Class describing a 4D cylindrical coordinate system using Pt , Phi, Eta and M (mass) The metric used is (-,-,-,+).
Spacelike particles (M2 < 0) are described with negative mass values, but in this case m2 must alwasy be less than P2 to preserve a positive value of E2 Phi is restricted to be in the range [-PI,PI)
Definition at line 52 of file PtEtaPhiM4D.h.
Public Types | |
typedef ScalarType | Scalar |
Public Member Functions | |
PtEtaPhiM4D () | |
Default constructor gives zero 4-vector (with zero mass) | |
template<class CoordSystem > | |
PtEtaPhiM4D (const CoordSystem &c) | |
Generic constructor from any 4D coordinate system implementing Pt(), Eta(), Phi() and M() | |
PtEtaPhiM4D (const PtEtaPhiM4D &v) | |
copy constructor | |
PtEtaPhiM4D (Scalar pt, Scalar eta, Scalar phi, Scalar mass) | |
Constructor from pt, eta, phi, mass values. | |
Scalar | E () const |
Energy (timelike component of momentum-energy 4-vector) | |
Scalar | E2 () const |
energy squared | |
Scalar | Et () const |
transverse energy | |
Scalar | Et2 () const |
transverse energy squared | |
Scalar | Eta () const |
void | GetCoordinates (Scalar &pt, Scalar &eta, Scalar &phi, Scalar &mass) const |
get internal data into 4 Scalar numbers | |
void | GetCoordinates (Scalar dest[]) const |
get internal data into an array of 4 Scalar numbers | |
Scalar | M () const |
M() is the invariant mass; in this coordinate system it can be negagative if set that way. | |
Scalar | M2 () const |
vector magnitude squared (or mass squared) In case of negative mass (spacelike particles return negative values) | |
Scalar | Mag () const |
Scalar | Mag2 () const |
Scalar | Mt () const |
transverse mass - will be negative if Mt2() is negative | |
Scalar | Mt2 () const |
transverse mass squared | |
void | Negate () |
negate the 4-vector – Note that the energy cannot be negate (would need an additional data member) therefore negate will work only on the spatial components One would need to use negate only with vectors having the energy as data members | |
bool | operator!= (const PtEtaPhiM4D &rhs) const |
template<class CoordSystem > | |
PtEtaPhiM4D & | operator= (const CoordSystem &c) |
Assignment from a generic coordinate system implementing Pt(), Eta(), Phi() and M() | |
PtEtaPhiM4D & | operator= (const PtEtaPhiM4D &v) |
assignment operator | |
bool | operator== (const PtEtaPhiM4D &rhs) const |
Exact equality. | |
Scalar | P () const |
magnitude of momentum | |
Scalar | P2 () const |
squared magnitude of spatial components (momentum squared) | |
Scalar | Perp () const |
Scalar | Perp2 () const |
Scalar | Phi () const |
Scalar | Pt () const |
Scalar | Pt2 () const |
transverse spatial component squared | |
Scalar | Px () const |
Scalar | Py () const |
Scalar | Pz () const |
Scalar | R () const |
Scalar | Rho () const |
void | Scale (Scalar a) |
Scale coordinate values by a scalar quantity a. | |
void | SetCoordinates (const Scalar src[]) |
Set internal data based on an array of 4 Scalar numbers. | |
void | SetCoordinates (Scalar pt, Scalar eta, Scalar phi, Scalar mass) |
Set internal data based on 4 Scalar numbers. | |
void | SetEta (Scalar eta) |
set eta value | |
void | SetM (Scalar mass) |
set M value | |
void | SetPhi (Scalar phi) |
set phi value | |
void | SetPt (Scalar pt) |
set Pt value | |
void | SetPxPyPzE (Scalar px, Scalar py, Scalar pz, Scalar e) |
set values using cartesian coordinate system | |
Scalar | T () const |
Scalar | t () const |
Scalar | Theta () const |
polar angle | |
Scalar | X () const |
Scalar | x () const |
Scalar | Y () const |
Scalar | y () const |
Scalar | Z () const |
Scalar | z () const |
Private Member Functions | |
void | RestrictNegMass () |
void | RestrictPhi () |
Static Private Member Functions | |
static Scalar | pi () |
Private Attributes | |
ScalarType | fEta |
ScalarType | fM |
ScalarType | fPhi |
ScalarType | fPt |
#include <Math/GenVector/PtEtaPhiM4D.h>
typedef ScalarType ROOT::Math::PtEtaPhiM4D< ScalarType >::Scalar |
Definition at line 56 of file PtEtaPhiM4D.h.
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Default constructor gives zero 4-vector (with zero mass)
Definition at line 63 of file PtEtaPhiM4D.h.
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Constructor from pt, eta, phi, mass values.
Definition at line 68 of file PtEtaPhiM4D.h.
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Generic constructor from any 4D coordinate system implementing Pt(), Eta(), Phi() and M()
Definition at line 79 of file PtEtaPhiM4D.h.
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copy constructor
Definition at line 88 of file PtEtaPhiM4D.h.
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Energy (timelike component of momentum-energy 4-vector)
Definition at line 195 of file PtEtaPhiM4D.h.
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energy squared
Definition at line 186 of file PtEtaPhiM4D.h.
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transverse energy
Definition at line 247 of file PtEtaPhiM4D.h.
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transverse energy squared
Definition at line 238 of file PtEtaPhiM4D.h.
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Definition at line 139 of file PtEtaPhiM4D.h.
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get internal data into 4 Scalar numbers
Definition at line 131 of file PtEtaPhiM4D.h.
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get internal data into an array of 4 Scalar numbers
Definition at line 115 of file PtEtaPhiM4D.h.
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M() is the invariant mass; in this coordinate system it can be negagative if set that way.
Definition at line 145 of file PtEtaPhiM4D.h.
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vector magnitude squared (or mass squared) In case of negative mass (spacelike particles return negative values)
Definition at line 203 of file PtEtaPhiM4D.h.
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Definition at line 146 of file PtEtaPhiM4D.h.
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Definition at line 206 of file PtEtaPhiM4D.h.
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transverse mass - will be negative if Mt2() is negative
Definition at line 222 of file PtEtaPhiM4D.h.
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transverse mass squared
Definition at line 217 of file PtEtaPhiM4D.h.
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negate the 4-vector – Note that the energy cannot be negate (would need an additional data member) therefore negate will work only on the spatial components One would need to use negate only with vectors having the energy as data members
Definition at line 315 of file PtEtaPhiM4D.h.
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Definition at line 352 of file PtEtaPhiM4D.h.
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Assignment from a generic coordinate system implementing Pt(), Eta(), Phi() and M()
Definition at line 337 of file PtEtaPhiM4D.h.
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assignment operator
Definition at line 94 of file PtEtaPhiM4D.h.
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Exact equality.
Definition at line 348 of file PtEtaPhiM4D.h.
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magnitude of momentum
Definition at line 166 of file PtEtaPhiM4D.h.
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squared magnitude of spatial components (momentum squared)
Definition at line 177 of file PtEtaPhiM4D.h.
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Definition at line 148 of file PtEtaPhiM4D.h.
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Definition at line 212 of file PtEtaPhiM4D.h.
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Definition at line 140 of file PtEtaPhiM4D.h.
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Definition at line 250 of file PtEtaPhiM4D.h.
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Definition at line 138 of file PtEtaPhiM4D.h.
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transverse spatial component squared
Definition at line 211 of file PtEtaPhiM4D.h.
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Definition at line 153 of file PtEtaPhiM4D.h.
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Definition at line 155 of file PtEtaPhiM4D.h.
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Definition at line 157 of file PtEtaPhiM4D.h.
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Definition at line 172 of file PtEtaPhiM4D.h.
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Definition at line 257 of file PtEtaPhiM4D.h.
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Definition at line 251 of file PtEtaPhiM4D.h.
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Definition at line 149 of file PtEtaPhiM4D.h.
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Scale coordinate values by a scalar quantity a.
Definition at line 324 of file PtEtaPhiM4D.h.
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Set internal data based on an array of 4 Scalar numbers.
Definition at line 106 of file PtEtaPhiM4D.h.
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Set internal data based on 4 Scalar numbers.
Definition at line 121 of file PtEtaPhiM4D.h.
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set eta value
Definition at line 284 of file PtEtaPhiM4D.h.
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set M value
Definition at line 297 of file PtEtaPhiM4D.h.
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set phi value
Definition at line 290 of file PtEtaPhiM4D.h.
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set Pt value
Definition at line 278 of file PtEtaPhiM4D.h.
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set values using cartesian coordinate system
Definition at line 403 of file PtEtaPhiM4D.h.
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Definition at line 197 of file PtEtaPhiM4D.h.
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Definition at line 361 of file PtEtaPhiM4D.h.
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polar angle
Definition at line 271 of file PtEtaPhiM4D.h.
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Definition at line 154 of file PtEtaPhiM4D.h.
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Definition at line 358 of file PtEtaPhiM4D.h.
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Definition at line 156 of file PtEtaPhiM4D.h.
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Definition at line 359 of file PtEtaPhiM4D.h.
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Definition at line 161 of file PtEtaPhiM4D.h.
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Definition at line 360 of file PtEtaPhiM4D.h.
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Definition at line 381 of file PtEtaPhiM4D.h.
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Definition at line 383 of file PtEtaPhiM4D.h.
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Definition at line 382 of file PtEtaPhiM4D.h.
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Definition at line 380 of file PtEtaPhiM4D.h.