Wednesday August 7, 2013

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We will meet in TED 2561B on Wednesday August 7 at 3:00 pm EST.

For those calling in we'll use the ReadyTalk audio conference system.

1. Dial Toll-Free Number: 866-740-1260 (U.S. & Canada)
2. Enter 7-digit access code 4402297, followed by “#”

Agenda:

 media:Meeting_7August_2013.pdf
 media:Meeting_7August_2013.pptx  

1- Bubble Chamber progress at Argonne

2- Beam Heating in Cu Radiator media:Beam_Heating_in_Cu_Radiator.pptx media:Beam_Heating_in_Cu_Radiator.pdf

3- Beamline Layout

4- Bubble Chamber cost estimate: procurement and labor

5- Background from 17O(γ,n)16O and subsequent neutron elastic scattering with 16O and 14N nuclei

6- Background from 13C(γ,n)12C (in case we decide to use CO2 instead of N2O)



Notes from this meeting:

  • Beamline Layout:
- Need a Faraday Cup on the Bubble Chamber beamline, after the second BPM and before the radiator
- On the main beamline, FC2 is a 1 kW dump (200 µA and 5 MeV)
- PEPPo took positron data with Quads OFF and electron data with Quads ON
- The Bubble Chamber experiment needs electron beam with KINETIC ENERGY = 8.5 MeV
- At Jefferson Lab, an egress has a minimum clearance of 36 inches
- We can use two Super Harps instead of the two Quads. Unfortunately, the accelerator does not have Super Harps, 
and it costs $10,000 each. 
- Electron Dump: isolated to measure beam current, 2 kW
- Plan to have both BCM0L02 and Electron Dump in Beam Loss Accounting (BLA)
- The photon Cu collimator has a hole of about 1.0 cm diameter
- The only Fast Valve in the Injector is located just downstream of the Injector Gate (VFV0L04).
- Fast Valve closes in 30 ms and comes with its own vacuum gauge that can be installed separately on the beamline.
The trip level is adjustable - normally around 3x10-9 Torr.
- The Fast Valve and its electronics cost $10,000 
  • Cost:
- Procurement overhead is 25% and for labor it is 1.50
  • Simulations and Backgrounds:
- Try to distinguish between (γ,α) and (γ,n) events using the acoustic signal. The acoustic signal may help to
reduce (γ,n) by a factor of 10 to 100
- Full GEANT4 model of the experiment. What is the photon flux? What is the size of the photon collimator? 
What is the sensitivity to misalignment? What is the allowed beam size on radiator? ...
- Full FLUKA model of the experiment. What is the photon flux? Calculate neutron background