2 /*********************************************************************
4 * ConfigFemtoAnalysis.C - configuration macro for the femtoscopic *
5 * analysis, meant as a QA process for two-particle effects *
7 * Author: Adam Kisiel (Adam.Kisiel@cern.ch) *
9 *********************************************************************/
11 #if !defined(__CINT__) || defined(__MAKECINT_)
12 #include "AliFemtoManager.h"
13 #include "AliFemtoEventReaderESDChain.h"
14 #include "AliFemtoEventReaderESDChainKine.h"
15 #include "AliFemtoEventReaderAODChain.h"
16 #include "AliFemtoSimpleAnalysis.h"
17 #include "AliFemtoBasicEventCut.h"
18 #include "AliFemtoESDTrackCut.h"
19 #include "AliFemtoKKTrackCut.h"
20 #include "AliFemtoCorrFctn.h"
21 #include "AliFemtoCutMonitorParticleYPt.h"
22 #include "AliFemtoCutMonitorParticleVertPos.h"
23 #include "AliFemtoCutMonitorParticleMomRes.h"
24 #include "AliFemtoCutMonitorParticlePID.h"
25 #include "AliFemtoCutMonitorEventMult.h"
26 #include "AliFemtoCutMonitorEventVertex.h"
27 #include "AliFemtoShareQualityTPCEntranceSepPairCut.h"
28 #include "AliFemtoPairCutAntiGamma.h"
29 #include "AliFemtoPairCutRadialDistance.h"
30 #include "AliFemtoPairCutRadialDistanceKK.h"
31 #include "AliFemtoQinvCorrFctn.h"
32 #include "AliFemtoShareQualityCorrFctn.h"
33 #include "AliFemtoTPCInnerCorrFctn.h"
34 #include "AliFemtoVertexMultAnalysis.h"
35 #include "AliFemtoCorrFctn3DSpherical.h"
36 #include "AliFemtoChi2CorrFctn.h"
37 #include "AliFemtoCorrFctnTPCNcls.h"
38 #include "AliFemtoBPLCMS3DCorrFctn.h"
39 #include "AliFemtoCorrFctn3DLCMSSym.h"
40 #include "AliFemtoModelBPLCMSCorrFctn.h"
41 #include "AliFemtoModelCorrFctn3DSpherical.h"
42 #include "AliFemtoModelGausLCMSFreezeOutGenerator.h"
43 #include "AliFemtoModelGausRinvFreezeOutGenerator.h"
44 #include "AliFemtoModelManager.h"
45 #include "AliFemtoModelWeightGeneratorBasic.h"
46 #include "AliFemtoModelWeightGeneratorLednicky.h"
47 #include "AliFemtoCorrFctnDirectYlm.h"
48 #include "AliFemtoModelCorrFctnDirectYlm.h"
49 #include "AliFemtoModelCorrFctnSource.h"
50 #include "AliFemtoKTPairCut.h"
53 //________________________________________________________________________
54 AliFemtoManager* ConfigFemtoAnalysis() {
56 double PionMass = 0.13956995;
57 double KaonMass = 0.493677;
61 //-------Single track cuts------------------------------------------------->
62 double DCAxy=2.4;//cm // our standard is 0.20 cm; super narrow was 0.015cm
63 double DCAz =3.0;//cm // our standard is 0.15 cm;
64 //-------Single track cuts-------------------------------------------------<
65 //=======Double track cuts=================================================>
66 //Dhevan's : PhiStarDifferenceMinimum=0.06; EtaDifferenceMinimum=0.02;
67 double PhiStarDifferenceMinimum=0.017; //[radian]
68 double EtaDifferenceMinimum=0.015; //[radian]
69 //=======Double track cuts=================================================<
71 // Switches for QA analyses
72 // int runmults[10] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 1};
73 // int multbins[11] = {30, 70, 150, 310, 590, 990, 1570, 2370, 2370, 2370, 6500};
75 int runmults[cMu] = {0, 1, 1, 1};
76 //int multbins[11] = {0, 50, 100, 200, 300, 400, 500, 600, 700, 800, 900};
77 int multbins[cMu+1] = {0, 100, 300, 500, 900};
79 int runch[2] = {1, 1};
80 const char *chrgs[2] = { "Kp", "Km"};
84 double ktrng[9] = {0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 1.0, 1.3};
85 // double ktrng[8] = {0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 2.0};
90 int runtype = 2; // Types 0 - global, 1 - ITS only, 2 - TPC Inner
93 // AliFemtoEventReaderESDChainKine* Reader=new AliFemtoEventReaderESDChainKine();
94 // Reader->SetConstrained(true);
95 // Reader->SetUseTPCOnly(false);
101 //ml if (runshlcms) shqmax = 0.25;
102 // else shqmax = 0.9;
105 if (runshlcms) shqmaxSH = 0.25;
109 // AliFemtoEventReaderESDChain* Reader=new AliFemtoEventReaderESDChain();
110 // Reader->SetConstrained(true);
111 // Reader->SetUseTPCOnly(false);
112 // Reader->SetReadTPCInner(false);
113 // Reader->SetUseMultiplicity(AliFemtoEventReaderESDChain::kV0Centrality);
116 // Reader->SetReadTrackType(AliFemtoEventReaderESDChain::kGlobal);
117 // else if (runtype == 1)
118 // Reader->SetReadTrackType(AliFemtoEventReaderESDChain::kITSOnly);
119 // else if (runtype == 2)
120 // Reader->SetReadTrackType(AliFemtoEventReaderESDChain::kTPCOnly);
122 // Reader->SetUsePhysicsSelection(kTRUE);
124 // Reader->SetUsePhysicsSelection(kFALSE);
126 // Reader->SetUseMultiplicity(AliFemtoEventReaderESDChain::kV0Centrality);
128 AliFemtoEventReaderAODChain *Reader = new AliFemtoEventReaderAODChain();
129 Reader->SetFilterBit(7);
130 Reader->SetCentralityPreSelection(100, 900);
131 /*On 02/26/2014 06:09 PM, Maciej Szymański wrote:
134 > as I remember correctly, you were using the DCA cut on the global tracks
135 > corrsponding to chosen TPC-only tracks (SetDCAglobalTrack(kTRUE), right?
136 > The update I made regards cutting on the DCA on the TPC-only track, so
137 > you need to change in your config to: SetDCAglobalTrack(kFALSE).*/
138 //Reader->SetDCAglobalTrack(kTRUE);//option the DCA information from global tracks (ITS+TPC)
139 /*On 03/03/2014 06:39 PM, Maciej Szymański wrote:
142 > could you please run again your KchKch analysis in the train using your
143 > previous option: SetDCAglobalTrack(kTRUE)?
145 > I updated the AliFemtoEventReaderAOD class and I removed reading the DCA
146 > of global tracks with the PropagateToDCA() method. Now, 'global' tracks
147 > are used to get the absolute position by calling GetXYZ() and then the
148 > position of the primary vertex is subtracted. See also
149 > https://indico.cern.ch/event/302741/contribution/1/material/slides/0.pdf
150 > (in particular slide 6).
155 Reader->SetDCAglobalTrack(kTRUE);
157 AliFemtoManager* Manager=new AliFemtoManager();
158 Manager->SetEventReader(Reader);
160 AliFemtoVertexMultAnalysis *anetaphitpc[20];
161 AliFemtoBasicEventCut *mecetaphitpc[20];
162 AliFemtoCutMonitorEventMult *cutPassEvMetaphitpc[20];
163 AliFemtoCutMonitorEventMult *cutFailEvMetaphitpc[20];
164 AliFemtoCutMonitorEventVertex *cutPassEvVetaphitpc[20];
165 AliFemtoCutMonitorEventVertex *cutFailEvVetaphitpc[20];
166 AliFemtoKKTrackCut *dtc1etaphitpc[20];
167 AliFemtoKKTrackCut *dtc2etaphitpc[20];
168 // AliFemtoESDTrackCut *dtc1etaphitpc[20];
169 // AliFemtoESDTrackCut *dtc2etaphitpc[20];
170 AliFemtoCutMonitorParticleYPt *cutPass1YPtetaphitpc[20];
171 AliFemtoCutMonitorParticleYPt *cutFail1YPtetaphitpc[20];
172 AliFemtoCutMonitorParticlePID *cutPass1PIDetaphitpc[20];
173 AliFemtoCutMonitorParticlePID *cutFail1PIDetaphitpc[20];
174 AliFemtoCutMonitorParticleYPt *cutPass2YPtetaphitpc[20];
175 AliFemtoCutMonitorParticleYPt *cutFail2YPtetaphitpc[20];
176 AliFemtoCutMonitorParticlePID *cutPass2PIDetaphitpc[20];
177 AliFemtoCutMonitorParticlePID *cutFail2PIDetaphitpc[20];
178 //AliFemtoPairCutAntiGamma *sqpcetaphitpc[20];
179 // AliFemtoShareQualityTPCEntranceSepPairCut *sqpcetaphitpc[20];
180 //AliFemtoPairCutRadialDistance *sqpcetaphitpc[20];//AliFemto dphi* cut
181 AliFemtoPairCutRadialDistanceKK *sqpcetaphitpc[20];//Dhevan's dphi* cut
182 AliFemtoCorrFctnDirectYlm *cylmetaphitpc[20];
183 AliFemtoCorrFctnDEtaDPhi *cdedpetaphi[20*10];//20->20*10 due to kT
184 AliFemtoChi2CorrFctn *cchiqinvetaphitpc[20];
185 AliFemtoKTPairCut *ktpcuts[20*8];
186 AliFemtoCorrFctnDirectYlm *cylmkttpc[20*8];
187 AliFemtoQinvCorrFctn *cqinvkttpc[20*8];
188 AliFemtoCorrFctn3DLCMSSym *cq3dlcmskttpc[20*8];
189 AliFemtoCorrFctnTPCNcls *cqinvnclstpc[20];
190 AliFemtoShareQualityCorrFctn *cqinvsqtpc[20*10];
191 AliFemtoChi2CorrFctn *cqinvchi2tpc[20];
192 AliFemtoTPCInnerCorrFctn *cqinvinnertpc[20*10];
194 // *** Third QA task - HBT analysis with all pair cuts off, TPC only ***
195 // *** Begin Kaon-Kaon (positive) analysis ***
198 for (int imult=0; imult<cMu/*4*/; imult++) {
199 if (runmults[imult]) {
200 for (int ichg=0; ichg<2; ichg++) {
202 aniter = ichg*5+imult;
204 anetaphitpc[aniter] = new AliFemtoVertexMultAnalysis(4, -8.0, 8.0, 5, multbins[imult], multbins[imult+1]);
205 anetaphitpc[aniter]->SetNumEventsToMix(3);
206 anetaphitpc[aniter]->SetMinSizePartCollection(1);
208 mecetaphitpc[aniter] = new AliFemtoBasicEventCut();
209 mecetaphitpc[aniter]->SetEventMult(0,100000);
210 mecetaphitpc[aniter]->SetVertZPos(-8.0,8.0);
211 /* //was in aliroot 5.03.76
213 mecetaphitpc[aniter]->SetAcceptOnlyPhysics(kTRUE);
215 // mecetaphitpc->SetAcceptBadVertex(kTRUE);
217 cutPassEvMetaphitpc[aniter] = new AliFemtoCutMonitorEventMult(Form("cutPass%stpcM%i", chrgs[ichg], imult));
218 cutFailEvMetaphitpc[aniter] = new AliFemtoCutMonitorEventMult(Form("cutFail%stpcM%i", chrgs[ichg], imult));
219 mecetaphitpc[aniter]->AddCutMonitor(cutPassEvMetaphitpc[aniter], cutFailEvMetaphitpc[aniter]);
221 cutPassEvVetaphitpc[aniter] = new AliFemtoCutMonitorEventVertex(Form("cutPass%stpcM%i", chrgs[ichg], imult));
222 cutFailEvVetaphitpc[aniter] = new AliFemtoCutMonitorEventVertex(Form("cutFail%stpcM%i", chrgs[ichg], imult));
223 mecetaphitpc[aniter]->AddCutMonitor(cutPassEvVetaphitpc[aniter], cutFailEvVetaphitpc[aniter]);
225 dtc1etaphitpc[aniter] = new AliFemtoKKTrackCut();
226 // dtc1etaphitpc[aniter] = new AliFemtoESDTrackCut();
227 // dtc1etaphitpc[aniter]->SetPidProbPion(0.0,1.001);
228 // dtc1etaphitpc[aniter]->SetPidProbMuon(0.0,1.0);
229 // dtc1etaphitpc[aniter]->SetPidProbKaon(0.0,1.0);
230 // dtc1etaphitpc[aniter]->SetPidProbProton(0.0,1.0);
232 dtc1etaphitpc[aniter]->SetCharge(1.0);
234 dtc1etaphitpc[aniter]->SetCharge(-1.0);
236 dtc1etaphitpc[aniter]->SetPt(0.14,1.5);
237 // dtc1etaphitpc[aniter]->SetEta(-1.2,1.2);
238 dtc1etaphitpc[aniter]->SetEta(-0.8,0.8);
239 // // dtc1etaphitpc[aniter]->SetEta(-0.5,0.5);
240 /// dtc1etaphitpc[aniter]->SetMass(PionMass);
241 dtc1etaphitpc[aniter]->SetMass(KaonMass);
244 //// dtc1etaphitpc[aniter]->SetminTPCncls(80);
246 //--- Choose Kaon as Most Probable (switch on all cuts: TPC, TOF)---
247 dtc1etaphitpc[aniter]->SetMostProbableKaon();
248 //------------------- November 2013 -----------------------------------<
249 // new cuts to remove electron (do not take into analysis if 400<p<500)
250 //remove 0.0 to include electrons
251 dtc1etaphitpc[aniter]->SetNsigmaTPCle250(1.5);
252 dtc1etaphitpc[aniter]->SetNsigmaTPC250_400(2.0);
253 dtc1etaphitpc[aniter]->SetNsigmaTPC400_450(2.0);//0.0);
254 dtc1etaphitpc[aniter]->SetNsigmaTPC450_500(2.0);//0.0);
255 dtc1etaphitpc[aniter]->SetNsigmaTPCge500(3.0);
256 // new cuts are stronger, better separation of pion in TOF
257 // when momentum is greater then 800 MeV/c
258 dtc1etaphitpc[aniter]->SetNsigmaTOF500_800(2.0);
259 dtc1etaphitpc[aniter]->SetNsigmaTOF800_1000(1.5);
260 dtc1etaphitpc[aniter]->SetNsigmaTOFge1000(1.0);
261 //------------------- November 2013 ----------------------------------->
263 //// dtc1etaphitpc[aniter]->SetMostProbablePion();
264 // // Track quality cuts
266 dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kTPCrefit|AliESDtrack::kITSrefit);
267 // dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kTPCrefit);
268 // dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kITSrefit);
269 dtc1etaphitpc[aniter]->SetminTPCncls(80);
270 dtc1etaphitpc[aniter]->SetRemoveKinks(kTRUE);
271 dtc1etaphitpc[aniter]->SetLabel(kFALSE);
272 // dtc1etaphitpc[aniter]->SetMaxITSChiNdof(6.0);
273 dtc1etaphitpc[aniter]->SetMaxTPCChiNdof(4.0);
274 dtc1etaphitpc[aniter]->SetMaxImpactXY(DCAxy);
275 //Poland: dtc1etaphitpc[aniter]->SetMaxImpactXYPtDep(0.0182, 0.0350, -1.01);
276 dtc1etaphitpc[aniter]->SetMaxImpactZ(DCAz);
277 // dtc1etaphitpc[aniter]->SetMaxSigmaToVertex(6.0);
279 else if (runtype == 1) {
280 // dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kTPCrefit|AliESDtrack::kITSrefit);
281 // dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kTPCrefit);
282 // dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kITSrefit|AliESDtrack::kITSpureSA);
283 // dtc1etaphitpc[aniter]->SetminTPCncls(70);
284 dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kITSrefit);
285 dtc1etaphitpc[aniter]->SetRemoveKinks(kTRUE);
286 dtc1etaphitpc[aniter]->SetLabel(kFALSE);
287 // dtc1etaphitpc[aniter]->SetMaxITSChiNdof(6.0);
288 // dtc1etaphitpc[aniter]->SetMaxTPCChiNdof(6.0);
289 dtc1etaphitpc[aniter]->SetMaxImpactXY(DCAxy);
290 dtc1etaphitpc[aniter]->SetMaxImpactZ(DCAz);
291 // dtc1etaphitpc[aniter]->SetMaxSigmaToVertex(6.0);
293 else if (runtype == 2) {
294 // dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kTPCrefit|AliESDtrack::kITSrefit);
295 dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kTPCin);
296 // dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kTPCrefit);
297 // dtc1etaphitpc[aniter]->SetStatus(AliESDtrack::kITSrefit);
298 dtc1etaphitpc[aniter]->SetminTPCncls(80); //was "0"
299 dtc1etaphitpc[aniter]->SetRemoveKinks(kTRUE);
300 dtc1etaphitpc[aniter]->SetLabel(kFALSE);
301 // dtc1etaphitpc[aniter]->SetMaxITSChiNdof(6.0);
302 dtc1etaphitpc[aniter]->SetMaxTPCChiNdof(4.0);
303 dtc1etaphitpc[aniter]->SetMaxImpactXY(DCAxy);
304 //dtc1etaphitpc[aniter]->SetMaxImpactXYPtDep(0.0182, 0.0350, -1.01);
305 dtc1etaphitpc[aniter]->SetMaxImpactZ(DCAz);
306 // dtc1etaphitpc[aniter]->SetMaxSigmaToVertex(6.0);
311 cutPass1YPtetaphitpc[aniter] = new AliFemtoCutMonitorParticleYPt(Form("cutPass1%stpcM%i", chrgs[ichg], imult), 0.493677);
312 cutFail1YPtetaphitpc[aniter] = new AliFemtoCutMonitorParticleYPt(Form("cutFail1%stpcM%i", chrgs[ichg], imult), 0.493677);
313 dtc1etaphitpc[aniter]->AddCutMonitor(cutPass1YPtetaphitpc[aniter], cutFail1YPtetaphitpc[aniter]);
315 cutPass1PIDetaphitpc[aniter] = new AliFemtoCutMonitorParticlePID(Form("cutPass1%stpcM%i", chrgs[ichg], imult),1);
316 cutFail1PIDetaphitpc[aniter] = new AliFemtoCutMonitorParticlePID(Form("cutFail1%stpcM%i", chrgs[ichg], imult),1);
317 dtc1etaphitpc[aniter]->AddCutMonitor(cutPass1PIDetaphitpc[aniter], cutFail1PIDetaphitpc[aniter]);
320 // sqpcetaphitpc[aniter] = new AliFemtoPairCutAntiGamma();
321 // sqpcetaphitpc[aniter] = new AliFemtoShareQualityTPCEntranceSepPairCut();
324 //sqpcetaphitpc[aniter] = new AliFemtoPairCutRadialDistance();//AliFemto dphi* cut
325 sqpcetaphitpc[aniter] = new AliFemtoPairCutRadialDistanceKK(); //Dhevan's dphi* cut
327 sqpcetaphitpc[aniter]->SetShareQualityMax(1.0);
328 sqpcetaphitpc[aniter]->SetShareFractionMax(0.05);
329 sqpcetaphitpc[aniter]->SetRemoveSameLabel(kFALSE);
330 // sqpcetaphitpc[aniter]->SetMaxEEMinv(0.0);
331 // sqpcetaphitpc[aniter]->SetMaxThetaDiff(0.0);
332 //ml sqpcetaphitpc[aniter]->SetTPCEntranceSepMinimum(1.5);
333 //ml sqpcetaphitpc[aniter]->SetRadialDistanceMinimum(0.12, 0.03);
334 //ml sqpcetaphitpc[aniter]->SetEtaDifferenceMinimum(0.02);
337 //--------- km: eta-phi* Dhevan's custs ----------->>>>
338 sqpcetaphitpc[aniter]->SetPhiStarDifferenceMinimum(PhiStarDifferenceMinimum);
339 sqpcetaphitpc[aniter]->SetEtaDifferenceMinimum(EtaDifferenceMinimum);
340 //sqpcetaphitpc[aniter]->SetMinimumRadius(0.8);//not need for AliFemtoPairCutRadialDistanceKK()
341 //--------- km: eta-phi* Dhevan's custs -----------<<<
343 //////////////sqpcetaphitpc[aniter]->SetMagneticFieldSign(1);
348 else if (runtype == 1) {
349 sqpcetaphitpc[aniter]->SetShareQualityMax(1.0);
350 sqpcetaphitpc[aniter]->SetShareFractionMax(1.05);
351 sqpcetaphitpc[aniter]->SetRemoveSameLabel(kFALSE);
352 // sqpcetaphitpc[aniter]->SetMaxEEMinv(0.002);
353 // sqpcetaphitpc[aniter]->SetMaxThetaDiff(0.008);
354 //ml sqpcetaphitpc[aniter]->SetTPCEntranceSepMinimum(5.0);
355 // sqpcetaphitpc[aniter]->SetRadialDistanceMinimum(1.2, 0.03);
356 // sqpcetaphitpc[aniter]->SetEtaDifferenceMinimum(0.02);
358 // void SetPhiStarDifferenceMinimum(double dtpc);
359 // void SetEtaDifferenceMinimum(double etpc);
360 // void SetMinimumRadius(double minrad);
361 // void SetMagneticFieldSign(int magsign);
363 //--------- km: eta-phi* Dhevan's custs ----------->>>>
364 sqpcetaphitpc[aniter]->SetPhiStarDifferenceMinimum(PhiStarDifferenceMinimum);
365 sqpcetaphitpc[aniter]->SetEtaDifferenceMinimum(EtaDifferenceMinimum);
366 //sqpcetaphitpc[aniter]->SetMinimumRadius(0.8);//not need for AliFemtoPairCutRadialDistanceKK()
367 //--------- km: eta-phi* Dhevan's custs -----------<<<
369 /////////sqpcetaphitpc[aniter]->SetMagneticFieldSign(1);
370 //sqpcetaphitpc[aniter]->SetMagneticFieldSign(1.0);
374 else if (runtype == 2) {
375 sqpcetaphitpc[aniter]->SetDataType(AliFemtoPairCut::kAOD);
376 sqpcetaphitpc[aniter]->SetShareQualityMax(1.0);
377 sqpcetaphitpc[aniter]->SetShareFractionMax(0.05);
378 sqpcetaphitpc[aniter]->SetRemoveSameLabel(kFALSE);
379 // sqpcetaphitpc[aniter]->SetMaxEEMinv(0.0);
380 // sqpcetaphitpc[aniter]->SetMaxThetaDiff(0.0);
381 //ml sqpcetaphitpc[aniter]->SetTPCEntranceSepMinimum(0.0);
382 //ml sqpcetaphitpc[aniter]->SetRadialDistanceMinimum(1.2, 0.045);
383 //ml sqpcetaphitpc[aniter]->SetEtaDifferenceMinimum(0.016);
385 //--------- km: eta-phi* Dhevan's custs ----------->>>>
386 sqpcetaphitpc[aniter]->SetPhiStarDifferenceMinimum(PhiStarDifferenceMinimum);
387 sqpcetaphitpc[aniter]->SetEtaDifferenceMinimum(EtaDifferenceMinimum);
388 //sqpcetaphitpc[aniter]->SetMinimumRadius(0.8);//not need for AliFemtoPairCutRadialDistanceKK()
389 //--------- km: eta-phi* Dhevan's custs -----------<<<
391 ////////sqpcetaphitpc[aniter]->SetMagneticFieldSign(1);
398 anetaphitpc[aniter]->SetEventCut(mecetaphitpc[aniter]);
399 anetaphitpc[aniter]->SetFirstParticleCut(dtc1etaphitpc[aniter]);
400 anetaphitpc[aniter]->SetSecondParticleCut(dtc1etaphitpc[aniter]);
401 anetaphitpc[aniter]->SetPairCut(sqpcetaphitpc[aniter]);
403 // cylmetaphitpc[aniter] = new AliFemtoCorrFctnDirectYlm(Form("cylm%stpcM%i", chrgs[ichg], imult),3,nbinssh,0.0,shqmaxSH,runshlcms);
404 /// anetaphitpc[aniter]->AddCorrFctn(cylmetaphitpc[aniter]);
406 // cqinvnclstpc[aniter] = new AliFemtoCorrFctnTPCNcls(Form("cqinvncls%stpcM%i", chrgs[ichg], imult),nbinssh,0.0,shqmax);
407 // anetaphitpc[aniter]->AddCorrFctn(cqinvnclstpc[aniter]);
409 // cqinvchi2tpc[aniter] = new AliFemtoChi2CorrFctn(Form("cqinvchi2%stpcM%i", chrgs[ichg], imult),nbinssh,0.0,shqmax);
410 // anetaphitpc[aniter]->AddCorrFctn(cqinvchi2tpc[aniter]);
414 for (int ikt=0; ikt<cKt/*8*/; ikt++) {
415 ktm = aniter*cKt/*8*/ + ikt;
416 ktpcuts[ktm] = new AliFemtoKTPairCut(ktrng[ikt], ktrng[ikt+1]);
418 //////// cylmkttpc[ktm] = new AliFemtoCorrFctnDirectYlm(Form("cylm%stpcM%ikT%i", chrgs[ichg], imult, ikt),3,
419 /////// nbinssh, 0.0,
420 ////// (imult>6)?shqmaxSH*2.5:shqmaxSH,
422 ////// cylmkttpc[ktm]->SetPairSelectionCut(ktpcuts[ktm]);
423 ///// anetaphitpc[aniter]->AddCorrFctn(cylmkttpc[ktm]);
425 cqinvkttpc[ktm] = new AliFemtoQinvCorrFctn(Form("cqinv%stpcM%ikT%i", chrgs[ichg], imult, ikt),nbinssh,0.0,(imult>6)?shqmax*2.5:shqmax);
426 // cqinvkttpc[ktm] = new AliFemtoQinvCorrFctn(Form("cqinv%stpcM%ikT%i", chrgs[ichg], imult, ikt),nbinssh,0.0,0.5);
427 cqinvkttpc[ktm]->SetPairSelectionCut(ktpcuts[ktm]);
428 anetaphitpc[aniter]->AddCorrFctn(cqinvkttpc[ktm]);
430 cqinvsqtpc[ktm] = new AliFemtoShareQualityCorrFctn(Form("cqinvsq%stpcM%ikT%i", chrgs[ichg], imult, ikt),nbinssh,0.0,shqmax);
431 cqinvsqtpc[ktm]->SetPairSelectionCut(ktpcuts[ktm]);
432 anetaphitpc[aniter]->AddCorrFctn(cqinvsqtpc[ktm]);
434 cqinvinnertpc[ktm] = new AliFemtoTPCInnerCorrFctn(Form("cqinvinner%stpcM%ikT%i", chrgs[ichg], imult, ikt),nbinssh,0.0,shqmax);
435 cqinvinnertpc[ktm]->SetPairSelectionCut(ktpcuts[ktm]);
436 cqinvinnertpc[ktm]->SetRadius(1.2);
437 anetaphitpc[aniter]->AddCorrFctn(cqinvinnertpc[ktm]);
439 //---- Correlation Function vs Delta_Eta and Delta_Phi (not Phi*)---->>>
440 cdedpetaphi[ktm] = new AliFemtoCorrFctnDEtaDPhi(Form("cdedp%stpcM%ikT%i", chrgs[ichg], imult, ikt),100,100);
441 anetaphitpc[aniter]->AddCorrFctn(cdedpetaphi[ktm]);
442 //---- Correlation Function vs Delta_Eta and Delta_Phi (not Phi*)----<<<
445 cq3dlcmskttpc[ktm] = new AliFemtoCorrFctn3DLCMSSym(Form("cq3d%stpcM%ikT%i", chrgs[ichg], imult, ikt),60,(imult>3)?((imult>6)?((imult>7)?0.6:0.4):0.25):0.15);
446 // cq3dlcmskttpc[ktm] = new AliFemtoCorrFctn3DLCMSSym(Form("cq3d%stpcM%ikT%i", chrgs[ichg], imult, ikt),50,0.5);
447 cq3dlcmskttpc[ktm]->SetPairSelectionCut(ktpcuts[ktm]);
448 anetaphitpc[aniter]->AddCorrFctn(cq3dlcmskttpc[ktm]);
453 // cdedpetaphi[aniter] = new AliFemtoCorrFctnDEtaDPhi(Form("cdedp%stpcM%i", chrgs[ichg], imult),24, 24);
454 // anetaphitpc[aniter]->AddCorrFctn(cdedpetaphi[aniter]);
456 Manager->AddAnalysis(anetaphitpc[aniter]);
461 // *** End Kaon-Kaon (positive) analysis