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ATLAS Offline Software
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ATLAS Offline Software
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Variables | |
| const unsigned int | AuthorUnknown =0x0 |
| for the Authors of the egammas More... | |
| const unsigned int | AuthorElectron =0x1 |
| Electron reconstructed by standard cluster-based algorithm. More... | |
| const unsigned int | AuthorSofte =0x2 |
| Electron reconstructed by the track-based algorithm. More... | |
| const unsigned int | AuthorPhoton =0x4 |
| Photon reconstructed by standard cluster-based algorithm. More... | |
| const unsigned int | AuthorFrwd =0x8 |
| Electron reconstructed by the Forward cluster-based algorithm. More... | |
| const unsigned int | AuthorRConv =0x10 |
| Photon that is duplicated with electron. More... | |
| const unsigned int | AuthorTrigElectron =0x20 |
| trigger Electrons More... | |
| const unsigned int | AuthorTrigPhoton =0x40 |
| trigger Photons More... | |
| const unsigned int | AuthorCaloTopo35 =0x80 |
| Photon reconstructed by SW CaloTopo35 seeded clusters. More... | |
| const double | EgParamUndefined = -999. |
| enum egammaParameters::ParamDef : unsigned int |
| Enumerator | |
|---|---|
| etcone | ET in a cone of R=0.45 in calo, with exclusion of a window of size 7x5 in electromagnetic calorimeter and exclude CaloSampling::TileGap3. |
| etcone20 | ET in a cone with half-opening angle 0.2, with exclusion of a window of size 7x5 in electromagnetic calorimeter and exclude CaloSampling::TileGap3. |
| etcone30 | ET in a cone with half-opening angle 0.3, with exclusion of a window of size 7x5 in electromagnetic calorimeter and exclude CaloSampling::TileGap3. |
| etcone40 | ET in a cone with half-opening angle 0.4, with exclusion of a window of size 7x5 in electromagnetic calorimeter and exclude CaloSampling::TileGap3. |
| e011 | uncorrected energy in presampler in a 1x1 window in cells in eta X phi |
| e033 | uncalibrated energy (sum of cells) in presampler in a 3x3 window in cells in eta X phi |
| e132 | uncalibrated energy (sum of cells) in strips in a 3x2 window in cells in eta X phi |
| e1152 | uncalibrated energy (sum of cells) in strips in a 15x2 window in cells in eta X phi |
| ethad1 | transverse energy in the first sampling of the hadronic calorimeters behind the cluster calculated from ehad1 |
| ethad | ET leakage into hadronic calorimeter with exclusion of energy in CaloSampling::TileGap3. |
| ehad1 | E leakage into 1st sampling of had calo (CaloSampling::HEC0 + CaloSampling::TileBar0 + CaloSampling::TileExt0) |
| f1 | E1/E = fraction of energy reconstructed in the first sampling, where E1 is energy in all strips belonging to the cluster and E is the total energy reconstructed in the electromagnetic calorimeter cluster. |
| f3 | fraction of energy reconstructed in 3rd sampling |
| f1core | E1(3x1)/E = fraction of the energy reconstructed in the first longitudinal compartment of the electromagnetic calorimeter, where E1(3x1) the energy reconstructed in +/-3 strips in eta, centered around the maximum energy strip and E is the energy reconstructed in the electromagnetic calorimeter. |
| f3core | E3(3x3)/E fraction of the energy reconstructed in the third compartment of the electromagnetic calorimeter, where E3(3x3), energy in the back sampling, is the sum of the energy contained in a 3x3 window around the maximum energy cell. |
| e233 | uncalibrated energy (sum of cells) of the middle sampling in a rectangle of size 3x3 (in cell units eta X phi) |
| e235 | uncalibrated energy (sum of cells) of the middle sampling in a rectangle of size 3x5 |
| e255 | uncalibrated energy (sum of cells) of the middle sampling in a rectangle of size 5x5 |
| e237 | uncalibrated energy (sum of cells) of the middle sampling in a rectangle of size 3x7 |
| e277 | uncalibrated energy (sum of cells) of the middle sampling in a rectangle of size 7x7 |
| e333 | uncalibrated energy (sum of cells) of the third sampling in a rectangle of size 3x3 |
| e335 | uncalibrated energy (sum of cells) of the third sampling in a rectangle of size 3x5 |
| e337 | uncalibrated energy (sum of cells) of the third sampling in a rectangle of size 3x7 |
| e377 | uncalibrated energy (sum of cells) of the middle sampling in a rectangle of size 7x7 |
| weta1 | shower width using +/-1 strips around the one with the maximal energy deposit: w3 strips = sqrt{sum(Ei)x(i-imax)^2/sum(Ei)}, where i is the number of the strip and imax the strip number of the most energetic one |
| weta2 | the lateral width is calculated with a window of 3x5 cells using the energy weighted sum over all cells, which depends on the particle impact point inside the cell: weta2 = sqrt(sum Ei x eta^2)/(sum Ei) -((sum Ei x eta)/(sum Ei))^2, where Ei is the energy of the i-th cell |
| e2ts1 | 2nd max in strips calc by summing 3 strips |
| e2tsts1 | energy of the cell corresponding to second energy maximum in the first sampling |
| fracs1 | shower shape in the shower core : [E(+/-3)-E(+/-1)]/E(+/-1), where E(+/-n) is the energy in +- n strips around the strip with highest energy |
| widths1 | same as egammaParameters::weta1 but without corrections on particle impact point inside the cell |
| widths2 | same as egammaParameters::weta2 but without corrections on particle impact point inside the cell |
| poscs1 | relative position in eta within cell in 1st sampling |
| poscs2 | relative position in eta within cell in 2nd sampling |
| asy1 | uncorr asymmetry in 3 strips in the 1st sampling |
| pos | difference between shower cell and predicted track in +/- 1 cells |
| pos7 | Difference between the track and the shower positions: sum_{i=i_m-7}^{i=i_m+7}E_i x (i-i_m) / sum_{i=i_m-7}^{i=i_m+7}E_i, The difference between the track and the shower positions measured in units of distance between the strips, where i_m is the impact cell for the track reconstructed in the inner detector and E_i is the energy reconstructed in the i-th cell in the eta direction for constant phi given by the track parameters. |
| barys1 | barycentre in sampling 1 calculated in 3 strips |
| wtots1 | shower width is determined in a window detaxdphi = 0,0625 ~0,2, corresponding typically to 20 strips in eta : wtot1=sqrt{sum Ei x ( i-imax)^2 / sum Ei}, where i is the strip number and imax the strip number of the first local maximum |
| emins1 | energy reconstructed in the strip with the minimal value between the first and second maximum |
| emaxs1 | energy of strip with maximal energy deposit |
| r33over37allcalo | 1-ratio of energy in 3x3 over 3x7 cells; E(3x3) = E0(1x1) + E1(3x1) + E2(3x3) + E3(3x3); E(3x7) = E0(3x3) + E1(15x3) + E2(3x7) + E3(3x7) |
| ecore | core energy in em calo E(core) = E0(3x3) + E1(15x2) + E2(5x5) + E3(3x5) |
| EtaCorrMag | eta of the track extrapolated to the first sampling (NB : should be equivalent to etaSampling1 |
| EoverP | ratio of the cluster energy and the track momentum |
| deltaEta0 | difference between the cluster eta (presampler) and the eta of the track extrapolated to the presampler |
| deltaEta1 | difference between the cluster eta (first sampling) and the eta of the track extrapolated to the first sampling: |eta_stripscluster -eta_ID|, where eta_stripscluster is computed in the first sampling of the electromagnetic calorimeter, where the granularity is very fine, and eta_ID is the pseudo-rapidity of the track extrapolated to the calorimeter |
| deltaEta2 | difference between the cluster eta (second sampling) and the eta of the track extrapolated to the second sampling |
| deltaEta3 | difference between the cluster eta (3rd sampling) and the eta of the track extrapolated to the 3rd sampling |
| deltaPhi0 | difference between the cluster phi (presampler) and the eta of the track extrapolated to the presampler |
| deltaPhi1 | difference between the cluster eta (1st sampling) and the eta of the track extrapolated to the 1st sampling (strips) |
| deltaPhi2 | difference between the cluster phi (second sampling) and the phi of the track extrapolated to the second sampling : |phi_middlecluster -phi_ID|, where phi_middlecluster is computed in the second compartment of the electromagnetic calorimeter and phi_ID is the azimuth of the track extrapolated to the calorimeter |
| deltaPhi3 | difference between the cluster eta (3rd sampling) and the eta of the track extrapolated to the 3rd sampling |
| isPrimary | true if matched track has a hit in first or second pixel layer |
| trackNumber | index number in TrackContainer (counting starts at 1 for sake of CBNT) |
| tracksInBroadWindow | number of tracks in isolation window (taken at sampling 2): (# primary tracks if matched track is primary; otherwise all tracks) note: overload used to distinguish get/set method |
| trackRefit | true if track was refitted to account for brem effects |
| bremD0 | transverse impact parameter (distance of closest approach) after EMBremFit |
| bremPhi0 | azimuth angle of the momentum at the point of closest approach after EMBremFit |
| bremInvpT | 1/pT estimate according to EMBremFit |
| bremZ0 | the z value at the point of closest approach after EMBremFit |
| bremDzDr | 1/tan(theta) of the track after EMBremFit |
| bremRadius | estimated brem radius from EMBremFit (mm) [x-y plane] |
| bremX | EMBremFit track impact in 2nd sampling - cluster distance (mm): Delta phi(EMBremFit track impact in 2nd sampling, cluster)*bremClusterRadius. |
| bremInvpTerr | error associated to 1/pT by EMBremFit |
| bremNR | number of R hits included in the EMBremFit |
| bremNZ | number of Z hits included in the EMBremFit |
| bremNTRT | |
| bremClusterRadius | |
| bremFitStatus | Minuit EMBremFit fit status. |
| bremErrorFlag | Flag to tell why the EMBremFit was not called. |
| bremFitChi2 | chi2 of EMBremFit |
| convTrackMatch | from EMConvert, true if a conversion is matched to the track associated to the cluster |
| convAngleMatch | from EMConvert, true if a conversion is matched within an angle of 0,05 to the cluster |
| zvertex | pointing z at vertex reconstructed from the cluster |
| errz | associated error on zvertex |
| etap | pointing eta reconstructed from the cluster (first and second sampling) |
| depth | pointing depth of the shower as calculated in egammaqgcld |
| etconoisedR04Sig2 | ET in a ring of dR<0,40 above 2 sigma from noise. |
| etconoisedR04Sig3 | ET in a ring of dR0,40 above 3 sigma from noise. |
| refittedTrack_d0 | transverse impact parameter (distance of closest approach) after Track Refit |
| refittedTrack_phi0 | azimuth angle of the momentum at the point of closest approach after Track Refit |
| refittedTrack_qOverP | 1/pT estimate according to Track Refit |
| refittedTrack_z0 | the z value at the point of closest approach after Track Refit |
| refittedTrack_theta | theta of the track after EMTrackFit |
| refittedTrack_Covd0d0 | Refitted track perigee covariance matrix item ( \( \dTrack0,\dTrack0 \)) |
| refittedTrack_Covd0z0 | Refitted track perigee covariance matrix item ( \( \dTrack_0,\zTrack_0 \)) |
| refittedTrack_Covd0phi | Refitted track perigee covariance matrix item ( \( \dTrack_0,\phiTrack_0 \)) |
| refittedTrack_Covd0theta | Refitted track perigee covariance matrix item (d0,theta) |
| refittedTrack_Covd0qOverP | Refitted track perigee covariance matrix item (d0,q/p) |
| refittedTrack_Covz0z0 | Refitted track perigee covariance matrix item (z0,z0) |
| refittedTrack_Covz0phi | Refitted track perigee covariance matrix item (z0,phi) |
| refittedTrack_Covz0theta | Refitted track perigee covariance matrix item (z0,theta) |
| refittedTrack_Covz0qOverP | Refitted track perigee covariance matrix item (z0,q/p) |
| refittedTrack_Covphiphi | Refitted track perigee covariance matrix item (phi,phi) |
| refittedTrack_Covphitheta | Refitted track perigee covariance matrix item (phi,theta) |
| refittedTrack_CovphiqOverP | Refitted track perigee covariance matrix item (phi,q/P) |
| refittedTrack_Covthetatheta | Refitted track perigee covariance matrix item (theta,theta) |
| refittedTrack_CovthetaqOverP | Refitted track perigee covariance matrix item (theta,q/P) |
| refittedTrack_CovqOverPqOverP | Refitted track perigee covariance matrix item (q/P,q/P) |
| refittedTrackLastM_loc1 | |
| refittedTrackLastM_loc2 | |
| refittedTrackLastM_phi | |
| refittedTrackLastM_theta | |
| refittedTrackLastM_qOverP | Last Measurment Surface q/pT estimate according to Track Refit. |
| hasBrem | The Number of brems identified by the track fitter. |
| bremDeltaQoverP | Fraction of the measured perigee momentum lost. |
| bremDeltaQoverPErr | Error on the fraction of energy lost. |
| bremMaterialTraversed | The amount of material traversed as seen by the track (in X0) |
| bremTrackAuthor | The author of the Refitted track. |
| refittedVertex_x | refitted vertex position (cartesian coordinates) |
| refittedVertex_y | |
| refittedVertex_z | |
| refittedVertex_Covxx | refitted vertex covariance matrix entries (cartesian coordinates) refitted vertex covariance item (x,x) |
| refittedVertex_Covxy | refitted vertex covariance item (x,y) |
| refittedVertex_Covxz | refitted vertex covariance item (x,z) |
| refittedVertex_Covyy | refitted vertex covariance item (y,y) |
| refittedVertex_Covyz | refitted vertex covariance item (y,z) |
| refittedVertex_Covzz | refitted vertex covariance item (z,z) |
| refittedVertex_chi2 | refitted vertex fit quality variables |
| refittedVertex_ndf | |
| refittedVertex_numTracks | |
| refittedVertex_track1_phi | refitted track global momentum after vertex fit |
| refittedVertex_track1_theta | |
| refittedVertex_track1_qOverP | |
| refittedVertex_track1_chi2 | refitted track chi2 after vertex fit |
| refittedVertex_track1_author | refitted track author |
| refittedVertex_track2_phi | refitted track global momentum after vertex fit |
| refittedVertex_track2_theta | |
| refittedVertex_track2_qOverP | |
| refittedVertex_track2_chi2 | refitted track chi2 after vertex fit |
| refittedVertex_track2_author | refitted track author |
| refittedVertex_Covphi1phi1 | refitted track covariance matrix and correlations with vertex position |
| refittedVertex_Covphi1theta1 | |
| refittedVertex_Covphi1qOverP1 | |
| refittedVertex_Covtheta1theta1 | |
| refittedVertex_Covtheta1qOverP1 | |
| refittedVertex_CovqOverP1qOverP1 | |
| refittedVertex_Covphi1phi2 | |
| refittedVertex_Covphi1theta2 | |
| refittedVertex_Covphi1qOverP2 | |
| refittedVertex_Covtheta1phi2 | |
| refittedVertex_Covtheta1theta2 | |
| refittedVertex_Covtheta1qOverP2 | |
| refittedVertex_CovqOverP1phi2 | |
| refittedVertex_CovqOverP1theta2 | |
| refittedVertex_CovqOverP1qOverP2 | |
| refittedVertex_Covphi1x | |
| refittedVertex_Covphi1y | |
| refittedVertex_Covphi1z | |
| refittedVertex_Covtheta1x | |
| refittedVertex_Covtheta1y | |
| refittedVertex_Covtheta1z | |
| refittedVertex_CovqOverP1x | |
| refittedVertex_CovqOverP1y | |
| refittedVertex_CovqOverP1z | |
| refittedVertex_Covphi2phi2 | |
| refittedVertex_Covphi2theta2 | |
| refittedVertex_Covphi2qOverP2 | |
| refittedVertex_Covtheta2theta2 | |
| refittedVertex_Covtheta2qOverP2 | |
| refittedVertex_CovqOverP2qOverP2 | |
| refittedVertex_Covphi2x | |
| refittedVertex_Covphi2y | |
| refittedVertex_Covphi2z | |
| refittedVertex_Covtheta2x | |
| refittedVertex_Covtheta2y | |
| refittedVertex_Covtheta2z | |
| refittedVertex_CovqOverP2x | |
| refittedVertex_CovqOverP2y | |
| refittedVertex_CovqOverP2z | |
| etringnoisedR03Sig2 | all energy in a ring : (0.1<DR<0.3) with energy > 2 sigma above noise |
| etringnoisedR03Sig3 | all energy in a ring : (0.1<DR<0.3) with energy > 3 sigma above noise |
| etringnoisedR03Sig4 | all energy in a ring : (0.1<DR<0.3) with energy > 4 sigma above noise |
| refittedVertex_Covd01d01 | |
| refittedVertex_Covd01z01 | |
| refittedVertex_Covd01phi1 | |
| refittedVertex_Covd01theta1 | |
| refittedVertex_Covd01qOverP1 | |
| refittedVertex_Covz01z01 | |
| refittedVertex_Covz01phi1 | |
| refittedVertex_Covz01theta1 | |
| refittedVertex_Covz01qOverP1 | |
| refittedVertex_Covd02d02 | |
| refittedVertex_Covd02z02 | |
| refittedVertex_Covd02phi2 | |
| refittedVertex_Covd02theta2 | |
| refittedVertex_Covd02qOverP2 | |
| refittedVertex_Covz02z02 | |
| refittedVertex_Covz02phi2 | |
| refittedVertex_Covz02theta2 | |
| refittedVertex_Covz02qOverP2 | |
| EMConvertedPhoton_d0 | From EMErrorDetail transverse impact parameter (distance of closest approach) |
| EMConvertedPhoton_phi0 | azimuth angle of the momentum at the point of closest approach |
| EMConvertedPhoton_Eclus | E estimate |
| EMConvertedPhoton_z0 | the z value of the converted photon |
| EMConvertedPhoton_theta | theta of the converted photon |
| EMConvertedPhoton_Covd0d0 | converted photon covariance matrix item ( \( \dTrack0,\dTrack0 \)) |
| EMConvertedPhoton_Covd0z0 | converted photon covariance matrix item ( \( \dTrack_0,\zTrack_0 \)) |
| EMConvertedPhoton_Covd0phi | converted photon covariance matrix item ( \( \dTrack_0,\phiTrack_0 \)) |
| EMConvertedPhoton_Covd0theta | converted photon covariance matrix item (d0,theta) |
| EMConvertedPhoton_Covd0Eclus | converted photon covariance matrix item (d0,E) |
| EMConvertedPhoton_Covz0z0 | converted photon covariance matrix item (z0,z0) |
| EMConvertedPhoton_Covz0phi | converted photon covariance matrix item (z0,phi) |
| EMConvertedPhoton_Covz0theta | converted photon covariance matrix item (z0,theta) |
| EMConvertedPhoton_Covz0Eclus | converted photon covariance matrix item (z0,E) |
| EMConvertedPhoton_Covphiphi | converted photon covariance matrix item (phi,phi) |
| EMConvertedPhoton_Covphitheta | converted photon covariance matrix item (phi,theta) |
| EMConvertedPhoton_CovphiEclus | converted photon covariance matrix item (phi,E) |
| EMConvertedPhoton_Covthetatheta | converted photon covariance matrix item (theta,theta) |
| EMConvertedPhoton_CovthetaEclus | converted photon covariance matrix item (theta,E) |
| EMConvertedPhoton_CovEclusEclus | converted photon covariance matrix item (E,E) |
| EMTrack_d0 | transverse impact parameter (distance of closest approach) |
| EMTrack_phi0 | azimuth angle of the momentum at the point of closest approach |
| EMTrack_Eclus | Cluster energy |
| EMTrack_z0 | the z value at the point of closest approach |
| EMTrack_theta | theta of the track |
| EMTrack_Covd0d0 | track perigee covariance matrix item ( \( \dTrack0,\dTrack0 \)) |
| EMTrack_Covd0z0 | track perigee covariance matrix item ( \( \dTrack_0,\zTrack_0 \)) |
| EMTrack_Covd0phi | track perigee covariance matrix item ( \( \dTrack_0,\phiTrack_0 \)) |
| EMTrack_Covd0theta | track perigee covariance matrix item (d0,theta) |
| EMTrack_Covd0Eclus | fitted track perigee covariance matrix item (d0,E) |
| EMTrack_Covz0z0 | track perigee covariance matrix item (z0,z0) |
| EMTrack_Covz0phi | track perigee covariance matrix item (z0,phi) |
| EMTrack_Covz0theta | track perigee covariance matrix item (z0,theta) |
| EMTrack_Covz0Eclus | track perigee covariance matrix item (z0,E) |
| EMTrack_Covphiphi | track perigee covariance matrix item (phi,phi) |
| EMTrack_Covphitheta | track perigee covariance matrix item (phi,theta) |
| EMTrack_CovphiEclus | track perigee covariance matrix item (phi,E) |
| EMTrack_Covthetatheta | track perigee covariance matrix item (theta,theta) |
| EMTrack_CovthetaEclus | track perigee covariance matrix item (theta,E) |
| EMTrack_CovEclusEclus | track perigee covariance matrix item (E,E) |
| EMPhoton_eta | photon eta |
| EMPhoton_phi0 | photon phi |
| EMPhoton_Eclus | photon energy |
| EMPhoton_Covetaeta | covariance matrix photon (eta, eta) |
| EMPhoton_Covetaphi | covariance matrix photon (eta, phi) |
| EMPhoton_CovetaEclus | covariance matrix photon (eta, E) |
| EMPhoton_Covphiphi | covariance matrix photon (phi, phi) |
| EMPhoton_CovphiEclus | covariance matrix photon (phi, E) |
| EMPhoton_CovEclusEclus | covariance matrix photon (E, E) |
| linkIndex | link index for multiple track and vertex matches |
| ptcone30 | summed pt of tracks in a cone with half-opening angle 0.3 |
| EMConvertedPhoton_eta | the eta of the converted photon |
| EMConvertedPhoton_momentum | momentum of the converted photon |
| EMTrack_eta | the eta of the track |
| EMTrack_momentum | track momentum |
| deltaPhiFromLastMeasurement | difference between the cluster phi (sampling 2) and the eta of the track extrapolated from the last measurement point. |
| deltaPhiRescaled | difference between the cluster phi (sampling 2) and the phi of the track extrapolated from the perigee with a rescaled momentum. |
| etaSampling1 | eta position at sampling 1 for track extrapolated from the last hit. |
| extrapMethod | enum to indicate which track extrapolation method was used for track match |
| EMTrack_Combined_Covd0d0 | track combined covariance matrix item (do,d0) |
| EMTrack_Combined_Covd0z0 | track combined covariance matrix item (d0,z0) |
| EMTrack_Combined_Covd0phi | track combined covariance matrix item (d0,phi) |
| EMTrack_Combined_Covd0eta | track combined covariance matrix item (d0,eta) |
| EMTrack_Combined_Covd0P | fitted track combined covariance matrix item (d0,P) |
| EMTrack_Combined_Covz0z0 | track combined covariance matrix item (z0,z0) |
| EMTrack_Combined_Covz0phi | track combined covariance matrix item (z0,phi) |
| EMTrack_Combined_Covz0eta | track combined covariance matrix item (z0,eta) |
| EMTrack_Combined_Covz0P | track combined covariance matrix item (z0,P) |
| EMTrack_Combined_Covphiphi | track combined covariance matrix item (phi,phi) |
| EMTrack_Combined_Covphieta | track combined covariance matrix item (phi,eta) |
| EMTrack_Combined_CovphiP | track combined covariance matrix item (phi,P) |
| EMTrack_Combined_Covetaeta | track combined covariance matrix item (eta,eta) |
| EMTrack_Combined_CovetaP | track combined covariance matrix item (eta,P) |
| EMTrack_Combined_CovPP | track combined covariance matrix item (P,P) |
| convMatchDeltaEta1 | |
| convMatchDeltaPhi1 | |
| convMatchDeltaEta2 | |
| convMatchDeltaPhi2 | |
| convMatchDeltaEta1_refit | |
| convMatchDeltaPhi1_refit | |
| convMatchDeltaEta2_refit | |
| convMatchDeltaPhi2_refit | |
| hasSiliconHits | |
| trackd0_physics | transverse impact parameter with respect beam spot |
| trackd0_pv | transverse impact parameter with respect to primary vertex |
| EtaExtraps0 | eta of the track extrapolated to the presampler |
| EtaExtraps1 | eta of the track extrapolated to the 1st sampling |
| EtaExtraps2 | eta of the track extrapolated to the 2nd sampling |
| EtaExtraps3 | eta of the track extrapolated to the 3rd sampling |
| PhiExtraps0 | phi of the track extrapolated to the presampler |
| PhiExtraps1 | phi of the track extrapolated to the 1st sampling |
| PhiExtraps2 | phi of the track extrapolated to the 2nd sampling |
| PhiExtraps3 | phi of the track extrapolated to the 3rd sampling |
| deltaPhiRot | rotation of the track in the magnetic field: difference between the phi direction of the track at the perigee and the phi of the track position extrapolated to sampling 2 |
| etcone15 | ET in a cone with half-opening angle 0.15, with exclusion of a window of size 7x5 in electromagnetic calorimeter and exclude CaloSampling::TileGap3. |
| etcone25 | ET in a cone with half-opening angle 0.25, with exclusion of a window of size 7x5 in electromagnetic calorimeter and exclude CaloSampling::TileGap3. |
| etcone35 | ET in a cone with half-opening angle 0.35, with exclusion of a window of size 7x5 in electromagnetic calorimeter and exclude CaloSampling::TileGap3. |
| expectHitInBLayer | expectHitInBLayer (set to 1 if true) |
| PhiRescaled0 | PhiRescaled to the presampler. |
| PhiRescaled1 | PhiRescaled to the 1st sampling (strips) |
| PhiRescaled2 | PhiRescaled to the 2nd sampling. |
| PhiRescaled3 | PhiRescaled to the 3rd sampling. |
| ptcone20 | summed pt of tracks in a cone with half-opening angle 0.2 (no zvx cut photons, 1mm electrons) |
| ptcone40 | summed pt of tracks in a cone with half-opening angle 0.4 |
| nucone20 | number of tracks in a cone with half-opening angle 0.2 |
| nucone30 | number of tracks in a cone with half-opening angle 0.2 |
| nucone40 | number of tracks in a cone with half-opening angle 0.2 |
| ambiguityResult | ambiguity resolultion result, electron/photon |
| etcone15_ptcorrected | pT-leakage corrections applied to ET in a cone with half-opening angle 0.15 |
| etcone20_ptcorrected | pT-leakage corrections applied to ET in a cone with half-opening angle 0.20 |
| etcone25_ptcorrected | pT-leakage corrections applied to ET in a cone with half-opening angle 0.25 |
| etcone30_ptcorrected | pT-leakage corrections applied to ET in a cone with half-opening angle 0.30 |
| etcone35_ptcorrected | pT-leakage corrections applied to ET in a cone with half-opening angle 0.35 |
| etcone40_ptcorrected | pT-leakage corrections applied to ET in a cone with half-opening angle 0.40 |
| deltaPhiLast | deltaPhi from the las point |
| topoetcone20 | Topo cluster ET in a cone with half-opening angle 0.20. |
| topoetcone30 | Topo cluster ET in a cone with half-opening angle 0.30. |
| topoetcone40 | Topo cluster ET in a cone with half-opening angle 0.30. |
| topoetcone40_ptcorrected | Topo cluster pT-leakage corrections applied to ET in a cone with half-opening angle 0.40. |
| topoetcone40_corrected | Topo cluster pT-leakage + ED corrections applied to ET in a cone with half-opening angle 0.40. |
| etconoisedR02SigAbs2 | ET in a ring of dR<20, cell abs(ET) above 2 sigma from noise. |
| etconoisedR02SigAbs3 | ET in a ring of dR<20 cell abs (ET) above 3 sigma from noise. |
| etconoisedR03SigAbs2 | ET in a ring of dR<30, cell abs(ET) above 2 sigma from noise. |
| etconoisedR03SigAbs3 | ET in a ring of dR<30 cell abs (ET) above 3 sigma from noise. |
| etconoisedR04SigAbs2 | ET in a ring of dR<40, cell abs(ET) above 2 sigma from noise. |
| etconoisedR04SigAbs3 | ET in a ring of dR<40 cell abs (ET) above 3 sigma from noise. |
| etringnoisedR04Sig2 | all energy in a ring : (0.1<DR<0.4) with energy > 2 sigma above noise |
| etringnoisedR04Sig3 | all energy in a ring : (0.1<DR<0.4) with energy > 3 sigma above noise |
| etringnoisedR02SigAbs2 | all energy in a ring : (0.1<DR<0.2) with abs(energy) > 2 sigma above noise |
| etringnoisedR02SigAbs3 | all energy in a ring : (0.1<DR<0.2) with abs(energy) > 3 sigma above noise |
| etringnoisedR03SigAbs2 | all energy in a ring : (0.1<DR<0.3) with abs(energy) > 2 sigma above noise |
| etringnoisedR03SigAbs3 | all energy in a ring : (0.1<DR<0.3) with abs(energy) > 3 sigma above noise |
| etringnoisedR04SigAbs2 | all energy in a ring : (0.1<DR<0.4) with abs(energy) > 2 sigma above noise |
| etringnoisedR04SigAbs3 | all energy in a ring : (0.1<DR<0.4) with abs(energy) > 3 sigma above noise |
| etcone20_corrected | pT-leakage + ED corrections applied to ET in a cone with half-opening angle 0.20 |
| etcone30_corrected | pT-leakage + ED corrections applied to ET in a cone with half-opening angle 0.30 |
| etcone40_corrected | pT-leakage + ED corrections applied to ET in a cone with half-opening angle 0.40 |
| ptcone20_zpv05 | summed pt of tracks in a cone with half-opening angle 0.2, |zpv| < 5mm |
| ptcone30_zpv05 | summed pt of tracks in a cone with half-opening angle 0.2, |zpv| < 5mm |
| ptcone40_zpv05 | summed pt of tracks in a cone with half-opening angle 0.2, |zpv| < 5mm |
| nucone20_zpv05 | number of tracks in a cone with half-opening angle 0.2, |zpv| < 5mm |
| nucone30_zpv05 | number of tracks in a cone with half-opening angle 0.2, |zpv| < 5mm |
| nucone40_zpv05 | number of tracks in a cone with half-opening angle 0.2, |zpv| < 5mm |
| trackd0sigma_physics | transverse impact parameter with respect beam spot |
| trackd0sigma_pv | transverse impact parameter with respect to primary vertex |
| lastEgammaParam | |
Definition at line 99 of file egammaParamDefs.h.
| const unsigned int egammaParameters::AuthorCaloTopo35 =0x80 |
Photon reconstructed by SW CaloTopo35 seeded clusters.
Definition at line 76 of file egammaParamDefs.h.
| const unsigned int egammaParameters::AuthorElectron =0x1 |
Electron reconstructed by standard cluster-based algorithm.
Definition at line 62 of file egammaParamDefs.h.
| const unsigned int egammaParameters::AuthorFrwd =0x8 |
Electron reconstructed by the Forward cluster-based algorithm.
Definition at line 68 of file egammaParamDefs.h.
| const unsigned int egammaParameters::AuthorPhoton =0x4 |
Photon reconstructed by standard cluster-based algorithm.
Definition at line 66 of file egammaParamDefs.h.
| const unsigned int egammaParameters::AuthorRConv =0x10 |
Photon that is duplicated with electron.
Definition at line 70 of file egammaParamDefs.h.
| const unsigned int egammaParameters::AuthorSofte =0x2 |
Electron reconstructed by the track-based algorithm.
Definition at line 64 of file egammaParamDefs.h.
| const unsigned int egammaParameters::AuthorTrigElectron =0x20 |
trigger Electrons
Definition at line 72 of file egammaParamDefs.h.
| const unsigned int egammaParameters::AuthorTrigPhoton =0x40 |
trigger Photons
Definition at line 74 of file egammaParamDefs.h.
| const unsigned int egammaParameters::AuthorUnknown =0x0 |
| const double egammaParameters::EgParamUndefined = -999. |
Definition at line 78 of file egammaParamDefs.h.
1.8.18