************************************************************
	2	* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	3	* *
	4	* Author: The ALICE Off-line Project. *
	5	* Contributors are mentioned in the code where appropriate. *
	6	* *
	7	* Permission to use, copy, modify and distribute this software and its *
	8	* documentation strictly for non-commercial purposes is hereby granted *
	9	* without fee, provided that the above copyright notice appears in all *
	10	* copies and that both the copyright notice and this permission notice *
	11	* appear in the supporting documentation. The authors make no claims *
	12	* about the suitability of this software for any purpose. It is *
	13	* provided "as is" without express or implied warranty. *
	14	**************************************************************************/
	15
803d1ab0	16	/* $Id$ */
11141716	17
	18	#include "AliLhcProcessIBS.h"
	19	#include "AliLHC.h"
	20	#include "AliLhcIRegion.h"
	21	#include "AliLhcBeam.h"
	22
	23	#include <TF1.h>
	24	#include <TMath.h>
	25	#include <TCanvas.h>
	26	#include <TGraph.h>
	27	#include <TMultiGraph.h>
	28
	29	ClassImp(AliLhcProcessIBS)
	30
	31	Double_t func(Double_t x, Double_t par);
	32
	33	AliLhcProcessIBS::AliLhcProcessIBS(AliLHC* lhc, const char* name, const char* title)
	34	:AliLhcProcess(lhc,name,title)
	35	{
	36	// Constructor
	37	}
	38
	39
	40	AliLhcProcessIBS::~AliLhcProcessIBS()
	41	{
	42	// Destructor
	43
	44	}
	45
	46	void AliLhcProcessIBS::Init()
	47	{
	48	// Initialization
	49	const Float_t r0=1.535e-16;
	50
	51	printf("\n Initializing Process %s", GetName());
	52	printf("\n ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^");
	53
	54	fIRegions = fAccelerator->IRegions();
	55
	56	for (Int_t i = 0; i < 2; i++) {
	57	fBeam[i] = fAccelerator->Beam(i);
	58	fR[i] = r0fBeam[i]->Z()fBeam[i]->Z()/fBeam[i]->A();
	59	fE[i] = 0.938*fBeam[i]->A();
	60	}
	61	}
	62
	63	void AliLhcProcessIBS::Evolve(Float_t dt)
	64	{
	65	printf("\n Here process %s %f:", GetName(), dt);
	66	for (Int_t i=0; i<2; i++) {
	67	// Density
	68	Float_t sige = fBeam[i]->EnergySpread();
	69	Float_t avbeta = fAccelerator->AverageBeta();
	70	Float_t avd = fAccelerator->AverageDisp();
	71
	72	Float_t gamma = fBeam[i]->Gamma();
	73	Float_t epsx = fBeam[i]->Emittance()*gamma;
	74	Float_t epsy = epsx;
	75	Float_t epse = fBeam[i]->LongEmittance();
	76	Float_t sigxb = TMath::Sqrt(epsx/gamma*avbeta);
	77	Float_t sigx = TMath::Sqrt(sigxbsigxb+(avdavdsigesige));
	78	Float_t ssigx = TMath::Sqrt(epsx/gamma/avbeta);
	79	Float_t sigy = sigx;
	80	Float_t ssigy = ssigx;
81
82	Float_t asd = fBeam[i]->N()fR[i]fR[i]*fE[i]/
83	(16.TMath::Pi()gammaepsxepsy*epse);
84
85	// impact parameter
86	Float_t d = sige*avd/sigx;
87	//
88	Float_t at = sigeTMath::Sqrt(1.-dd)/(gamma*ssigx);
89	Float_t bt = sigeTMath::Sqrt(1.-dd)/(gamma*ssigy);
90	Float_t ct = sigeTMath::Sqrt(1.-dd)TMath::Sqrt(4.sigy/fR[i]);
91	//
92	Double_t par[3];
93	par[0] = at;
94	par[1] = bt;
95	par[2] = ct;
96	TF1 *fct = new TF1("func",func, 0., 1., 3);
97
98	Float_t f = (Float_t) 8.0TMath::Pi()
99	fct->Integral(0., 1., par, 1.e-5);
100	//
101	fTaux = 1./(asdf(dd-atat/2.));
102	fTaue = 1./(asdf(1.-d*d));
103	// printf("\n taux, taue %f %f", taux, taue);
104	// Float_t tauy = -2./at*at/asd/f;
105	fBeam[i]->IncreaseEmittance(dt/fTaux, dt/fTaue);
106	}
107
108	}
109
110	void AliLhcProcessIBS::SetMonitor(Int_t n)
111	{
112	// Initialize Monitor
113	if (fTauxArray) delete fTauxArray;
114	if (fTaueArray) delete fTaueArray;
115	fTauxArray = new Float_t[n];
116	fTaueArray = new Float_t[n];
117	fNmax = n;
118	}
119
120	void AliLhcProcessIBS::Record()
121	{
122	// Record monitor quantities
123	fTauxArray[fAccelerator->Nt()] = fTaux/3600.;
124	fTaueArray[fAccelerator->Nt()] = fTaue/3600.;
125	}
126
127
128	void AliLhcProcessIBS::DrawPlots()
129	{
130	// Draw monitor plots
131	Float_t* t = fAccelerator->TimeA();
132
133	TH1 *t1 = new TH1F("t1","Hor. IBS growth time",fNmax,0,t[fNmax]);
134	t1->SetMinimum(0);
135	t1->SetMaximum(fTauxArray[fNmax]*1.1);
136	t1->SetStats(0);
137	t1->GetXaxis()->SetTitle("t (h)");
138	t1->GetYaxis()->SetTitle("tau_x (t)");
139
140	TH1 *t2 = new TH1F("t2","Long. IBS growth time",fNmax,0,t[fNmax]);
141	t2->SetMinimum(0);
142	t2->SetMaximum(fTaueArray[fNmax]*1.1);
143	t2->SetStats(0);
144	t2->GetXaxis()->SetTitle("t (h)");
145	t2->GetYaxis()->SetTitle("tau_l (t)");
146
147	TGraph* grTaux = new TGraph(fNmax, fAccelerator->TimeA(), fTauxArray);
148	grTaux->SetHistogram(t1);
149
150	TGraph* grTaue = new TGraph(fNmax, fAccelerator->TimeA(), fTaueArray);
151	grTaue->SetHistogram(t2);
152	grTaue->SetLineStyle(2);
153
154	TMultiGraph* mg = new TMultiGraph();
155	mg->Add(grTaux);
156	mg->Add(grTaue);
157
158	TCanvas *c3 = new TCanvas("c3","IBS", 200, 10, 700, 500);
159	c3->SetGrid();
160	mg->Draw("AC");
161	mg->GetXaxis()->SetTitle("t (h)");
162	mg->GetYaxis()->SetTitle("IBS Growth Time (h)");
163	mg->Draw("AC");
164	}
165
166
167
168
169
e76f229f	170	AliLhcProcessIBS& AliLhcProcessIBS::operator=(const AliLhcProcessIBS & /rhs/)
11141716	171	{
	172	// Assignment operator
	173	return *this;
	174	}
	175
	176	Double_t func(Double_t x, Double_t par)
	177	{
	178	Double_t a = par[0];
	179	Double_t b = par[1];
	180	Double_t cc = par[2];
	181
	182	const Double_t bc = 0.5772;
	183	Double_t xx = x[0];
	184	Double_t x2=xx*xx;
	185	Double_t x1=1.0-x2;
	186	Double_t p=1.0/TMath::Sqrt(x2+aax1);
	187	Double_t q=1.0/TMath::Sqrt(x2+bbx1);
	188	return (1.0-3.0x2)pq(2.0TMath::Log(0.5cc*(p+q))-bc);
	189	}
	190