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= Center for Accelerator Science and Education =
 
= Center for Accelerator Science and Education =
This fall we teach [[PHY564_fall_2017|'''PHY 564Advanced  Accelerator Physics''']]
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This Fall we teach [[PHY554_fall_2018|'''Fall: PHY 554, Fundamentals of Accelerator Physics''']]  
This course can be of interest for High Energy and Nuclear Physics students and
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those using synchrotron radiation
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Talks at: [[CASE/C-AD seminars for graduate students and postdocs|'''CASE seminars for graduate students and postdocs''']]  
See [[CASE/C-AD seminars for graduate students and postdocs]]  
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The main goals of CASE are:
 
The main goals of CASE are:
 
* To train scientists and engineers with the aim of advancing the field of accelerator science;
 
* To train scientists and engineers with the aim of advancing the field of accelerator science;
** [[Case:Courses| Courses taught by CASE Faculty]] including current course: [[PHY542_spring_2017 | PHY 542 Spring 2017]]
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** [[Case:Courses| Courses taught by CASE Faculty]] including current course: [[PHY554_fall_2018 | PHY 554 Fall 2018]]
 
** [[CASE/C-AD seminars for graduate students and postdocs]]
 
** [[CASE/C-AD seminars for graduate students and postdocs]]
 
** CASE Faculty hosted and taught at the June 2011 [http://uspas.fnal.gov/programs/2011/sbu/11sbuHistory.shtml US Particle Accelerator School]
 
** CASE Faculty hosted and taught at the June 2011 [http://uspas.fnal.gov/programs/2011/sbu/11sbuHistory.shtml US Particle Accelerator School]
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<ul>
<li><span style="color: red">NEW!!</span> New Ph.D/Master topic on beam optics of a polarized proton and He3 beams, under supervision of Dr. Nicholaos Tsoupas<[mailto:tsoupas@bnl.gov tsoupas@bnl.gov]>.  
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<li><span style="color: red">NEW!!</span> Two PhD topics on fundamental studies of radio frequency superconductivity for:
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<li>1. Particle accelerator applications (e.g. developing new doping techniques, non-equilibrium superconductivity, etc.)
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<li> 2. Quantum sensors and computing applications (e.g. experiments with 3D superconducting cavities in quantum regime, developing new architectures for qubits and quantum sensors, etc.)
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<li>Under supervision of Prof. Sergey Belomestnykh < sbelomes@fnal.gov >, based at Fermilab, Batavia, IL.>'''
 
<li><span style="color: red">NEW!!</span> New Ph.D topic on Future Circular Colliders (FCC) is available [[https://en.wikipedia.org/wiki/Future_Circular_Collider]], under supervision of Prof. Vladimir Litvinenko.  
 
<li><span style="color: red">NEW!!</span> New Ph.D topic on Future Circular Colliders (FCC) is available [[https://en.wikipedia.org/wiki/Future_Circular_Collider]], under supervision of Prof. Vladimir Litvinenko.  
<li><span style="color: red">NEW!!</span> Two Ph.D topics (theoretical and one experimental) opportunity are available on [[media:CEC_POP_CASE.pdf |Coherent Electron Cooling]] and [[media:LPWA_CASE.pdf|Laser-Plasma Wakefield Accelerator with external injection]], , under supervision of Prof. Vladimir Litvinenko.
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<li><span style="color: red">NEW!!</span> Two Ph.D topics (theoretical and one experimental) opportunity are available on [[media:CEC_POP_CASE.pdf |Coherent Electron Cooling]] and [[media:LPWA_CASE.pdf|Laser-Plasma Wakefield Accelerator with external injection]], under supervision of Profs. Vladimir Litvinenko and Navid Vafaei-Najafabadi'''
<li><span style="color: red">NEW!!</span> Postdoc research fellow (supported by NSF funding) is available on [[media:Physics_of_Advanced_Beam_Cooling.pdf|Advanced Coherent Electron Cooling research]], under supervision of Prof. Vladimir Litvinenko
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<li>We are looking for students to work on the Stony Brook Tandem Van de Graff accelerator to:
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<ol>
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<li>Finish implementing the new control system.
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<li>Implement new experiments for the Stony Brook Graduate Laboratory.
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</ol>
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These are ideal MSI minor projects.  '''Contact: Thomas K Hemmick <[mailto:Thomas.Hemmick@stonybrook.edu Thomas.Hemmick@stonybrook.edu]>'''
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<li> Accelerator R&D Division of Collider-Accelerator Department, BNL provide exciting acceleration R&D research opportunities towards the future accelerator science, technology and facilities. We are looking for graduate students to do thesis research. The projects include:
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<li> CASE/Collider-Accelerator Department, BNL provide exciting acceleration R&D research opportunities towards the future accelerator science, technology and facilities. We are looking for graduate students to do thesis research. The projects include:
 
<ol>
 
<ol>
 
<li>The design of electron-ion collider, eRHIC
 
<li>The design of electron-ion collider, eRHIC
 
<li>The demonstration of Coherent Electron Cooling (CeC)
 
<li>The demonstration of Coherent Electron Cooling (CeC)
 
<li>The development of Low Energy RHIC electron Cooling (LEReC)
 
<li>The development of Low Energy RHIC electron Cooling (LEReC)
<li>High average current polarized electron cathode and injector
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<li>High average current polarized electron gun
 
<li>Superconductor RF cavity (accelerating cavities and deflecting cavities)
 
<li>Superconductor RF cavity (accelerating cavities and deflecting cavities)
 
<li>Plasma accelerators using and new accelerator concepts at Accelerator Test Facility (ATF)
 
<li>Plasma accelerators using and new accelerator concepts at Accelerator Test Facility (ATF)

Revision as of 19:16, 28 October 2018


Center for Accelerator Science and Education

This Fall we teach Fall: PHY 554, Fundamentals of Accelerator Physics

Talks at: CASE seminars for graduate students and postdocs


The Center for Accelerator Science and Education (CASE) will pursue cutting edge accelerator science and R&D, training of next generation accelerator scientists - graduate and post doctoral – through courses, laboratory and experiments on accelerators. Undergraduate opportunities will play a significant goal of attracting students to the graduate program through introduction to accelerator courses, accelerator laboratory work and summer research opportunities at BNL. The proposed educational program will start with a short term abbreviated educational program of undergraduate, graduate and R&D that will evolve over time.

Goals

The main goals of CASE are:

Image: 600 pixels

The development of CASE capitalizes on resources at both institutions:

  • Brookhaven National Laboratory is the home for a large number of accelerators at Collider Accelerator Department (C-AD, BNL's CASE home, [1]): RHIC and its injection complex, Accelerator Test Facility, Coherent electron Cooling project; and NSLS II [2].
  • Stony Brook University has a recently retired research accelerator – the Tandem Van de Graaff (TvDG) – whose control room has been renovated to become a modern Physics Teaching Laboratory (PTL) that serves graduate, undergraduate students as well as K-12 teachers and students.

CASE Members

  • Dr. Vladimir Litvinenko, Director, Professor of Physics, Stony Brook University.
  • Dr. Thomas K. Hemmick, Deputy Director for Education and Outreach, Distinguished Teaching Professor of Physics, Stony Brook University.
  • Dr. Navid Vafaei-Najafabadi, Deputy Director for Research, Assistant Professor of Physics, Stony Brook University.
  • Joseph Tuozzolo, Deputy Director for Engineering, Chief Mechanical Engineer, Collider-Accelerator Department, Brookhaven National Laboratory.
  • Dr. Paul Grannis, Chair of Executive Council, Distinguished Professor of Physics, Stony Brook University.
  • Dr. Abhay Deshpande, Executive Council Member, Professor of Physics, Stony Brook University.
  • Dr. Laszlo Mihaly, Executive Council Member, Professor of Physics, Stony Brook University.
  • Dr. James Glimm, Executive Council Member, Distinguished Professor, Dept. of Applied Mathematics and Statistics, Stony Brook University.
  • Dr. Imin Kao, Executive Council Member, Professor, Associate Dean, College of Engineering and Applied Sciences, Stony Brook University.
  • Dr. Silvia Verdu Andres, CASE seminars, Scientist, Collider-Accelerator Department, Brookhaven National Laboratory.
  • Dr. Yichao Jing, CASE web administrator, Scientist, Collider-Accelerator Department, Brookhaven National Laboratory.
  • Socoro Delquaglio, CASE Project administrator, Stony Brook University.
  • Find complete member list here.
Image: 600 pixels
Advanced Accelerator Lab at ATF

Research Opportunities

CASE faculty are involved in many exciting projects. Please contact us for more information.

  • NEW!! Two PhD topics on fundamental studies of radio frequency superconductivity for:
  • 1. Particle accelerator applications (e.g. developing new doping techniques, non-equilibrium superconductivity, etc.)
  • 2. Quantum sensors and computing applications (e.g. experiments with 3D superconducting cavities in quantum regime, developing new architectures for qubits and quantum sensors, etc.)
  • Under supervision of Prof. Sergey Belomestnykh < sbelomes@fnal.gov >, based at Fermilab, Batavia, IL.>
  • NEW!! New Ph.D topic on Future Circular Colliders (FCC) is available [[3]], under supervision of Prof. Vladimir Litvinenko.
  • NEW!! Two Ph.D topics (theoretical and one experimental) opportunity are available on Coherent Electron Cooling and Laser-Plasma Wakefield Accelerator with external injection, under supervision of Profs. Vladimir Litvinenko and Navid Vafaei-Najafabadi
  • CASE/Collider-Accelerator Department, BNL provide exciting acceleration R&D research opportunities towards the future accelerator science, technology and facilities. We are looking for graduate students to do thesis research. The projects include:
    1. The design of electron-ion collider, eRHIC
    2. The demonstration of Coherent Electron Cooling (CeC)
    3. The development of Low Energy RHIC electron Cooling (LEReC)
    4. High average current polarized electron gun
    5. Superconductor RF cavity (accelerating cavities and deflecting cavities)
    6. Plasma accelerators using and new accelerator concepts at Accelerator Test Facility (ATF)
    7. Future Circular Collider studies

    There are both MSI and Ph.D. topics. Contact: Vladimir Litvinenko <Vladimir.Litvinenko@StonyBrook.edu>