Difference between revisions of "CASE/C-AD seminars for graduate students and postdocs"

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==Goals==
 
==Goals==
  
The main goal of the CASE seminars is to provides a venue where grad students and postdocs can get together, learn about each others' research and open their scientific horizons in general. The seminars will be a mix of student’s and postdoc’s presentations of their recent results, dry runs of conference presentations, reviews of journal articles, visits to BNL accelerators and testing areas and occasional invited presentations by senior scientists from BNL and SBU.
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The main goal of the CASE seminars is to provide a venue where grad students and postdocs can get together, learn about each others' research and open their scientific horizons in general. The seminars will be a mix of student’s and postdoc’s presentations of their recent results, dry runs of conference presentations, reviews of journal articles, visits to BNL accelerators and testing areas and occasional invited presentations by senior scientists from BNL and SBU.
  
 
==Schedule==
 
==Schedule==

Revision as of 22:14, 7 March 2016

Goals

The main goal of the CASE seminars is to provide a venue where grad students and postdocs can get together, learn about each others' research and open their scientific horizons in general. The seminars will be a mix of student’s and postdoc’s presentations of their recent results, dry runs of conference presentations, reviews of journal articles, visits to BNL accelerators and testing areas and occasional invited presentations by senior scientists from BNL and SBU.

Schedule

The seminars are held every other Tuesday, from 4:30 to 5:30 pm in the RHIC Main Control Room meeting area (bldg. 911B, 2nd floor) at BNL.

Season 2016

  • March 1, 2016: Beam Dynamics Studies for Coherent Electron Cooling Experiment by Yuan Wu (SBU/BNL).
    • 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 (SBU/BNL).
  • February 23, 2016: informative meeting.

Season 2014

Coordinators: Prof. Sergey Belomestnykh and Dr. Qiong Wu.

Other seminars

  • March 10, 2016: OSTI dedicated meeting to students and postdocs to present their tools and services. Venue: Thursday, March 10, 2016 in Bldg. 467 - Room 157 (seminar room in Biology building) at BNL.
  • February 23, 2016: Proposal & Grant Writing Presentation for Students and Postdocs organized by BNL. Venue: Tuesday, February 23, 2016 in RSB 1 & 2 in Bldg. 400 at BNL.

Literature

Collection of papers and talks on Accelerator Physics & Technology and beyond:

Accelerator Facilities

Beam Cooling

RF Cavities

Superconductivity

Other fields


N.B. Some links may only work inside the BNL network.

Contact person

Please send your questions and suggestions to Silvia Verdú-Andrés