Difference between revisions of "Wednesday July 24, 2013"
Jump to navigation
Jump to search
| Line 15: | Line 15: | ||
[[File:130724_5D_beamline.jpg|none|200px|200px|alt=5D beam line]] | [[File:130724_5D_beamline.jpg|none|200px|200px|alt=5D beam line]] | ||
| − | 3- | + | 3- Background and simulation |
| − | 4 | + | 4- Absolute beam energy |
| − | |||
| − | |||
* One slide on beam momentum [[Media:130724_Bubble_Grames.pdf]] | * One slide on beam momentum [[Media:130724_Bubble_Grames.pdf]] | ||
| − | + | 5- Safety | |
Revision as of 14:47, 1 August 2013
We will meet in TED 2561B on Wednesday July 24 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_24July_2013.pdf media:Meeting_24July_2013.pptx
1- Schedule
2- Design of beamline, radiator and dump
- Experiment beam line today is presently decommissioned, ready for modification:
3- Background and simulation
4- Absolute beam energy
- One slide on beam momentum Media:130724_Bubble_Grames.pdf
5- Safety
Notes from this meeting:
- Radiator:
- The power deposited in the radiator for 200 uA and 8.5 MeV electron beam: for 0.02 mm radiator, average energy loss is about 24 keV, P = 4.8 W for 0.10 mm radiator, average energy loss is about 120 keV, P = 24 W re-evaluate radiator cooling what is the temperature of the LCW that will be used to cool the radiator? what is the minimum allowed spot size on radiator. Do we need a raster? Typical sizes are about 1-2 mm sigma - On the radiator ladder, we should have a viewer and preferable a YAG viewer to check the beam size - Need a camera to look at the OTR light coming from the radiator - What is the energy distribution of the electron beam after radiator
- Beamline:
- Need a layout of the beam line. Where is the location of the radiator on the beam line? - Need a HARP in the new Bubble Chamber line to measure beam profile and energy spread - Where to put the electron dump (2-ft cube footprint)? Injector floor or on the Step - Electron dump must be of pure copper, contaminants must have high photo-neutron threshold (>8.5 MeV) - Photon dump must be of pure 1100 aluminum
- Beam Energy:
- Goal: absolute beam energy uncertainty of 0.1% - Need new dipole with better field uniformity - New power supply. What are specs on this supply? Must have an EPICS driver - Put mu metal on all beam pipes
- Safety:
- The sweep dipole must be in FSD to protect the exit window - There will be about 500 ml of mercury used as a buffer liquid in the chamber
- Simulation and Backgrounds:
- Send Claudio the GEANT4 photon spectra - Calculate the systematic errors due to absolute beam energy uncertainty with full error propagation in Penfold-liess unfolding - Consider the beam energy spread in Penfold-liess unfolding - Find the background contribution from the reaction 17O(γ,n)16O and subsequent neutron elastic scattering with 16O and 14N nuclei - How 17O(γ,n) compares to 13C(γ,n)?
- Infrastructure:
- The chamber weighs about 600 lb and comes with a compressor (3.5 ft by 3.5 ft footprint), a chiller (10 C) and an electronics rack - What is the clearance between the wall and the Laser Room in the Injector? 4.0 ft - Distance from center of beam pipe and injector floor: 42 inches - Distance from center of beam pipe and Step: 27 inches - Need 208 VAC outlet - Need a layout of the compressor and electronics platforms
- There is a possibility of a HIgS run next Spring
- Need Bubble Chamber cost estimate: procurement and labor
- We will meet every two weeks on Wednesdays at 3:00 to 5:00 EST
- Running at FEL pros and cons? Must compile a complete list
Pros: - No other users - 9.5 MeV Injector (with field emission) Cons: - completely new beam line