ViewVC Help
View File | Revision Log | Show Annotations | Root Listing
root/cvsroot/UserCode/auterman/SusyScan/PlotScript/GlobalFunctions.h
Revision: 1.14
Committed: Fri May 20 07:39:34 2011 UTC (13 years, 11 months ago) by auterman
Content type: text/plain
Branch: MAIN
Changes since 1.13: +151 -3 lines
Log Message: 
post CWR comments

File Contents

# User Rev Content
1 auterman 1.1 #include "SusyScan.h"
2     #include "GeneratorMasses.h"
3 auterman 1.13 #include "ExclusionPlot.h"
4 auterman 1.1
5 auterman 1.5 #include "TGraph.h"
6 auterman 1.10 #include "TLatex.h"
7     #include "TF1.h"
8 auterman 1.13 #include "TH1F.h"
9 auterman 1.5 #include "TGraphErrors.h"
10     #include "TSpline.h"
11 auterman 1.10 #include "TStyle.h"
12     #include "TMath.h"
13 auterman 1.13 #include "TRint.h"
14     #include "TROOT.h"
15     #include "TPad.h"
16 auterman 1.5
17 auterman 1.1 #include <cmath>
18 auterman 1.8 #include <iostream>
19 auterman 1.1
20    
21 auterman 1.14 double Luminosity = 36.0; //[pb^-1]
22 auterman 1.1 double Mzero(const SusyScan* p){ return p->Mzero; }
23     double Mhalf(const SusyScan* p){ return p->Mhalf; }
24     double MGluino(const SusyScan* p){ return p->MGL; }
25     double MSquarkL(const SusyScan* p){ return p->MUL; }
26     double MSquarkR(const SusyScan* p){ return p->MUR; }
27     double MChi1(const SusyScan* p){ return p->MZ1; }
28     double MChi2(const SusyScan* p){ return p->MZ2; }
29     double MChi3(const SusyScan* p){ return p->MZ3; }
30     double MChi4(const SusyScan* p){ return p->MZ4; }
31     double MCha1(const SusyScan* p){ return p->MW1; }
32     double MCha2(const SusyScan* p){ return p->MW2; }
33 auterman 1.13 double MTAU1(const SusyScan* p){ return p->MTAU1; }
34 auterman 1.11 double SignalUncertKfactor(const SusyScan* p){return fabs(p->signal_kfactor_UP-p->signal_kfactor_DN)/(2.0*p->signal_kfactor); }
35     double SignalUncertJEC(const SusyScan* p){ return (fabs(p->signal_JEC_UP)+fabs(p->signal_JEC_DN))/(2.0*p->signal); }
36     double SignalUncertMuIso(const SusyScan* p){ return (fabs(p->signal_MuIso_UP)+fabs(p->signal_MuIso_DN))/(2.0*p->signal); }
37 auterman 1.12 double SignalKfactor(const SusyScan* p){return p->signal_kfactor; }
38 auterman 1.13 double ChargedLSP(const SusyScan* p){ return (fabs(p->MTAU1) < fabs(p->MZ1) ? 0.01 : 1); }
39 auterman 1.11
40 auterman 1.1 double Xsection(const SusyScan* p){ return p->Xsection; }
41     double ExpXsecLimit(const SusyScan* p){ return p->ExpXsecLimit; }
42     double ObsXsecLimit(const SusyScan* p){ return p->ObsXsecLimit; }
43 auterman 1.5 double Signal(const SusyScan* p){ return p->signal; }
44     double SignalUncertainty(const SusyScan* p){ return p->signal_uncertainty; }
45     double SignalRelUncertainty(const SusyScan* p){ return p->signal_uncertainty/p->signal; }
46 auterman 1.4 double ExpExclusion(const SusyScan* p){ return (ExpXsecLimit(p)<Xsection(p)&&ExpXsecLimit(p)>0.01?1:0.01); }
47     double ObsExclusion(const SusyScan* p){ return (ObsXsecLimit(p)<Xsection(p)&&ObsXsecLimit(p)>0.01?1:0.01); }
48 auterman 1.14 double ExpNoSigExclCL(const SusyScan* p){ return (p->CLs_bNoSig_xsec<=0.05 ? 1:0.01); }
49 auterman 1.6 double ExpExclCL(const SusyScan* p){ return (p->CLs_b_xsec<=0.05 ? 1:0.01); }
50 auterman 1.7 double ExpExclCLm2sigma(const SusyScan* p){ return (p->CLs_b_n2_xsec<=0.05 ? 1:0.01); }
51     double ExpExclCLm1sigma(const SusyScan* p){ return (p->CLs_b_n1_xsec<=0.05 ? 1:0.01); }
52     double ExpExclCLp1sigma(const SusyScan* p){ return (p->CLs_b_p1_xsec<=0.05 ? 1:0.01); }
53     double ExpExclCLp2sigma(const SusyScan* p){ return (p->CLs_b_p2_xsec<=0.05 ? 1:0.01); }
54 auterman 1.6 double ObsExclCL(const SusyScan* p){ return (p->CLs_xsec<=0.05 ? 1:0.01); }
55 auterman 1.1 double SoverSqrtB(const SusyScan* p){ return p->signal/(sqrt(p->background)+p->background_uncertainty+p->signal_uncertainty); }
56     double XsecOverObserved(const SusyScan* p){ return (ObsXsecLimit(p)==0 ? 9999. : Xsection(p)/ObsXsecLimit(p)); }
57 auterman 1.3 double XsecOverExpected(const SusyScan* p){ return (ExpXsecLimit(p)==0 ? 9999. : Xsection(p)/ExpXsecLimit(p)); }
58 auterman 1.1 double SignalAcceptance(const SusyScan* p){ return p->signal / (Luminosity*Xsection(p)); }
59 auterman 1.5 double ExpNSignLimit(const SusyScan* p){ return p->ExpNsigLimit; }
60     double ObsNSignLimit(const SusyScan* p){ return p->ObsNsigLimit; }
61 auterman 1.3 double PLExpNSignLimit(const SusyScan* p){ return p->PLExpNsigLimit; }
62 auterman 1.5 double PLObsNSignLimit(const SusyScan* p){ return p->PLObsNsigLimit; }
63 auterman 1.3 double PLExpXsecLimit(const SusyScan* p){ return p->PLExpXsecLimit; }
64     double PLObsXsecLimit(const SusyScan* p){ return p->PLObsXsecLimit; }
65 auterman 1.4 double PLExpExclusion(const SusyScan* p){ return (PLExpXsecLimit(p)<Xsection(p)&&PLExpXsecLimit(p)>0.01?1:0.01); }
66     double PLObsExclusion(const SusyScan* p){ return (PLObsXsecLimit(p)<Xsection(p)&&PLObsXsecLimit(p)>0.01?1:0.01); }
67 auterman 1.5 double FCExpNSignLimit(const SusyScan* p){ return p->FCExpNsigLimit; }
68     double FCObsNSignLimit(const SusyScan* p){ return p->FCObsNsigLimit; }
69     double FCExpXsecLimit(const SusyScan* p){ return p->FCExpXsecLimit; }
70     double FCObsXsecLimit(const SusyScan* p){ return p->FCObsXsecLimit; }
71     double FCExpExclusion(const SusyScan* p){ return (FCExpXsecLimit(p)<Xsection(p)&&FCExpXsecLimit(p)>0.01?1:0.01); }
72     double FCObsExclusion(const SusyScan* p){ return (FCObsXsecLimit(p)<Xsection(p)&&FCObsXsecLimit(p)>0.01?1:0.01); }
73     double MCMCExpNSignLimit(const SusyScan* p){ return p->MCMCExpNsigLimit; }
74     double MCMCObsNSignLimit(const SusyScan* p){ return p->MCMCObsNsigLimit; }
75     double MCMCExpXsecLimit(const SusyScan* p){ return p->MCMCExpXsecLimit; }
76     double MCMCObsXsecLimit(const SusyScan* p){ return p->MCMCObsXsecLimit; }
77     double MCMCExpExclusion(const SusyScan* p){ return (MCMCExpXsecLimit(p)<Xsection(p)&&MCMCExpXsecLimit(p)>0.01?1:0.01); }
78     double MCMCObsExclusion(const SusyScan* p){ return (MCMCObsXsecLimit(p)<Xsection(p)&&MCMCObsXsecLimit(p)>0.01?1:0.01); }
79 auterman 1.8 double SignalContamination(const SusyScan* p){return p->signal_contamination; }
80 auterman 1.1
81 auterman 1.11 double NLOXsection(const SusyScan* p){ return p->Xsection * p->signal_kfactor; }
82     double NLOExpXsecLimit(const SusyScan* p){ return p->NLO_ExpXsecLimit; }
83     double NLOObsXsecLimit(const SusyScan* p){ return p->NLO_ObsXsecLimit; }
84     double NLOSignal(const SusyScan* p){ return p->NLO_signal; }
85     double NLOSignalUncertainty(const SusyScan* p){ return p->NLO_signal_uncertainty; }
86     double NLOSignalRelUncertainty(const SusyScan* p){ return p->NLO_signal_uncertainty/p->NLO_signal; }
87     double NLOExpExclusion(const SusyScan* p){ return (NLOExpXsecLimit(p)<NLOXsection(p)&&NLOExpXsecLimit(p)>0.01?1:0.01); }
88     double NLOObsExclusion(const SusyScan* p){ return (NLOObsXsecLimit(p)<NLOXsection(p)&&NLOObsXsecLimit(p)>0.01?1:0.01); }
89 auterman 1.13 double NLOExpCL(const SusyScan* p){ return (p->NLO_CLs_b_xsec); }
90 auterman 1.14 double NLOExpNoSigExclCL(const SusyScan* p){ return (p->NLO_CLs_bNoSig_xsec<=0.05 ? 1:0.01); }
91 auterman 1.11 double NLOExpExclCL(const SusyScan* p){ return (p->NLO_CLs_b_xsec<=0.05 ? 1:0.01); }
92     double NLOExpExclCLm2sigma(const SusyScan* p){ return (p->NLO_CLs_b_n2_xsec<=0.05 ? 1:0.01); }
93     double NLOExpExclCLm1sigma(const SusyScan* p){ return (p->NLO_CLs_b_n1_xsec<=0.05 ? 1:0.01); }
94     double NLOExpExclCLp1sigma(const SusyScan* p){ return (p->NLO_CLs_b_p1_xsec<=0.05 ? 1:0.01); }
95     double NLOExpExclCLp2sigma(const SusyScan* p){ return (p->NLO_CLs_b_p2_xsec<=0.05 ? 1:0.01); }
96     double NLOObsExclCL(const SusyScan* p){ return (p->NLO_CLs_xsec<=0.05 ? 1:0.01); }
97 auterman 1.13
98 auterman 1.14 double NLOHybridObsCL(const SusyScan* p){ return p->NLOHybrid_CLs_xsec; }
99     double NLOHybridObsExclCL(const SusyScan* p){ return (p->NLOHybrid_CLs_xsec<=0.05 ? 1:0.01); }
100     double NLOHybridObsErrorCL(const SusyScan* p){ return (p->NLOHybrid_CLs_xsec_error<=0.05 ? 1:0.01); }
101    
102 auterman 1.11 double NLOSoverSqrtB(const SusyScan* p){ return p->NLO_signal/(sqrt(p->background)+p->background_uncertainty+p->NLO_signal_uncertainty); }
103     double NLOXsecOverObserved(const SusyScan* p){ return (NLOObsXsecLimit(p)==0 ? 9999. : NLOXsection(p)/NLOObsXsecLimit(p)); }
104     double NLOXsecOverExpected(const SusyScan* p){ return (NLOExpXsecLimit(p)==0 ? 9999. : NLOXsection(p)/NLOExpXsecLimit(p)); }
105     double NLOSignalAcceptance(const SusyScan* p){ return p->NLO_signal / (Luminosity*NLOXsection(p)); }
106     double NLOExpNSignLimit(const SusyScan* p){ return p->NLO_ExpNsigLimit; }
107     double NLOObsNSignLimit(const SusyScan* p){ return p->NLO_ObsNsigLimit; }
108     double NLOPLExpNSignLimit(const SusyScan* p){ return p->NLO_PLExpNsigLimit; }
109     double NLOPLObsNSignLimit(const SusyScan* p){ return p->NLO_PLObsNsigLimit; }
110     double NLOPLExpXsecLimit(const SusyScan* p){ return p->NLO_PLExpXsecLimit; }
111     double NLOPLObsXsecLimit(const SusyScan* p){ return p->NLO_PLObsXsecLimit; }
112     double NLOPLExpExclusion(const SusyScan* p){ return (NLOPLExpXsecLimit(p)<NLOXsection(p)&&NLOPLExpXsecLimit(p)>0.01?1:0.01); }
113     double NLOPLObsExclusion(const SusyScan* p){ return (NLOPLObsXsecLimit(p)<NLOXsection(p)&&NLOPLObsXsecLimit(p)>0.01?1:0.01); }
114     double NLOFCExpNSignLimit(const SusyScan* p){ return p->NLO_FCExpNsigLimit; }
115     double NLOFCObsNSignLimit(const SusyScan* p){ return p->NLO_FCObsNsigLimit; }
116     double NLOFCExpXsecLimit(const SusyScan* p){ return p->NLO_FCExpXsecLimit; }
117     double NLOFCObsXsecLimit(const SusyScan* p){ return p->NLO_FCObsXsecLimit; }
118     double NLOFCExpExclusion(const SusyScan* p){ return (NLOFCExpXsecLimit(p)<NLOXsection(p)&&NLOFCExpXsecLimit(p)>0.01?1:0.01); }
119     double NLOFCObsExclusion(const SusyScan* p){ return (NLOFCObsXsecLimit(p)<NLOXsection(p)&&NLOFCObsXsecLimit(p)>0.01?1:0.01); }
120     double NLOMCMCExpNSignLimit(const SusyScan* p){ return p->NLO_MCMCExpNsigLimit; }
121     double NLOMCMCObsNSignLimit(const SusyScan* p){ return p->NLO_MCMCObsNsigLimit; }
122     double NLOMCMCExpXsecLimit(const SusyScan* p){ return p->NLO_MCMCExpXsecLimit; }
123     double NLOMCMCObsXsecLimit(const SusyScan* p){ return p->NLO_MCMCObsXsecLimit; }
124     double NLOMCMCExpExclusion(const SusyScan* p){ return (NLOMCMCExpXsecLimit(p)<NLOXsection(p)&&NLOMCMCExpXsecLimit(p)>0.01?1:0.01); }
125     double NLOMCMCObsExclusion(const SusyScan* p){ return (NLOMCMCObsXsecLimit(p)<NLOXsection(p)&&NLOMCMCObsXsecLimit(p)>0.01?1:0.01); }
126     double NLOSignalContamination(const SusyScan* p){return p->NLO_signal_contamination; }
127    
128 auterman 1.1 double Mzero(const GeneratorMasses* p){ return p->Mzero; }
129     double Mhalf(const GeneratorMasses* p){ return p->Mhalf; }
130     double MGluino(const GeneratorMasses* p){ return p->MGL; }
131     double MSquarkL(const GeneratorMasses* p){ return p->MUL; }
132     double MSquarkR(const GeneratorMasses* p){ return p->MUR; }
133     double MChi1(const GeneratorMasses* p){ return p->MZ1; }
134     double MChi2(const GeneratorMasses* p){ return p->MZ2; }
135     double MChi3(const GeneratorMasses* p){ return p->MZ3; }
136     double MChi4(const GeneratorMasses* p){ return p->MZ4; }
137     double MCha1(const GeneratorMasses* p){ return p->MW1; }
138     double MCha2(const GeneratorMasses* p){ return p->MW2; }
139 auterman 1.5
140 auterman 1.13
141    
142     void setPlottingStyle(TH1F& hsig){
143    
144     hsig.SetStats(kFALSE);
145    
146     hsig.SetAxisRange(80,500,"Y");
147     hsig.SetAxisRange(0,520,"X");
148     hsig.SetAxisRange(200,520,"X");
149    
150     hsig.GetXaxis()->SetTitle("m_{0} (GeV)");
151     hsig.GetYaxis()->SetTitle("m_{1/2} (GeV)");
152     hsig.GetYaxis()->SetTitleOffset(0.8);
153     hsig.GetYaxis()->SetTitleSize(0.06);
154     hsig.GetYaxis()->SetLabelSize(0.06);
155     hsig.GetXaxis()->SetTitleOffset(0.9);
156     hsig.GetXaxis()->SetTitleSize(0.06);
157     hsig.GetXaxis()->SetLabelSize(0.06);
158    
159     hsig.SetLineWidth(1);
160     hsig.SetLineColor(kBlue);
161    
162     }
163    
164    
165    
166    
167 auterman 1.10 TGraph* set_sneutrino_d0_1(Int_t tanBeta){
168     double sn_m0[14]= {0, 0, 48, 55, 80, 90,100,105,109,105,100, 72, 55,0};
169     double sn_m12[14]={0,140,210,220,237,241,242,241,230,220,210,170,150,0};
170 auterman 1.5
171 auterman 1.10 TGraph* sn_d0_gr = new TGraph(14,sn_m0,sn_m12);
172 auterman 1.5
173     sn_d0_gr->SetFillColor(kGreen+3);
174 auterman 1.13 sn_d0_gr->SetFillStyle(3001);
175 auterman 1.5
176     return sn_d0_gr;
177     }
178    
179 auterman 1.10 TGraph* set_sneutrino_d0_2(Int_t tanBeta){
180     double sn_m0[9]= {0, 45, 75,115,130,150,163,185,0};
181     double sn_m12[9]={0,140,170,213,202,183,168,140,0};
182 auterman 1.5
183 auterman 1.10 TGraph* sn_d0_gr_2 = new TGraph(9,sn_m0,sn_m12);
184 auterman 1.5
185     sn_d0_gr_2->SetFillColor(kGreen+3);
186 auterman 1.13 sn_d0_gr_2->SetFillStyle(3001);
187 auterman 1.5
188 auterman 1.10 return sn_d0_gr_2;
189     }
190    
191 auterman 1.13 TGraph* set_lep_ch(Int_t tanBeta){
192     if(tanBeta == 3) return set_lep_ch_tanBeta3();
193     if(tanBeta == 10) return set_lep_ch_tanBeta10();
194     if(tanBeta == 50) return set_lep_ch_tanBeta50();
195     }
196 auterman 1.10
197     TGraph* set_lep_ch_tanBeta10(){
198    
199 auterman 1.12 double ch_m0[12];
200     double ch_m12[12];
201 auterman 1.10
202     ch_m0[0] = 0;
203     ch_m0[1] = 100;
204     ch_m0[2] = 200;
205     ch_m0[3] = 300;
206     ch_m0[4] = 400;
207     ch_m0[5] = 500;
208     ch_m0[6] = 600;
209     ch_m0[7] = 700;
210     ch_m0[8] = 800;
211 auterman 1.12 ch_m0[9] = 1000;
212     ch_m0[10] = 1000;
213     ch_m0[11] = 0;
214 auterman 1.10
215     ch_m12[0] = 163;
216     ch_m12[1] = 162;
217     ch_m12[2] = 161;
218     ch_m12[3] = 160;
219     ch_m12[4] = 159;
220     ch_m12[5] = 158;
221     ch_m12[6] = 157;
222     ch_m12[7] = 156;
223     ch_m12[8] = 155.4;
224 auterman 1.13 ch_m12[9] = 155.05;
225 auterman 1.10 ch_m12[10] = 0;
226 auterman 1.12 ch_m12[11] = 0;
227 auterman 1.10
228    
229 auterman 1.12 TGraph* ch_gr = new TGraph(12,ch_m0,ch_m12);
230 auterman 1.10
231     ch_gr->SetFillColor(3);
232     ch_gr->SetLineColor(3);
233     // ch_gr->SetLineWidth(3);
234 auterman 1.13 ch_gr->SetFillStyle(3001);
235 auterman 1.10
236     return ch_gr;
237 auterman 1.5
238     }
239    
240    
241    
242 auterman 1.10 TGraph* set_lep_ch_tanBeta3(){
243    
244     double ch_m0[17];
245     double ch_m12[17];
246    
247     ch_m0[0] = 0;
248     ch_m0[1] = 100;
249     ch_m0[2] = 150;
250     ch_m0[3] = 200;
251     ch_m0[4] = 250;
252     ch_m0[5] = 300;
253     ch_m0[6] = 350;
254     ch_m0[7] = 400;
255     ch_m0[8] = 450;
256     ch_m0[9] = 500;
257     ch_m0[10] = 550;
258     ch_m0[11] = 600;
259     ch_m0[12] = 650;
260     ch_m0[13] = 700;
261     ch_m0[14] = 750;
262     ch_m0[15] = 750;
263     ch_m0[16] = 0;
264    
265     ch_m12[0] = 170;
266     ch_m12[1] = 168;
267     ch_m12[2] = 167;
268     ch_m12[3] = 165;
269     ch_m12[4] = 163;
270     ch_m12[5] = 161;
271     ch_m12[6] = 158;
272     ch_m12[7] = 156;
273     ch_m12[8] = 154;
274     ch_m12[9] = 152;
275     ch_m12[10] = 150;
276     ch_m12[11] = 148;
277     ch_m12[12] = 147;
278     ch_m12[13] = 145;
279     ch_m12[14] = 144;
280     ch_m12[15] = 0;
281     ch_m12[16] = 0;
282    
283     TGraph* ch_gr = new TGraph(17,ch_m0,ch_m12);
284    
285     ch_gr->SetFillColor(3);
286     ch_gr->SetLineColor(3);
287     // ch_gr->SetLineWidth(3);
288 auterman 1.13 ch_gr->SetFillStyle(3001);
289 auterman 1.10
290     return ch_gr;
291    
292     }
293    
294 auterman 1.5
295 auterman 1.10 TGraph* set_lep_ch_tanBeta50(){
296 auterman 1.5
297 auterman 1.10 double ch_m0[21];
298     double ch_m12[21];
299    
300     ch_m0[0] = 200;
301     ch_m0[1] = 250;
302     ch_m0[2] = 300;
303     ch_m0[3] = 350;
304     ch_m0[4] = 400;
305     ch_m0[5] = 450;
306     ch_m0[6] = 500;
307     ch_m0[7] = 550;
308     ch_m0[8] = 600;
309     ch_m0[9] = 650;
310     ch_m0[10] = 700;
311     ch_m0[11] = 750;
312     ch_m0[12] = 800;
313     ch_m0[13] =850;
314     ch_m0[14] = 900;
315     ch_m0[15] = 950;
316     ch_m0[16] = 1000;
317     ch_m0[17] = 1050;
318     ch_m0[18] = 1100;
319     ch_m0[19] = 1100;
320     ch_m0[20] = 200;
321 auterman 1.5
322 auterman 1.10 ch_m12[0] = 157;
323     ch_m12[1] = 156;
324     ch_m12[2] = 156;
325     ch_m12[3] = 155;
326     ch_m12[4] = 155;
327     ch_m12[5] = 154;
328     ch_m12[6] = 154;
329     ch_m12[7] = 153;
330     ch_m12[8] = 153;
331     ch_m12[9] = 152;
332     ch_m12[10] = 152;
333     ch_m12[11] = 152;
334     ch_m12[12] = 152;
335     ch_m12[13] = 152;
336     ch_m12[14] = 152;
337     ch_m12[15] = 153;
338     ch_m12[16] = 153;
339     ch_m12[17] = 153;
340     ch_m12[18] = 154;
341     ch_m12[19] = 0;
342     ch_m12[20] = 0;
343    
344 auterman 1.5
345 auterman 1.10 TGraph* ch_gr = new TGraph(21,ch_m0,ch_m12);
346 auterman 1.5
347     ch_gr->SetFillColor(3);
348 auterman 1.10 ch_gr->SetLineColor(3);
349 auterman 1.13 ch_gr->SetFillStyle(3001);
350 auterman 1.5
351     return ch_gr;
352    
353     }
354    
355    
356    
357    
358 auterman 1.10 TGraph* set_lep_sl(Int_t tanBeta){
359    
360     // CMS SUSY Summer2010 implementation
361     // double sl_m0[] = {0, 0, 30, 50, 60, 75, 80,90,100};
362     // double sl_m12[] = {0,245,240,220,200,150,100,50,0};
363    
364     //contour from D0 trilepton paper (PLB 680 (2009) 34-43)
365 auterman 1.13 TGraph* lep_sl = 0;
366 auterman 1.10 if (tanBeta==3){
367 auterman 1.13 double sl_m0[] ={0, 0, 10, 20, 30, 40, 50, 60, 70, 77,88,95};
368     double sl_m12[]={0,245,242,239,232,222,209,189,165,140,60,0};
369     int n = 12;
370     lep_sl = new TGraph(n,sl_m0,sl_m12);
371 auterman 1.10 }
372     //CMS PTDR-II
373     //* Selectron_R line mass=99, ISASUGRA7.69, A0=0, m_top=175, tan(beta]=10
374     if (tanBeta==10 || tanBeta==50){
375 auterman 1.13 double sl_m0[]={ 0, 0, 11, 20, 24, 49, 70, 82,88,90};
376     double sl_m12[]={0,240,237,233,230,200,150,100,50,0};
377     int n = 10;
378     lep_sl = new TGraph(n,sl_m0,sl_m12);
379 auterman 1.10 }
380 auterman 1.5
381    
382     lep_sl->SetFillColor(5);
383 auterman 1.10 lep_sl->SetLineColor(5);
384 auterman 1.13 lep_sl->SetFillStyle(3001);
385 auterman 1.5
386     return lep_sl;
387     }
388    
389    
390 auterman 1.10 TGraph* set_tev_sg_cdf(Int_t tanBeta){
391    
392     // double sg_m0[] = {0, 0, 20, 50,100,150,200,250,300,350,400,450,500,550,600,600};
393     // double sg_m12[] = {0,160,169,170,160,155,150,122,116,112,110,106,105,100, 98, 0};
394     // int np=16;
395     //New CHF from CDF plot in ICHEP2010 talk (E. Halkiadakis)
396     double sg_m0[]= {0, 0, 30, 75,150,185,225,310,360,400,430,500,600,600};
397     double sg_m12[]={0,162,168,170,160,150,130,120,109,108,100, 96, 95, 0};
398     int np=14;
399    
400     TGraph* sg_gr = new TGraph(np,sg_m0,sg_m12);
401    
402     // gStyle->SetHatchesLineWidth(3);
403 auterman 1.5
404     sg_gr->SetFillColor(2);
405 auterman 1.10 sg_gr->SetLineColor(2);
406     // sg_gr->SetLineWidth(3);
407 auterman 1.13 sg_gr->SetFillStyle(3001);
408 auterman 1.5
409     return sg_gr;
410    
411     }
412    
413 auterman 1.10 TGraph* set_tev_sg_d0(Int_t tanBeta){
414 auterman 1.5
415 auterman 1.13 //official D0 contour from P. Verdier
416     double sgd_m0[]= {0, 0., 25., 80.,100.,150.,192.,250.,300. ,350.,400.,450. ,500.,600.,600.,0.};
417     double sgd_m12[]={0,167.,167.,163.,162.,157.,149.,136.,125.5,116.,109.,106.5,105.,105., 0.,0.};
418     int npd=16;
419 auterman 1.10
420     TGraph* sgd_gr = new TGraph(npd,sgd_m0,sgd_m12);
421    
422     gStyle->SetHatchesLineWidth(3);
423    
424 auterman 1.13 sgd_gr->SetFillColor(kMagenta+1);
425     sgd_gr->SetLineColor(kMagenta+1);
426 auterman 1.10 sgd_gr->SetLineWidth(3);
427     sgd_gr->SetFillStyle(3335);
428 auterman 1.13 //sgd_gr->SetFillStyle(3001);
429 auterman 1.5
430     return sgd_gr;
431    
432     }
433    
434 auterman 1.10 // TGraph* set_tev_tlp_cdf(Int_t tanBeta){
435     // double tlp1_m0[] = { 0, 20, 40, 60, 70, 80, 90, 80, 70, 60};
436     // double tlp1_m12[] = {170,185,200,215,220,215,210,190,175,160};
437     // TGraph* tlp1_gr = new TGraph(10,tlp1_m0,tlp1_m12);
438    
439     // tlp1_gr->SetFillColor(4);
440     // tlp1_gr->SetLineColor(4);
441     // tlp1_gr->SetFillStyle(1001);
442    
443     // return tlp1_gr;
444     // }
445    
446     // TGraph* set_tev_tlp_d0(Int_t tanBeta){
447     // double tlp2_m0[] = { 70, 80, 90,100,105,110,120,130,140};
448     // double tlp2_m12[] = {160,172,184,196,205,195,185,173,160};
449     // TGraph* tlp2_gr = new TGraph(9,tlp2_m0,tlp2_m12);
450    
451     // tlp2_gr->SetFillColor(4);
452     // tlp2_gr->SetFillStyle(1001);
453    
454     // return tlp2_gr;
455    
456     // }
457    
458    
459    
460    
461    
462     TGraph* set_tev_stau(Int_t tanBeta){
463    
464     double st_m0_tanBeta3[] = {0,10,20,30,40,50,60,70,80,90,100,0};
465     double st_m12_tanBeta3[] = {337,341,356,378,406,439,473,510,548,587,626,626};
466    
467     double st_m0_tanBeta10[] = {0,10,20,30,40,50,60,70,80,90,100,0};
468     double st_m12_tanBeta10[] = {213,220,240,275,312,351,393,435,476,518,559,559};
469    
470     double st_m0_tanBeta50[] = {200,210,220,230,240,250,260,270,280,290,310,325,200,200};
471     double st_m12_tanBeta50[] = {206,226,246,267,288,310,332,354,376,399,450,500,500,206};
472    
473    
474     TGraph* st_gr_tanBeta3 = new TGraph(12,st_m0_tanBeta3,st_m12_tanBeta3);
475     TGraph* st_gr_tanBeta10 = new TGraph(12,st_m0_tanBeta10,st_m12_tanBeta10);
476     TGraph* st_gr_tanBeta50 = new TGraph(14,st_m0_tanBeta50,st_m12_tanBeta50);
477    
478     st_gr_tanBeta3->SetFillColor(40);
479     st_gr_tanBeta3->SetFillStyle(1001);
480    
481     st_gr_tanBeta50->SetFillColor(40);
482     st_gr_tanBeta50->SetFillStyle(1001);
483    
484     st_gr_tanBeta10->SetFillColor(40);
485     st_gr_tanBeta10->SetFillStyle(1001);
486    
487    
488     if(tanBeta == 3)return st_gr_tanBeta3;
489     if(tanBeta == 10)return st_gr_tanBeta10;
490     if(tanBeta == 50)return st_gr_tanBeta50;
491    
492     }
493    
494    
495    
496    
497     TF1* constant_squark(int tanBeta,int i){
498     //---lines of constant gluino/squark
499     double coef1 = 0.35;
500     double coef2[] = {5,5,4.6,4.1};
501    
502     char hname[200];
503    
504     sprintf(hname,"lnsq_%i",i);
505 auterman 1.5
506 auterman 1.10
507     TF1* lnsq = new TF1(hname,"sqrt([0]-x*x*[1]-[2])",0,1000);
508     lnsq->SetParameter(0,(500+150*(i-1))*(500+150*(i-1))/coef2[i]);
509     lnsq->SetParameter(1,1./coef2[i]);
510     lnsq->SetParameter(2,-coef1*91*91*(2*TMath::Cos(TMath::ATan(tanBeta)))/coef2[i]);//--tanbeta=10 --> cos2beta = -99/101
511     lnsq->SetLineWidth(1);
512    
513    
514     lnsq->SetLineColor(kGray);
515 auterman 1.5
516 auterman 1.10 return lnsq;
517 auterman 1.5 }
518    
519    
520 auterman 1.10 TF1* constant_gluino(int tanBeta,int i){
521     //---lines of constant gluino/squark
522     double coef1 = 0.35;
523     double coef2[] = {5,5,4.6,4.1};
524 auterman 1.5
525 auterman 1.10 char hname[200];
526 auterman 1.5
527 auterman 1.10 sprintf(hname,"lngl_%i",i);
528    
529     TF1* lngl = new TF1(hname,"[0]+x*[1]",0,1000);
530     lngl->SetParameter(0,(500+150.*(i-1))/2.4);
531     lngl->SetParameter(1,-40./1400);
532     lngl->SetLineWidth(1);
533     lngl->SetLineColor(kGray);
534    
535     return lngl;
536 auterman 1.5 }
537    
538    
539 auterman 1.10 TLatex* constant_squark_text(Int_t it,TF1& lnsq,Int_t tanBeta_){
540     char legnm[200];
541    
542     sprintf(legnm,"#font[92]{#tilde{q}(%i)GeV}",500+150*(it-1));
543     Double_t place_x = 170;
544     if(tanBeta_ == 50)place_x = 290;
545     TLatex* t3 = new TLatex(place_x+10*(it-1),lnsq.Eval(place_x+10*(it-1))+5,legnm);
546 auterman 1.13 t3->SetTextSize(0.02);
547 auterman 1.10 t3->SetTextAngle(-8);
548     t3->SetTextColor(kGray+2);
549    
550    
551    
552     return t3;
553     }
554 auterman 1.5
555 auterman 1.10 TLatex* constant_gluino_text(Int_t it,TF1& lngl){
556     char legnm[200];
557 auterman 1.5
558 auterman 1.10 sprintf(legnm,"#font[12]{#tilde{g}}#font[92]{(%i)GeV}",500+150*(it-1));
559     TLatex* t4 = new TLatex(423,18+lngl.Eval(480),legnm);
560 auterman 1.13 t4->SetTextSize(0.02);
561 auterman 1.10 t4->SetTextAlign(13);
562     t4->SetTextColor(kGray+2);
563 auterman 1.5
564 auterman 1.10 return t4;
565 auterman 1.5 }
566    
567    
568    
569 auterman 1.13 TLegend* makeStauLegend(Double_t txtsz,Int_t tanBeta_){
570     Double_t ypos_1 = 0.86;
571     Double_t ypos_2 = 0.88;
572     Double_t xpos_1 = 0.16;
573     Double_t xpos_2 = 0.17;
574     if(tanBeta_ == 50){
575     xpos_1 = 0.17;
576     xpos_2 = 0.18;
577     ypos_1 = 0.76;
578     ypos_2 = 0.78;
579    
580     }
581     TLegend* legst = new TLegend(xpos_1,ypos_1,xpos_2,ypos_2);
582     legst->SetHeader("#tilde{#tau} = LSP");
583     legst->SetFillStyle(0);
584     legst->SetBorderSize(0);
585     legst->SetTextSize(0.03);
586    
587     return legst;
588     }
589 auterman 1.5
590    
591 auterman 1.13 TLegend* makeExpLegend(TGraph& sg_gr, TGraph& sgd_gr,TGraph& ch_gr,TGraph& sl_gr,TGraph& tev_sn,Double_t txtsz,Int_t tanbeta){
592     TLegend* legexp = new TLegend(0.64,0.65,0.99,0.9,NULL,"brNDC");
593     legexp->SetFillColor(0);
594     legexp->SetShadowColor(0);
595     legexp->SetTextSize(txtsz);
596     legexp->SetBorderSize(0);
597    
598     sg_gr.SetLineColor(1);
599     legexp->AddEntry(&sg_gr,"CDF #tilde{#font[12]{g}}, #tilde{#font[12]{q}}, #scale[0.8]{tan#beta=5, #mu<0}","f");
600     // sgd_gr.SetLineColor(1);
601     // sgd_gr.SetLineWidth(1);
602    
603     legexp->AddEntry(&sgd_gr,"D0 #tilde{#font[12]{g}}, #tilde{#font[12]{q}}, #scale[0.8]{tan#beta=3, #mu<0}","f");
604     ch_gr.SetLineColor(1);
605     legexp->AddEntry(&ch_gr,"LEP2 #tilde{#chi}_{1}^{#pm}","f");
606    
607     sl_gr.SetLineColor(1);
608     if(tanbeta != 50) legexp->AddEntry(&sl_gr,"LEP2 #tilde{#font[12]{l}}^{#pm}","f");
609     if(tanbeta == 3) legexp->AddEntry(&tev_sn,"D0 #chi^{#pm}_{1}, #chi^{0}_{2}","f");
610 auterman 1.9
611 auterman 1.5
612 auterman 1.13 return legexp;
613 auterman 1.9
614 auterman 1.13 }
615 auterman 1.9
616    
617 auterman 1.13 TGraph* getGraph(TH2F* h1, double level){
618 auterman 1.9
619 auterman 1.13 h1->SetContour(1);
620     h1->SetContourLevel(0,level);
621     h1->Draw("CONT LIST");
622     gPad->Update();
623    
624     TObjArray* contours = (TObjArray*)gROOT->GetListOfSpecials()->FindObject("contours");
625    
626     std::cout << "contours: " << contours << std::endl;
627     // Draw contours
628     TList* graphList = (TList*)(contours->At(0));
629     std::cout << "number of graphs: " << graphList->GetSize() << std::endl;
630     TGraph* myGraph = 0;
631     for (int igraph = 0; igraph<graphList->GetSize();++igraph) {
632     myGraph = (TGraph*)graphList->At(igraph);
633    
634     std::cout << " - graph " << igraph << " has " << myGraph->GetN() << " points" << std::endl;
635     if (myGraph->GetN() > 50){
636     std::cout << "Drawing " << myGraph->GetN() <<" points" << std::endl;
637     // myGraph->Print("all");
638     // myGraph->SetLineColor(9);
639     // myGraph->SetLineColor(46);
640     //myGraph->SetLineWidth(3);
641     // myGraph->SetLineStyle(2);
642     // myGraph->SetMarkerStyle(20);
643     // myGraph->SetMarkerColor(9);
644    
645     // myGraph->Draw("C");
646     // cvsSys->Update();
647    
648     // TString graphName("graph"+name+"_");
649     // graphName += igraph;
650     // myGraph->SetName(graphName);
651     break;
652     }
653     }
654     return myGraph;
655 auterman 1.9 }
656    
657 auterman 1.13 TH2F* fillHoles(TH2F* h2){
658 auterman 1.9
659 auterman 1.13 int nx = h2->GetNbinsX();
660     int ny = h2->GetNbinsY();
661     std::cout << "Nbins: " << nx << " " << ny << std::endl;
662    
663     for (int i=1;i<nx+1;i++){
664     for (int j=ny;j>0;j--){
665     int pos = j;
666     int count =0;
667     if (h2->GetBinContent(i,j)==0 && h2->GetBinContent(i-1,j)==-1 && h2->GetBinContent(i+1,j)==-1) h2->SetBinContent(i,j,-1.);
668    
669     if (h2->GetBinContent(i,j)==1
670     && h2->GetBinContent(i-1,j)==-1
671     && h2->GetBinContent(i+1,j)==-1
672     && h2->GetBinContent(i,j+1)==-1
673     && h2->GetBinContent(i,j-1)==-1)
674     h2->SetBinContent(i,j,-1.);
675    
676     // if (h2->GetBinContent(i,j)<0){
677     if (h2->GetBinContent(i,j)<0 && h2->GetBinContent(i,j-1)<0){
678     // cout <<" bin content " << i <<" " << j<< " " << pos << " " << h2->GetBinContent(i,j) <<endl;
679     for (int k=pos;k>0;k--){
680     h2->SetBinContent(i,k,-1.);
681     }
682     break;
683     }
684    
685    
686     }
687     }
688     return h2;
689     }
690 auterman 1.9
691    
692    
693    
694    
695    
696    
697    
698    
699 auterman 1.5
700 auterman 1.9
701    
702 auterman 1.13 //old------------------------------------------------------------------------
703 auterman 1.5
704 auterman 1.13 TGraph* sq_LEP(){//sq-gl
705     double sq[] = {0,0,100,100};
706     double gl[] = {0,2000,2000,0};
707     TGraph* res = new TGraph(4,sq,gl);
708     res->SetFillColor(kBlue);
709     return res;
710     }
711     TGraph* gl_TEV(){//sq-gl
712     double sq[] = {0,2000,2000,0};
713     double gl[] = {0,0,190,190};
714     TGraph* res = new TGraph(4,sq,gl);
715     res->SetFillColor(kGreen+2);
716     return res;
717     }
718 auterman 1.5
719 auterman 1.13 TGraph* gl_CDF(){//sq-gl
720     double sq[] = {0,2000,2000,0};
721     double gl[] = {190,190,230,230};
722     TGraph* res = new TGraph(4,sq,gl);
723     res->SetFillColor(kOrange+5);
724     return res;
725     }
726 auterman 1.5
727 auterman 1.13 TGraph* gl_DEZ(){//sq-gl
728     double sq[] = {0,2000,2000,0};
729     double gl[] = {230,230,255,255};
730     TGraph* res = new TGraph(4,sq,gl);
731     res->SetFillColor(kYellow-5);
732     return res;
733     }
734 auterman 1.5
735 auterman 1.13 TGraph* gl_WHT(){//sq-gl
736     double sq[] = {101,2000,2000,101};
737     double gl[] = {256,256,400,400};
738     TGraph* res = new TGraph(4,sq,gl);
739     res->SetFillColor(kWhite);
740     return res;
741 auterman 1.5 }
742    
743    
744 auterman 1.13 ////////////////////////////////////////////
745     TGraph* gl_LEP(){//gl-sq
746     double sq[] = {0,0,100,100};
747     double gl[] = {0,2000,2000,0};
748     TGraph* res = new TGraph(4,gl,sq);
749     res->SetFillColor(kBlue);
750     return res;
751 auterman 1.9 }
752    
753 auterman 1.13 TGraph* sq_TEV(){//gl-sq
754     double sq[] = {0,2000,2000,330,250,300,200,150,100,0};
755     double gl[] = {0,0,190,190,260,300,500,560,500,500};
756 auterman 1.9
757 auterman 1.13 TGraph* res = new TGraph(10,gl,sq);
758     res->SetFillColor(kGreen+2);
759     return res;
760 auterman 1.9 }
761    
762 auterman 1.13 TGraph* sq_CDF(){//gl-sq
763     double sq[] = {0,2000,2000,480,460,420,410,380,390,290,0};
764     double gl[] = {0,0,280,280,300,310,330,340,440,320,320};
765     TGraph* res = new TGraph(11,gl,sq);
766     res->SetFillColor(kOrange+5);
767     return res;
768 auterman 1.5 }
769 auterman 1.13 TGraph* sq_DEZ(){//gl-sq
770     double sq[] = {0,2000,2000,460,430,400,390,290,0};
771     double gl[] = {0,0,305,305,320,350,440,320,320};
772     TGraph* res = new TGraph(9,gl,sq);
773     res->SetFillColor(kYellow-5);
774     return res;
775 auterman 1.9 }
776    
777 auterman 1.13 TGraph* glsq_NoSol(){//sq-gl
778     gStyle->SetHatchesSpacing(2.0);
779     gStyle->SetHatchesLineWidth(1);
780     double sq[] = {83,83,110,1297.6,0, 0};
781     double gl[] = { 0,63,120,1466, 1466,0};
782     TGraph* res = new TGraph(6,gl,sq);
783     res->SetLineColor(1);
784     res->SetLineWidth(2);
785     res->SetFillStyle(3354);
786     return res;
787 auterman 1.9 }
788    
789    
790 auterman 1.5
791    
792    
793 auterman 1.13 TGraph * Atlas_m0_m12_tb3_obs()
794     {
795     TGraph *graph = new TGraph(71);
796     graph->SetLineWidth(2);
797     graph->SetPoint(0,54,357.341);
798     graph->SetPoint(1,82,358.4171);
799     graph->SetPoint(2,110,359.8179);
800     graph->SetPoint(3,110.934,359.875);
801     graph->SetPoint(4,138,361.5302);
802     graph->SetPoint(5,166,362.5696);
803     graph->SetPoint(6,189.0676,359.875);
804     graph->SetPoint(7,194,359.1415);
805     graph->SetPoint(8,222,354.5211);
806     graph->SetPoint(9,248.1714,351.625);
807     graph->SetPoint(10,250,351.4583);
808     graph->SetPoint(11,278,349.4991);
809     graph->SetPoint(12,306,343.4051);
810     graph->SetPoint(13,306.1313,343.375);
811     graph->SetPoint(14,334,335.3855);
812     graph->SetPoint(15,334.7966,335.125);
813     graph->SetPoint(16,350.8793,326.875);
814     graph->SetPoint(17,362,319.7823);
815     graph->SetPoint(18,364.6568,318.625);
816     graph->SetPoint(19,383.5969,310.375);
817     graph->SetPoint(20,390,308.6978);
818     graph->SetPoint(21,415.0931,302.125);
819     graph->SetPoint(22,418,300.2992);
820     graph->SetPoint(23,423.9359,293.875);
821     graph->SetPoint(24,431.0348,285.625);
822     graph->SetPoint(25,441.6066,277.375);
823     graph->SetPoint(26,446,275.3629);
824     graph->SetPoint(27,468.0485,269.125);
825     graph->SetPoint(28,474,267.2393);
826     graph->SetPoint(29,486.3632,260.875);
827     graph->SetPoint(30,495.8534,252.625);
828     graph->SetPoint(31,502,244.7684);
829     graph->SetPoint(32,502.3699,244.375);
830     graph->SetPoint(33,508.424,236.125);
831     graph->SetPoint(34,514.4781,227.875);
832     graph->SetPoint(35,518.8059,219.625);
833     graph->SetPoint(36,521.5056,211.375);
834     graph->SetPoint(37,524.324,203.125);
835     graph->SetPoint(38,527.1424,194.875);
836     graph->SetPoint(39,530,193.5052);
837     graph->SetPoint(40,552.5782,186.625);
838     graph->SetPoint(41,558,185.8767);
839     graph->SetPoint(42,586,180.1476);
840     graph->SetPoint(43,592.2836,178.375);
841     graph->SetPoint(44,614,171.422);
842     graph->SetPoint(45,617.5927,170.125);
843     graph->SetPoint(46,627.5396,161.875);
844     graph->SetPoint(47,642,157.9876);
845     graph->SetPoint(48,658.2277,153.625);
846     graph->SetPoint(49,670,151.1225);
847     graph->SetPoint(50,698,146.9886);
848     graph->SetPoint(51,711.5425,145.375);
849     graph->SetPoint(52,726,143.6935);
850     graph->SetPoint(53,754,140.0648);
851     graph->SetPoint(54,782,137.4563);
852     graph->SetPoint(55,783.0426,137.125);
853     graph->SetPoint(56,796.0326,128.875);
854     graph->SetPoint(57,810,125.0328);
855     graph->SetPoint(58,826.0235,120.625);
856     graph->SetPoint(59,838,117.3305);
857     graph->SetPoint(60,866,116.7462);
858     graph->SetPoint(61,894,116.1044);
859     graph->SetPoint(62,922,114.6645);
860     graph->SetPoint(63,950,116.937);
861     graph->SetPoint(64,978,117.6956);
862     graph->SetPoint(65,1006,115.198);
863     graph->SetPoint(66,1034,113.1166);
864     graph->SetPoint(67,1038.967,112.375);
865     graph->SetPoint(68,1062,108.0997);
866     graph->SetPoint(69,1090,104.373);
867     graph->SetPoint(70,1096.429,104.125);
868     graph->SetFillColor(0);
869     return graph;
870     }
871     TGraph * Atlas_mGl_mSq_obs()
872     {
873     //x:gluino mass, y:squark mass
874     TGraph *graph = new TGraph(64);
875     graph->SetLineWidth(2);
876     graph->SetPoint(0,511.2569,1976.25);
877     graph->SetPoint(1,513.125,1936.181);
878     graph->SetPoint(2,513.4714,1928.75);
879     graph->SetPoint(3,515.6859,1881.25);
880     graph->SetPoint(4,517.9004,1833.75);
881     graph->SetPoint(5,520.1148,1786.25);
882     graph->SetPoint(6,522.3293,1738.75);
883     graph->SetPoint(7,524.5438,1691.25);
884     graph->SetPoint(8,526.1095,1643.75);
885     graph->SetPoint(9,526.5267,1596.25);
886     graph->SetPoint(10,526.9924,1548.75);
887     graph->SetPoint(11,527.2745,1501.25);
888     graph->SetPoint(12,526.9487,1453.75);
889     graph->SetPoint(13,526.6228,1406.25);
890     graph->SetPoint(14,532.902,1358.75);
891     graph->SetPoint(15,540.182,1311.25);
892     graph->SetPoint(16,547.4619,1263.75);
893     graph->SetPoint(17,558.0438,1216.25);
894     graph->SetPoint(18,561.875,1203.002);
895     graph->SetPoint(19,579.4475,1168.75);
896     graph->SetPoint(20,603.8166,1121.25);
897     graph->SetPoint(21,610.625,1107.979);
898     graph->SetPoint(22,630.8311,1073.75);
899     graph->SetPoint(23,658.8712,1026.25);
900     graph->SetPoint(24,659.375,1025.691);
901     graph->SetPoint(25,703.8609,978.75);
902     graph->SetPoint(26,708.125,975.5966);
903     graph->SetPoint(27,756.875,945.0332);
904     graph->SetPoint(28,778.5082,931.25);
905     graph->SetPoint(29,805.625,916.3566);
906     graph->SetPoint(30,847.5791,883.75);
907     graph->SetPoint(31,854.375,879.4212);
908     graph->SetPoint(32,903.125,848.0476);
909     graph->SetPoint(33,927.7959,836.25);
910     graph->SetPoint(34,951.875,823.2943);
911     graph->SetPoint(35,1000.625,790.1523);
912     graph->SetPoint(36,1004.488,788.75);
913     graph->SetPoint(37,1049.375,774.2142);
914     graph->SetPoint(38,1098.125,755.1404);
915     graph->SetPoint(39,1130.904,741.25);
916     graph->SetPoint(40,1146.875,736.2226);
917     graph->SetPoint(41,1195.625,720.3208);
918     graph->SetPoint(42,1244.375,701.1234);
919     graph->SetPoint(43,1266.694,693.75);
920     graph->SetPoint(44,1293.125,685.9941);
921     graph->SetPoint(45,1341.875,668.9126);
922     graph->SetPoint(46,1390.625,652.8072);
923     graph->SetPoint(47,1439.375,647.4204);
924     graph->SetPoint(48,1448.107,646.25);
925     graph->SetPoint(49,1488.125,638.5908);
926     graph->SetPoint(50,1536.875,620.8084);
927     graph->SetPoint(51,1585.625,603.026);
928     graph->SetPoint(52,1597.347,598.75);
929     graph->SetPoint(53,1634.375,581.9133);
930     graph->SetPoint(54,1683.125,559.7463);
931     graph->SetPoint(55,1701.81,551.25);
932     graph->SetPoint(56,1731.875,537.5793);
933     graph->SetPoint(57,1780.625,515.4123);
934     graph->SetPoint(58,1806.273,503.75);
935     graph->SetPoint(59,1829.375,493.2101);
936     graph->SetPoint(60,1878.125,471.0784);
937     graph->SetPoint(61,1910.736,456.25);
938     graph->SetPoint(62,1926.875,448.241);
939     graph->SetPoint(63,1975.625,426.7444);
940     return graph;
941 auterman 1.5 }
942 auterman 1.14
943    
944     //- Jim Lungu ----------------------------------------------
945    
946     TGraph* Jim_mht_tb3(int mode){
947     Int_t n = 10;
948     Double_t x[10] = {15,65,115,165,215,265,315,365,415,465};
949     Double_t yobs[10] = {330,330,340,340,330,320,310,300,280,260};
950     Double_t yexp[10] = {330,320,320,320,320,310,300,290,270,250};
951     Double_t yexpp[10] = {350,350,350,340,340,330,330,310,300,280};
952     Double_t yexpn[10] = {310,310,310,300,300,300,280,270,240,240};
953     Double_t y[10];
954     for (int i=0;i<n;i++) {
955     if (mode==0) y[i] = yobs[i];
956     if (mode==1) y[i] = yexp[i];
957     if (mode==2) y[i] = yexpp[i];
958     if (mode==3) y[i] = yexpn[i];
959     }
960     TGraph* gr = new TGraph(n,x,y);
961     gr->SetLineWidth(2);
962     if (mode==1) gr->SetLineStyle(2);
963     if (mode>2) {gr->SetFillColor(8); gr->SetLineColor(8);}
964     else
965     gr->SetLineColor(2);
966     return gr;
967     }
968    
969     TGraph* Jim_ht_tb3(int mode){
970     Int_t n = 10;
971     Double_t x[10] = {15,65,115,165,215,265,315,365,415,465};
972     Double_t yobs[10] = {300,300,290,290,300,290,280,270,260,250};
973     Double_t yexp[10] = {300,300,290,300,300,290,280,270,260,250};
974     Double_t yexpp[10] = {320,320,320,320,310,310,300,290,280,270};
975     Double_t yexpn[10] = {290,290,280,290,280,280,270,250,250,240};
976     Double_t y[10];
977     for (int i=0;i<n;i++) {
978     if (mode==0) y[i] = yobs[i];
979     if (mode==1) y[i] = yexp[i];
980     if (mode==2) y[i] = yexpp[i];
981     if (mode==3) y[i] = yexpn[i];
982     }
983     TGraph* gr = new TGraph(n,x,y);
984     gr->SetLineWidth(2);
985     if (mode==1) gr->SetLineStyle(2);
986     if (mode>2) {gr->SetFillColor(8); gr->SetLineColor(8);}
987     else
988     gr->SetLineColor(2);
989     return gr;
990     }
991    
992     TGraph* Jim_mht_tb50(int mode){
993     Int_t n = 9;
994     Double_t x[9] = {205,255,305,355,405,455,505,555,605};
995     Double_t yobs[9] = {330,330,310,300,300,270,250,240,210};
996     Double_t yexp[9] = {320,320,300,290,280,250,240,230,210};
997     Double_t yexpp[9] = {350,340,330,320,310,290,260,250,230};
998     Double_t yexpn[9] = {300,300,290,280,260,240,230,200,190};
999     Double_t y[9];
1000     for (int i=0;i<n;i++) {
1001     if (mode==0) y[i] = yobs[i];
1002     if (mode==1) y[i] = yexp[i];
1003     if (mode==2) y[i] = yexpp[i];
1004     if (mode==3) y[i] = yexpn[i];
1005     }
1006     TGraph* gr = new TGraph(n,x,y);
1007     gr->SetLineWidth(2);
1008     if (mode==1) gr->SetLineStyle(2);
1009     if (mode>2) {gr->SetFillColor(8); gr->SetLineColor(8);}
1010     else
1011     gr->SetLineColor(2);
1012     return gr;
1013     }
1014    
1015     TGraph* Jim_ht_tb50(int mode){
1016     Int_t n = 9;
1017     Double_t x[9] = {205,255,305,355,405,455,505,555,605};
1018     Double_t yobs[9] = {300,290,280,280,260,250,230,220,220};
1019     Double_t yexp[9] = {300,290,280,280,260,250,240,230,220};
1020     Double_t yexpp[9] = {320,310,300,290,290,270,260,250,240};
1021     Double_t yexpn[9] = {280,270,270,260,250,240,230,220,210};
1022     Double_t y[10];
1023     for (int i=0;i<n;i++) {
1024     if (mode==0) y[i] = yobs[i];
1025     if (mode==1) y[i] = yexp[i];
1026     if (mode==2) y[i] = yexpp[i];
1027     if (mode==3) y[i] = yexpn[i];
1028     }
1029     TGraph* gr = new TGraph(n,x,y);
1030     gr->SetLineWidth(2);
1031     if (mode==1) gr->SetLineStyle(2);
1032     if (mode>2) {gr->SetFillColor(8); gr->SetLineColor(8);}
1033     else
1034     gr->SetLineColor(2);
1035     return gr;
1036     }
1037    
1038     TGraph* Jim_mht_tb10(int mode){
1039     Int_t n = 20;
1040     Double_t x[20] = {15,65,115,165,215,265,315,365,415,465,515,565,615,665,715,765,815,865,915,965};
1041     Double_t yobs[20] = {330,340,330,330,330,320,310,280,280,260,240,230,220,220,210,190,190,180,180,180};
1042     Double_t yexp[20] = {330,320,320,320,320,310,300,280,270,250,240,220,220,200,190,190,180,160,170,160};
1043     Double_t yexpp[20] = {330,340,350,340,330,330,330,310,300,280,270,240,240,230,220,210,200,180,190,180};
1044     Double_t yexpn[20] = {290,280,310,300,300,290,280,270,250,240,220,210,200,190,160,170,160,150,150,140};
1045     Double_t y[20];
1046     for (int i=0;i<n;i++) {
1047     if (mode==0) y[i] = yobs[i];
1048     if (mode==1) y[i] = yexp[i];
1049     if (mode==2) y[i] = yexpp[i];
1050     if (mode==3) y[i] = yexpn[i];
1051     }
1052     TGraph* gr = new TGraph(n,x,y);
1053     gr->SetLineWidth(2);
1054     if (mode==1) gr->SetLineStyle(2);
1055     if (mode>2) {gr->SetFillColor(8); gr->SetLineColor(8);}
1056     else
1057     gr->SetLineColor(2);
1058     return gr;
1059     }
1060    
1061     TGraph* Jim_ht_tb10(int mode){
1062     Int_t n = 20;
1063     Double_t x[20] = {15,65,115,165,215,265,315,365,415,465,515,565,615,665,715,765,815,865,915,965};
1064     Double_t yobs[20] = {290,280,300,290,300,290,280,270,250,250,240,230,220,220,210,190,200,180,190,180};
1065     Double_t yexp[20] = {290,280,290,300,300,290,280,270,250,250,240,240,220,220,210,190,200,180,190,180};
1066     Double_t yexpp[20] = {330,320,310,310,310,310,300,280,280,260,260,250,240,230,220,220,210,210,200,190};
1067     Double_t yexpn[20] = {290,280,280,280,280,280,270,260,240,240,230,220,200,200,190,190,180,180,170,170};
1068     Double_t y[20];
1069     for (int i=0;i<n;i++) {
1070     if (mode==0) y[i] = yobs[i];
1071     if (mode==1) y[i] = yexp[i];
1072     if (mode==2) y[i] = yexpp[i];
1073     if (mode==3) y[i] = yexpn[i];
1074     }
1075     TGraph* gr = new TGraph(n,x,y);
1076     gr->SetLineWidth(2);
1077     if (mode==1) gr->SetLineStyle(2);
1078     if (mode>2) {gr->SetFillColor(8); gr->SetLineColor(8);}
1079     else
1080     gr->SetLineColor(2);
1081     return gr;
1082     }
1083    
1084    
1085