Difference between revisions of "Meeting 31 October 2017"

Latest revision as of 08:47, 22 November 2017

PRESENTATIONS

Simulation Update (Jixie)

NOTES

SIMULATIONS

Discussion of Jixie's results based on Bogdan's model - note that at the time of the meeting prompt radiation results were not yet available and that target had not yet been implemented

Need to know what the extra contribution from CPS is compared to target alone - if source contributes 10%, then could consider CPS optimized
Next step: optimization of shielding - can we make it thinner?

Specify radiation at pivot where detector (closest approach is 2 meters from the pivot) and materials are

6-POINT LIST FOR PREPARING CPS TECHNICAL NOTE (p. 1-21)

Raster is 2mm x 2mm (requires polarized target rotation)
Magnet pole is shaped to boost the B field to 3.2 T - length reduction, which leads to a better front shield and wedged absorber
Central absorber of Cua has 1.9x better heat conductivity, 4.2x longer radiation length than the W-Cu(20%) alloy
W-powder external shield (16g/cm^3 density) for better shielding
Gradually "stepped" opening of the beam line for radiation leak reduction
Shielding requirement logic: the radiation from the source should be a few times lower than from the photon beam interaction with the material of a polarized target

a very rough projection of radiation in the hall due to photon beam and target interaction based on RCS data from 2002 is presented - caveat is that the experimental conditions may not be the ideal comparison for the simulation, but may give ballpark guidance

GEANT4 MODEL (GEMC FRAMEWORK) SIMULATION (p. 22ff)

yellow volume on page 24: TOSCA model, rectangle, then eliminate all magnetic material
most trajectories of 11 GeV electrons are confined to volume - visually looks ok
working on heat deposition

COLLABORATION MEETING

The preliminary agenda is presented, fits generally after the Hall C meeting on Tuesday, waiting for Thia for confirmation if NPS meeting can start at 3pm

NEXT MEETING: TUESDAY, 22 NOVEMBER 2017 AT 3:00PM (EST)

@@ Line 1: / Line 1: @@
-PRESENTATIONS
+'''PRESENTATIONS'''
 [https://wiki.jlab.org/cuawiki/images/1/11/Jixie_CPS_Oct31-2017.pdf Simulation Update (Jixie)]
@@ Line 7: / Line 7: @@
-NOTES
+'''NOTES'''
 SIMULATIONS
@@ Line 14: / Line 14: @@
 * Next steps for simulation studies
-::# Prompt radiation - quantify damage (in mrem) with and without source
+::* Prompt radiation - quantify damage (in mrem) with and without source
 ::::* Need to know what the extra contribution from CPS is compared to target alone - if source contributes 10%, then could consider CPS optimized
 ::::* Next step: optimization of shielding - can we make it thinner?
-::# Specify radiation at pivot where detector (closest approach is 2 meters from the pivot) and materials are
+::* Specify radiation at pivot where detector (closest approach is 2 meters from the pivot) and materials are
 ::::* Required filling out space with appropriate materials
-::# Run flux of photons through target and see what get for pure photon source
+::* Run flux of photons through target and see what get for pure photon source
-::# Implement polarized target magnet
+::* Implement polarized target magnet
@@ Line 47: / Line 47: @@
-NEXT MEETING: TUESDAY, 22 NOVEMBER 2017 AT 3:00PM (EST)
+'''NEXT MEETING: TUESDAY, 22 NOVEMBER 2017 AT 3:00PM (EST)'''