Monte Carlo distributions.
These are distributions of quantities stored in the full MC tree.
General Quantities:
Histogram |
Description |
---|---|
PARTCOUNTMC |
number of McParticles |
INTCOUNTMC |
Number of integrating hits |
POSCOUNTMC |
Number of Position hits |
MC Particle quantities:
Histogram |
Description |
---|---|
ENERGYMC |
Inital energy of each MC particle (recently changed to just |
MCTERMZ |
Final z position of each MC particle. |
MCX |
Initial x position of each MC particle. |
MCY |
Initial y position of each MC particle. |
MCPARTBITS |
MC particle status bits (do we really need this?) |
MC position hits:
Histogram |
Description |
---|---|
POSENERGYDEP |
Deposited energy of each position hit. |
POSMCTYPE |
Particle id for each position hit (is this the particle id |
POSMCZ |
z of position hit. |
POSMCTKRTRAY |
The tracker tray number that contains each position hit. |
MC Integrating hits:
At the moment INTCOUNTMC is all integrating hits, all the
other integrating hit distributions only consider hits in the Cal.
At the moment all integrating hits are hits in the Cal.
Histogram |
Description |
---|---|
INTENERGYDEPCAL |
energy of each single integrating hit in the Cal |
INTSEGMENT |
Segment number of Cal integrating hit (each xtal |
INTMOMPOS |
Position calculated from segment and moment. I am |
INTENERGYTOT |
Total energy deposited in active volumes in the Cal. |
Trigger related distributions:
These are obtained from evt->getL1T();
Histogram |
Description |
---|---|
TRGBITS |
Trigger bit that were set. |
TRGWORD |
Trigger word |
Digitization Quantities
Cal Digi Distributions:
These are obtained from the digi root tree.
Histogram |
Description |
---|---|
CALDIGICOUNT |
The number of CAL digis in each event. |
CALADC |
The ADC value from both faces of each xtal. |
CALADCN |
The ADC value from negetive face of each xtal. |
CALADCP |
The ADC value from positive face of each xtal. |
CALRANGE |
The range for each xtal end. There are 4, high and |
CALEAVE |
Sum of the ADC on each face/2. We are not accounting for the different ranges here, so this does not quite |
CALEAVETOTAL |
This is the sum of all the CALEAVE for each event. We should make this be the actual digi energy. This will not be the same as theMC integrating hit total energy because we should see the effect of noise and direct hits to diodes. |
CALLAYER |
The layer (in the Cal) of this digi. |
CALTOWER |
The tower of this digi. |
CALCOLUMN |
The column of this digi. |
CALNLAYERx |
The number of cal digi hits in layer x |
CALELAYERx |
The sum of CALEAVE in layer x |
ACD Digi Distributions:
These are obtained from the digi root tree.
Histogram |
Description |
---|---|
ACDDIGICOUNT |
The number of ACD digis. |
ACDADC |
The ADC value of each hit pmt in the ACD. |
ACDADCTOT |
The sum of ADC values over all pmts. |
Reconstruction quantities
Tracker Recon distributions:
The prefix TKR means that the distribution come from TkrRecon in the
recon root tree. If the prefix is TKRTRK then the distribution is for
all tracks. If the prefix is TKRHIT then the distribution is filled in
a loop over all recon hits (this is a loop over all tracks and all hits
with each track – so hits can be counted more than once). If the prefix
is TKRVTX then the distribution is for all vertices in each event.
Histogram |
Description |
---|---|
TKRNUMTRACKS |
The number of fit tracks per event. |
TKRNUMVERTICES |
The number of vertices per event. |
TKRTRKNHITS |
The number of hits per track. |
TKRTRKQUALITY |
The track quality. |
TKRTRKSTARTZ |
The z position of the first hit of each track. |
TKRTRKSTARTX |
The x position of the first hit of each track. |
TKRTRKSTARTY |
The y position of the first hit of each track. |
TKRTRKSLOPEX |
The x slope of each track. |
TKRTRKSLOPEY |
The y slope of each track. |
TKRTRKENERGY |
The track energy (track->getKalEnergy) |
Cal Recon distributions:
Histogram |
Description |
---|---|
CALCLUSCOUNT |
The number of reconstructed clusters |
CALRMSTRANS |
The spread of each cluster in the transverse direction. |
CALRMSLONG |
The spread of each cluster in the longitudinal direction. |
CALTRANSVOFFSET |
The ransverse offset of average position in the calorimeter with respect to the position predicted from tracker information |
CALXPOS |
Cal Cluster x position |
CALYPOS |
Cal Cluster y position |
CALZPOS |
Cal Cluster z position |
CALDRC |
Cal Cluster direction cosine |
CALRECESUM |
Raw energy sum. This should be renamed CalEnergySum |
CALRECELEAK |
This should be renamed CALENERGYLLCORR |
CALRECECORR |
Energy from CalValsTool. This should be renames CALENERGYCORR |
CALRECEFIT |
Profile fit corrected energy |
ACD Recon Distributions:
Histogram |
Description |
---|---|
ACDTILECOUNT |
Number of hit tiles. |
ACDENERGY |
Total Energy deposited in the ACD (not including ribbons?) |
ACDDOCA |
Minimum distance between a track and the center of all ACD tiles. |
ACDACTDIST |
Minimum distance between a track and the edges of ACD tiles. |
ACDGAMMADOCA |
Distance of vertex extrapolation to the center of the closest tile |
Ntuple-derived histograms
Variables which have a name that is a mixture of upper and lower case
letters are drawn from the merit tuple, which is documented
elsewhere. Some cuts have been applied to clean the
distributions. "GltWord > 3 && TkrNumTracks>0" for all
distributions. There is an additional cut of "CalEnergySum>0.5" for
CalEnergyCorr, CalEnergyLLCorr, EvtMcEnergySigma, EvtEnergySumOpt,
Tkr1PhiErr and Tkr1ThetaErr. These cuts, and the choice of distributions
is still under review.