Difference between revisions of "CASE:Courses"
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− | == | + | == 2024 == |
+ | * [[PHY691_spring_2024|'''Spring: PHY 691: Computational Accelerator Physics, by Dr. François Méot, BNL & SBU''']] | ||
+ | * [[PHY554_Fall_2024|'''Fall: PHY 554: Fundamentals of Accelerator Physics''']] | ||
+ | * [[PHY 693/ESE 593_fall_2024|'''Fall: PHY 693/ESE 593 High Power RF engineering''']] | ||
+ | == 2023 == | ||
+ | * [[PHY554_Fall_2023|'''Fall: PHY 554: Fundamentals of Accelerator Physics''']] | ||
+ | * [[PHY689_Fall_2023|'''Fall: PHY 689: USPAS and CERN accelerator physics schools''']] | ||
+ | * [[USPAS_spring_2023|'''Winter: USPAS, Hadron Beam Cooling in Particle Accelerators''']] | ||
+ | * [[PHY543_spring_2023|'''Spring: PHY543: RF Superconductivity for Accelerators''']], see also external link '''[https://sites.google.com/view/srfsbu2023/home Sping: PHY 543: RF Superconductivity for Accelerators]''', by Prof. Belomestnykh, Prof. Petrushina, and Dr. Verdu-Andres | ||
+ | * [[PHY689_spring_2020|'''Spring: PHY 689: USPAS and CERN accelerator physics schools''']] | ||
+ | * [[PHY542_spring_2023|'''Spring: PHY 542: Fundamentals of Accelerator Physics and Technology with Simulations and Measurements Lab''']] | ||
+ | * [[PHY691_spring_2023|'''Spring: PHY 691: Computational Accelerator Physics, by Dr. François Méot, BNL & SBU''']] | ||
+ | |||
+ | == 2022 == | ||
+ | * [[PHY564_fall_2022|'''Fall: PHY 564: Advanced Accelerator Physics''']] | ||
+ | * [[PHY 693/ESE 593_fall_2022|'''Fall: PHY 693/ESE 593 High Power RF engineering''']] | ||
+ | * [[PHY689_spring_2020|'''Fall: PHY 689: USPAS and CERN accelerator physics schools''']] | ||
+ | * [[PHY 694_spring_2022|'''Spring: PHY 694 Plasma and Wakefield Accelerators''']] | ||
+ | * [[PHY689_spring_2020|'''Spring: PHY 689: USPAS and CERN accelerator physics schools''']] | ||
+ | * [[PHY542_spring_2022|'''Spring: PHY 542: Fundamentals of Accelerator Physics and Technology with Simulations and Measurements Lab''']] | ||
+ | |||
+ | == 2021 == | ||
+ | * [[PHY554_Fall_2021|'''Fall: PHY 554: Fundamentals of Accelerator Physics''']] | ||
+ | * [[PHY695_fall_2021|'''Fall: PHY 695: Cryogenic systems and their design''']], by Arkadiy Klebaner, Ram Dhuley, David Montanari, Matthew Hollister. | ||
+ | * [[PHY689_spring_2020|'''Fall: PHY 689: USPAS and CERN accelerator physics schools''']] | ||
+ | * [[PHY543_spring_2021|'''Spring: PHY543: RF Superconductivity for Accelerators''']], see also external link '''[https://sites.google.com/view/srfsbu2021/home Sping: PHY 543: RF Superconductivity for Accelerators]''', by Prof. Belomestnykh, Dr. Posen and Dr. Petrushina | ||
+ | * [[PHY691_spring_2021|'''Spring: PHY 691: Computational Accelerator Physics''']], by Pr. François Méot, BNL & SBU | ||
+ | * [[PHY689_spring_2020|'''Spring: PHY 689: USPAS and CERN accelerator physics schools''']] | ||
+ | |||
+ | == 2020 == | ||
* [[PHY564_fall_2020|'''Fall: PHY 564: Advanced Accelerator Physics''']] | * [[PHY564_fall_2020|'''Fall: PHY 564: Advanced Accelerator Physics''']] | ||
+ | * [[PHY689_spring_2020|'''Fall: PHY 689: USPAS and CERN accelerator physics schools''']] | ||
* [[PHY554_spring_2020|'''Spring: PHY 554: Fundamentals of Accelerator Physics''']] | * [[PHY554_spring_2020|'''Spring: PHY 554: Fundamentals of Accelerator Physics''']] | ||
− | * [[PHY542_spring_2020|'''Spring: PHY 542 | + | * [[PHY542_spring_2020|'''Spring: PHY 542: Fundamentals of Accelerator Physics and Technology with Simulations and Measurements Lab''']] |
+ | * [[PHY689_spring_2020|'''Spring: PHY 689: USPAS and CERN accelerator physics schools''']] | ||
== 2019 == | == 2019 == | ||
− | + | * [[PHY689_spring_2019|'''Spring: PHY 689, ACCELERATOR Games -- Learning Charged Particle Beam Dynamics by Computer Simulations''']] (François Méot, BNL) | |
− | * [[PHY689_spring_2019|'''Spring: PHY 689, ACCELERATOR Games -- Learning Charged Particle Beam Dynamics by Computer Simulations''']] | + | |
* [[PHY542_spring_2019|'''Spring: PHY 542, Fundamentals of Accelerator Physics and Technology with Simulations and Measurements Lab''']] | * [[PHY542_spring_2019|'''Spring: PHY 542, Fundamentals of Accelerator Physics and Technology with Simulations and Measurements Lab''']] | ||
− | |||
== 2018 == | == 2018 == | ||
* [[PHY554_fall_2018|'''Fall: PHY 554: Fundamentals of Accelerator Physics''']] | * [[PHY554_fall_2018|'''Fall: PHY 554: Fundamentals of Accelerator Physics''']] | ||
* [[media:PHY 514 AP VL.pdf|Fall: PHY 514, A Bit of Accelerator Physics]], by Prof. Litvinenko | * [[media:PHY 514 AP VL.pdf|Fall: PHY 514, A Bit of Accelerator Physics]], by Prof. Litvinenko | ||
− | * [[PHY689_spring_2018|'''Spring: PHY 689, ACCELERATOR Games -- Learning Charged Particle Beam Dynamics by Computer Simulations''']] | + | * [[PHY689_spring_2018|'''Spring: PHY 689, ACCELERATOR Games -- Learning Charged Particle Beam Dynamics by Computer Simulations''']] (François Méot, BNL) |
* [[PHY542_spring_2018|'''Spring: PHY 542, Fundamentals of Accelerator Physics and Technology with Simulations and Measurements Lab''']] | * [[PHY542_spring_2018|'''Spring: PHY 542, Fundamentals of Accelerator Physics and Technology with Simulations and Measurements Lab''']] | ||
Line 39: | Line 68: | ||
== 2011 == | == 2011 == | ||
− | *[https://sites.google.com/site/srfsbu11/ PHY 684: RF superconductivity for accelerators] | + | *'''[https://sites.google.com/site/srfsbu11/ PHY 684: RF superconductivity for accelerators]''', by Prof. Belomestnykh |
* Superconducting RF for High-β Accelerators, USPAS 2011, Dr. Belomestnykh | * Superconducting RF for High-β Accelerators, USPAS 2011, Dr. Belomestnykh | ||
Latest revision as of 19:40, 20 September 2024
Contents
2024
- Spring: PHY 691: Computational Accelerator Physics, by Dr. François Méot, BNL & SBU
- Fall: PHY 554: Fundamentals of Accelerator Physics
- Fall: PHY 693/ESE 593 High Power RF engineering
2023
- Fall: PHY 554: Fundamentals of Accelerator Physics
- Fall: PHY 689: USPAS and CERN accelerator physics schools
- Winter: USPAS, Hadron Beam Cooling in Particle Accelerators
- Spring: PHY543: RF Superconductivity for Accelerators, see also external link Sping: PHY 543: RF Superconductivity for Accelerators, by Prof. Belomestnykh, Prof. Petrushina, and Dr. Verdu-Andres
- Spring: PHY 689: USPAS and CERN accelerator physics schools
- Spring: PHY 542: Fundamentals of Accelerator Physics and Technology with Simulations and Measurements Lab
- Spring: PHY 691: Computational Accelerator Physics, by Dr. François Méot, BNL & SBU
2022
- Fall: PHY 564: Advanced Accelerator Physics
- Fall: PHY 693/ESE 593 High Power RF engineering
- Fall: PHY 689: USPAS and CERN accelerator physics schools
- Spring: PHY 694 Plasma and Wakefield Accelerators
- Spring: PHY 689: USPAS and CERN accelerator physics schools
- Spring: PHY 542: Fundamentals of Accelerator Physics and Technology with Simulations and Measurements Lab
2021
- Fall: PHY 554: Fundamentals of Accelerator Physics
- Fall: PHY 695: Cryogenic systems and their design, by Arkadiy Klebaner, Ram Dhuley, David Montanari, Matthew Hollister.
- Fall: PHY 689: USPAS and CERN accelerator physics schools
- Spring: PHY543: RF Superconductivity for Accelerators, see also external link Sping: PHY 543: RF Superconductivity for Accelerators, by Prof. Belomestnykh, Dr. Posen and Dr. Petrushina
- Spring: PHY 691: Computational Accelerator Physics, by Pr. François Méot, BNL & SBU
- Spring: PHY 689: USPAS and CERN accelerator physics schools
2020
- Fall: PHY 564: Advanced Accelerator Physics
- Fall: PHY 689: USPAS and CERN accelerator physics schools
- Spring: PHY 554: Fundamentals of Accelerator Physics
- Spring: PHY 542: Fundamentals of Accelerator Physics and Technology with Simulations and Measurements Lab
- Spring: PHY 689: USPAS and CERN accelerator physics schools
2019
- Spring: PHY 689, ACCELERATOR Games -- Learning Charged Particle Beam Dynamics by Computer Simulations (François Méot, BNL)
- Spring: PHY 542, Fundamentals of Accelerator Physics and Technology with Simulations and Measurements Lab
2018
- Fall: PHY 554: Fundamentals of Accelerator Physics
- Fall: PHY 514, A Bit of Accelerator Physics, by Prof. Litvinenko
- Spring: PHY 689, ACCELERATOR Games -- Learning Charged Particle Beam Dynamics by Computer Simulations (François Méot, BNL)
- Spring: PHY 542, Fundamentals of Accelerator Physics and Technology with Simulations and Measurements Lab
2017
- Fall: PHY 564, Advanced Accelerator Physics
- Accelerator Physics Class PHY 514, by Prof. Litvinenko
- Fall: PHY 420, Introduction to Accelerator Science and Technology
- Spring: PHY 542, Fundamentals of Accelerator Physics and Technology with Simulations and Measurements Lab
2016
- PHY 554: Fundamentals of Accelerator Physics
- PHY 542: Fundamentals of Accelerator Physics and Technology with Simulations and Measurements Lab
- Accelerator Physics Class PHY 514, by Prof. Litvinenko
2015
- PHY 564: Advanced Accelerator Physics
- PHY 542: Fundamentals of Accelerator Physics and Technology with Simulations and Measurements Lab
- Accelerator Physics Class PHY 514, by Prof. Litvinenko
2014
2013
- Principles of RF Superconductivity, USPAS, Dr. Belomestnykh
2011
- PHY 684: RF superconductivity for accelerators, by Prof. Belomestnykh
- Superconducting RF for High-β Accelerators, USPAS 2011, Dr. Belomestnykh
2010 and before
- Experiments in PHY 445/515, Fall 2010 Lab Manuals
- CASE Summer Accelerator Workshop, July 26-30, Dr. Hemmick
- WISE 187, Spring 2010, Introduction to Research, Dr. Hemmick
- Summer 1-Day Accelerator Camp, July 16 2009, Dr. Hemmick
- Accelerator Physics, 13-25 January, 2008, Graduate Course, US Particle Accelerator School, Santa Rosa, CA, Dr. Litvinenko, Satogata, Pozdeyev
- PHY 684, Fall 2007, Physics of Particle Accelerators, Dr. Litvinenko, Kewisch, Mackay, Satogata
- PHY 684, Spring 2007, Physics of Particle Accelerators, Dr. Litvinenko
- PHY 684, Spring 2005, Physics of Particle Accelerators, Dr. Litvinenko, Dr. Mackay
- PHY 684, Spring 2004, Physics of Particle Accelerators, Dr. Peggs, Dr. Litvinenko