Revision as of 15:29, 23 July 2018

General Occupancy

The occupancy measures the number of particles interactions per a detector cell per an event. For the CLAS12 drift chamber, there are 112 wires on each layer, with 12 layers within a region, giving 1344 cells. This can simply be defined as the "Unweighted Occupancy" for the CLAS12 DC and follows the equation:

Unweighted CLAS12 DC Occupancy

$\equiv \frac{N_{hits}}{N_{evts}N_{cells}}$

where

$N_{hits}\equiv$ The number of DC wires intersected by primary and secondary events throughout the drift chamber in Region 1

$N_{evt} \equiv \phi \times Prob(interacting)$

$\phi \equiv$ Number of incident particles on the face of drift chamber per cm

$^2$

$N_{cells} \equiv 112 \frac{wires}{layer} \times 12 \frac{layers}{Region}$

CLAS12 DC Occupancy

The registering of a "hit" takes a finite time in which the detector and its associated electronics are not able to register an additional signal if it occurs. This time window is known as the "dead time" during which only limited events are registered. For Region 1:

$\Delta t \equiv$ 250 ns: The time needed for events to be read by the electronics within Region 1

Since the events are simulated outside the dead time constraints of the DC, we can factor in the number of event windows that occur by dividing the dead time window per region by the time that would have been required to produce the number of incident electrons given a known current.

$t_{sim} \equiv$ Time of simulation =

$\frac{N_{incident}}{I(A)}\frac{1A}{1C}\frac{1s}{}\frac{1.602E-19\ C}{1\ e^{-}}$

Weighted Hits Occupancy

When applying the Moller differential cross-section as a weight, this gives the "Weighted Occupancy" as:

Weighted CLAS12 DC occupancy

$\equiv \frac{N_{hits}}{N_{evt}}\frac{\Delta t}{t_{sim}}\frac{1}{112}\frac{1}{12}$

Using the definition of the cross-section:

$\sigma \equiv \frac{N_{scattered}}{\mathcal L t}=\frac{N_{scattered}}{\Phi \rho l t}$

where the flux is defined as:

$\Phi \equiv \frac{Number\ of\ e^{-}}{s}$

Making some assumptions that the flux can be taken over an same time range as the time found in the cross-section, which allows

$\Phi \approx N_{incident}$

For a LH2 target of length 5cm.

$\rho_{target}\times l_{target}=\frac{70.85 kg}{1 m^3}\times \frac{1 mole}{2.02 g} \times \frac{1000g}{1 kg} \times \frac{6.022\times10^{23} molecules\ LH_2}{1 mole} \frac{2 atoms}{1\ molecule\ LH_2} \times \frac{1m^3}{(100 cm)^3} \times \frac{5 cm}{ }=\frac{2.11\times 10^{23}}{cm^2} \times \frac{1^{-24} cm^{2}}{barn}=0.211 barns^{-1}$

Additionally, for Moller Scattering, we can assume that almost 100% of the incident electrons occur as events.

$N_{incident}=N_{evt}$

This allows us to rewrite the cross-section expression as,

$\sigma \frac{N_{scattered}}{\Phi \rho l}\Rightarrow N_{evt}=\sigma N_{incident} \rho l$

Since the expression for the differential cross-section for Moller Scattering is well know, we can solve for the minimum angle detected by the DC (5 degrees in Theta).

$(\theta=5^{\circ}) \frac{d\sigma}{d\Omega}=\frac{\frac{N_{scattered}}{solid\ angle}}{\frac{N_{incident}}{area}}$

@@ Line 1: / Line 1: @@
+=General Occupancy=
 The occupancy measures the number of particles interactions per a detector cell per an event.  For the CLAS12 drift chamber, there are 112 wires on each layer, with 12 layers within a region, giving 1344 cells.  This can simply be defined as the "Unweighted Occupancy" for the CLAS12 DC and follows the equation:
@@ Line 22: / Line 23: @@
+=CLAS12 DC Occupancy=
 The registering of a "hit" takes a finite time in which the detector and its associated electronics are not able to register an additional signal if it occurs.  This time window is known as the "dead time" during which only limited events are registered.  For Region 1:
@@ Line 33: / Line 34: @@
+==Weighted Hits Occupancy==
 When applying the Moller differential cross-section as a weight, this gives the "Weighted Occupancy" as:

Difference between revisions of "Defining Occupancy"

Revision as of 15:29, 23 July 2018

General Occupancy

CLAS12 DC Occupancy

Weighted Hits Occupancy

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