1#ifndef RIVET_PARTICLENAME_HH
2#define RIVET_PARTICLENAME_HH
4#include "Rivet/Particle.fhh"
5#include "Rivet/Tools/Exceptions.hh"
19 static const PdgId ANY = 10000;
23 static const PdgId ELECTRON = 11;
24 static const PdgId POSITRON = -ELECTRON;
25 static const PdgId EMINUS = ELECTRON;
26 static const PdgId EPLUS = POSITRON;
27 static const PdgId MUON = 13;
28 static const PdgId ANTIMUON = -MUON;
29 static const PdgId TAU = 15;
30 static const PdgId ANTITAU = -TAU;
35 static const PdgId NU_E = 12;
36 static const PdgId NU_EBAR = -NU_E;
37 static const PdgId NU_MU = 14;
38 static const PdgId NU_MUBAR = -NU_MU;
39 static const PdgId NU_TAU = 16;
40 static const PdgId NU_TAUBAR = -NU_TAU;
45 static const PdgId PHOTON = 22;
46 static const PdgId GAMMA = PHOTON;
47 static const PdgId GLUON = 21;
48 static const PdgId WPLUSBOSON = 24;
49 static const PdgId WMINUSBOSON = -WPLUSBOSON;
50 static const PdgId WPLUS = WPLUSBOSON;
51 static const PdgId WMINUS = WMINUSBOSON;
52 static const PdgId Z0BOSON = 23;
53 static const PdgId ZBOSON = Z0BOSON;
54 static const PdgId Z0 = Z0BOSON;
55 static const PdgId HIGGSBOSON = 25;
56 static const PdgId HIGGS = HIGGSBOSON;
57 static const PdgId H0BOSON = HIGGSBOSON;
58 static const PdgId HBOSON = HIGGSBOSON;
63 static const PdgId DQUARK = 1;
64 static const PdgId UQUARK = 2;
65 static const PdgId SQUARK = 3;
66 static const PdgId CQUARK = 4;
67 static const PdgId BQUARK = 5;
68 static const PdgId TQUARK = 6;
73 static const PdgId PROTON = 2212;
74 static const PdgId ANTIPROTON = -PROTON;
75 static const PdgId PBAR = ANTIPROTON;
76 static const PdgId NEUTRON = 2112;
77 static const PdgId ANTINEUTRON = -NEUTRON;
82 static const PdgId PI0 = 111;
83 static const PdgId PIPLUS = 211;
84 static const PdgId PIMINUS = -PIPLUS;
85 static const PdgId RHO0 = 113;
86 static const PdgId RHOPLUS = 213;
87 static const PdgId RHOMINUS = -RHOPLUS;
88 static const PdgId K0L = 130;
89 static const PdgId K0S = 310;
90 static const PdgId K0 = 311;
91 static const PdgId KPLUS = 321;
92 static const PdgId KMINUS = -KPLUS;
93 static const PdgId ETA = 221;
94 static const PdgId ETAPRIME = 331;
95 static const PdgId PHI = 333;
96 static const PdgId OMEGA = 223;
101 static const PdgId ETAC = 441;
102 static const PdgId JPSI = 443;
103 static const PdgId PSI2S = 100443;
108 static const PdgId D0 = 421;
109 static const PdgId D0BAR = -421;
110 static const PdgId DPLUS = 411;
111 static const PdgId DMINUS = -DPLUS;
112 static const PdgId DSTARPLUS = 413;
113 static const PdgId DSTARMINUS = -DSTARPLUS;
114 static const PdgId DSPLUS = 431;
115 static const PdgId DSMINUS = -DSPLUS;
120 static const PdgId ETAB = 551;
121 static const PdgId UPSILON1S = 553;
122 static const PdgId UPSILON2S = 100553;
123 static const PdgId UPSILON3S = 200553;
124 static const PdgId UPSILON4S = 300553;
129 static const PdgId B0 = 511;
130 static const PdgId B0BAR = -511;
131 static const PdgId BPLUS = 521;
132 static const PdgId BMINUS = -BPLUS;
133 static const PdgId B0S = 531;
134 static const PdgId BCPLUS = 541;
135 static const PdgId BCMINUS = -BCPLUS;
140 static const PdgId LAMBDA = 3122;
141 static const PdgId SIGMA0 = 3212;
142 static const PdgId SIGMAPLUS = 3222;
143 static const PdgId SIGMAMINUS = 3112;
144 static const PdgId SIGMAB = 5212;
145 static const PdgId SIGMABPLUS = 5222;
146 static const PdgId SIGMABMINUS = 5112;
147 static const PdgId LAMBDACPLUS = 4122;
148 static const PdgId LAMBDACMINUS = 4122;
149 static const PdgId LAMBDAB = 5122;
150 static const PdgId XI0 = 3322;
151 static const PdgId XIMINUS = 3312;
152 static const PdgId XIPLUS = -XIMINUS;
153 static const PdgId XI0B = 5232;
154 static const PdgId XIBMINUS = 5132;
155 static const PdgId XI0C = 4132;
156 static const PdgId XICPLUS = 4232;
157 static const PdgId OMEGAMINUS = 3334;
158 static const PdgId OMEGAPLUS = -OMEGAMINUS;
159 static const PdgId OMEGABMINUS = 5332;
160 static const PdgId OMEGA0C = 4332;
165 static const PdgId REGGEON = 110;
166 static const PdgId POMERON = 990;
167 static const PdgId ODDERON = 9990;
168 static const PdgId GRAVITON = 39;
169 static const PdgId NEUTRALINO1 = 1000022;
170 static const PdgId GRAVITINO = 1000039;
171 static const PdgId GLUINO = 1000021;
172 static const int BPRIME = 7;
173 static const int TPRIME = 8;
174 static const int LPRIME = 17;
175 static const int NUPRIME = 18;
184 static const PdgId DEUTERON = 1000010020;
185 static const PdgId ALUMINIUM = 1000130270;
186 static const PdgId COPPER = 1000290630;
187 static const PdgId XENON = 1000541290;
188 static const PdgId GOLD = 1000791970;
189 static const PdgId LEAD = 1000822080;
190 static const PdgId URANIUM = 1000922380;
199 class ParticleNames {
202 static std::string particleName(PdgId
pid) {
203 if (!_instance) _instance = unique_ptr<ParticleNames>(
new ParticleNames);
204 return _instance->_particleName(
pid);
207 static PdgId particleId(
const std::string& pname) {
208 if (!_instance) _instance = unique_ptr<ParticleNames>(
new ParticleNames);
209 return _instance->_particleId(pname);
212 std::string _particleName(PdgId
pid);
214 PdgId _particleId(
const std::string& pname);
220 _add_pid_name(ELECTRON,
"ELECTRON");
221 _add_pid_name(POSITRON,
"POSITRON");
222 _add_pid_name(PROTON,
"PROTON");
223 _add_pid_name(ANTIPROTON,
"ANTIPROTON");
224 _add_pid_name(PHOTON,
"PHOTON");
225 _add_pid_name(NEUTRON,
"NEUTRON");
226 _add_pid_name(ANTINEUTRON,
"ANTINEUTRON");
227 _add_pid_name(MUON,
"MUON");
228 _add_pid_name(ANTIMUON,
"ANTIMUON");
229 _add_pid_name(NU_E,
"NU_E");
230 _add_pid_name(NU_EBAR,
"NU_EBAR");
231 _add_pid_name(NU_MU,
"NU_MU");
232 _add_pid_name(NU_MUBAR,
"NU_MUBAR");
233 _add_pid_name(NU_TAU,
"NU_TAU");
234 _add_pid_name(NU_TAUBAR,
"NU_TAUBAR");
235 _add_pid_name(PIPLUS,
"PIPLUS");
236 _add_pid_name(PIMINUS,
"PIMINUS");
237 _add_pid_name(TAU,
"TAU");
238 _add_pid_name(WPLUSBOSON,
"WPLUSBOSON");
239 _add_pid_name(WMINUSBOSON,
"WMINUSBOSON");
240 _add_pid_name(ZBOSON,
"ZBOSON");
241 _add_pid_name(HIGGS,
"HIGGS");
242 _add_pid_name(ANTITAU,
"ANTITAU");
243 _add_pid_name(DEUTERON,
"DEUTERON");
244 _add_pid_name(ALUMINIUM,
"ALUMINIUM");
245 _add_pid_name(COPPER,
"COPPER");
246 _add_pid_name(XENON,
"XENON");
247 _add_pid_name(GOLD,
"GOLD");
248 _add_pid_name(LEAD,
"LEAD");
249 _add_pid_name(URANIUM,
"URANIUM");
250 _add_pid_name(ANY,
"*");
253 void _add_pid_name(PdgId
pid,
const std::string& pname) {
254 _ids_names[
pid] = pname;
255 _names_ids[pname] =
pid;
258 static unique_ptr<ParticleNames> _instance;
260 std::map<PdgId, std::string> _ids_names;
262 std::map<std::string, PdgId> _names_ids;
268 inline std::string toParticleName(PdgId
p) {
269 return ParticleNames::particleName(
p);
274 inline PdgId toParticleId(
const std::string& pname) {
275 return ParticleNames::particleId(pname);
280 inline std::pair<PdgId,PdgId> make_pdgid_pair(PdgId a, PdgId b) {
281 return make_pair(a, b);
286 inline std::pair<PdgId,PdgId> make_pdgid_pair(
const std::string& a,
const std::string& b) {
287 const PdgId pa = toParticleId(a);
288 const PdgId pb = toParticleId(b);
289 return make_pair(pa, pb);
294 inline std::string toBeamsString(
const PdgIdPair& pair) {
296 toParticleName(pair.first) +
", " +
297 toParticleName(pair.second) +
"]";
double p(const ParticleBase &p)
Unbound function access to p.
Definition ParticleBaseUtils.hh:684
int pid(const Particle &p)
Unbound function access to PID code.
Definition ParticleUtils.hh:23
Definition MC_Cent_pPb.hh:10