Difference between revisions of "CASE:Events"

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(2016 CASE seminars)
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=== Calendar ===
 
=== Calendar ===
 
==== 2016 CASE seminars ====
 
==== 2016 CASE seminars ====
* Tuesday, February 23 at 16:30h. in the BNL RHIC Main Control Room.
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* '''Meeting on February 23''' at 16:30h in the BNL RHIC Main Control Room
 
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* '''Seminar on March 1''' at 16:30h in the BNL RHIC Main Control Room
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** '''Speaker''': Yuan Wu
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** '''Title''': ''Beam Dynamics Studies for Coherent Electron Cooling Experiment''
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** '''Abstract''': Coherent electron Cooling (CeC) is a proposed advanced beam cooling method that has the potential of reducing the ion beam emittance in significantly shorter amount of time compared to existing cooling methods. The newly constructed linear electron accelerator (Linac) for the CeC experiment needs to generate electron beam with the required properties in order to maximize the CeC cooling capacity. In this thesis, the author studied the beam dynamics of the CeC linac and simulated the electron beam using beam dynamics tracking code. By utilizing optimization algorithms and beam manipulation techniques, the author has explored the performance of the current CeC Linac. The author ran an end-to-end simulation to model the entire beam line from the generation of electron beam from photocathode to the transport of electron beam to the CeC Free Electron Laser (FEL) section. The results have shown many aspects of the current CeC Linac and would be beneficial to future operation, research and development.
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** '''Discussion facilitator''': Jun Ma
  
 
==== Other seminars ====
 
==== Other seminars ====

Revision as of 22:32, 29 February 2016

Graduate and Postdoctoral Seminars

Calendar

2016 CASE seminars

  • Meeting on February 23 at 16:30h in the BNL RHIC Main Control Room
  • Seminar on March 1 at 16:30h in the BNL RHIC Main Control Room
    • Speaker: Yuan Wu
    • Title: Beam Dynamics Studies for Coherent Electron Cooling Experiment
    • Abstract: Coherent electron Cooling (CeC) is a proposed advanced beam cooling method that has the potential of reducing the ion beam emittance in significantly shorter amount of time compared to existing cooling methods. The newly constructed linear electron accelerator (Linac) for the CeC experiment needs to generate electron beam with the required properties in order to maximize the CeC cooling capacity. In this thesis, the author studied the beam dynamics of the CeC linac and simulated the electron beam using beam dynamics tracking code. By utilizing optimization algorithms and beam manipulation techniques, the author has explored the performance of the current CeC Linac. The author ran an end-to-end simulation to model the entire beam line from the generation of electron beam from photocathode to the transport of electron beam to the CeC Free Electron Laser (FEL) section. The results have shown many aspects of the current CeC Linac and would be beneficial to future operation, research and development.
    • Discussion facilitator: Jun Ma

Other seminars

Material

Talks

Papers

Superconductivity
Other fields

Upcoming Conferences/Workshop