Difference between revisions of "Ernest courant traineeship index"
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Revision as of 13:03, 26 July 2021
Ernest Courant Traineeship in Accelerator Science & Engineering
Stony Brook University in collaboration with Brookhaven National Laboratory (BNL), Cornell University (CU) and FERMI National Accelerator Laboratory (FNAL) is establishing the Ernest Courant Traineeship in Accelerator Science & Engineering supported by a 5-year grant from the High Energy Office of the US Department of Energy. This novel program is named after eminent accelerator physicist, Ernest Courant, who lay the foundation of modern accelerator science. At SBU the traineeship is a part of the Center for Accelerator Physics and Education (CASE) – the http://case.physics.stonybrook.edu/index.php/Main_Page
The main goal of the program is to train scientists and engineers in the field of accelerator sciences with a focus in the four areas identified as the DOE Mission Critical Workforce Needs in Accelerator Science and Engineering: (a) Physics of large accelerators and systems engineering; (b) Superconducting radiofrequency accelerator physics and engineering; (c) Radiofrequency power system engineering and (d) Cryogenic systems engineering (especially liquid helium systems).
Why Particle Accelerators?
Particle accelerators are a futuristic technology that has many uses including for science, engineering, medicine and industrial applications. There are about 30,000 accelerators of all sizes in the world. Finding trained people who can understand, operate and engineer such systems is a problem. What is a particle accelerator? It is a circular or straight (linear) tube containing a vacuum in which atomic particles (i.e. electrons, protons or ions) can be accelerated to high speed using electric and/or magnetic fields. Research accelerators can be measured in miles. Many other accelerators are much smaller. What can the particle accelerators be used for? Some applications include:
I am an MSI (masters of science in instrumentation) student working with Professor Thomas Hemmick.
My research project is to help design the line laser calibration system for the Time Projection Chamber (TPC), which will be the central tracker of the sPHENIX detector at RHIC. A compact, steerable, ionizing laser calibration system will be used to provide a known track that allows us to study the evolving components of the distortion throughout the TPC. I have been working on simulations of this system so we can understand how to improve our calibration efforts and what the limits will be.
I think receiving a certification specifically in accelerator science and engineering will be helpful in standing out in that field.
I am about to be finished with the courses necessary for the traineeship but will be continuing research for at least a semester.
The financial assistance has allowed me to focus more on what I am learning and my research, where otherwise I may not have been able to. This will leave me in a better place once I graduate. I think if a student is already interested in focusing on accelerator physics, there is no reason not to apply for the traineeship program; taking additional classes will prepare you better if this is what you want your career to be, and leaving graduate school with a certificate will help you find a job later.
I am pursuing a masters degree.
My project involves Plasma Wakefield Acceleration. The advancement of compact accelerators will have tremendous impact in the medical field. My responsibilities were to build a plasma Wakefield chamber, design and install components such as the differential pumping system, and the beam profile monitor system.
Participating in the program trained me in specific classes that otherwise I would have not taken and makes me knowledgeable in the current developments in the field. It helps in learning the jargon and gives one a basis to start doing research where otherwise it might be difficult understanding even group meetings. It also allows one to interact and speak with specialists in the field. My career goal is to become a professor and research scientist working in a government lab in the accelerator field.
I am 3 credits away from finishing the traineeship
The traineeship allowed me to consider a field in accelerator physics. I like that the professors are from different locations which give a different perspective and gives variety. The classes are condensed in a big time slot once a week which I like.
The traineeship program changes things up from the regular Stony Brook classes, which do not give you specialized knowledge for your research. If you are interested in accelerators you need to have a background to understand the jargon and the technicalities and to be able to communicate. This program teaches you that. Again I like that the professors are from different locations which gives diversity and also networking potential.
I am a masters student working with Axel Drees.
My research is on analyzing the data from the PHENIX experiment on the Relativistic Heavy Ion Collider (RHIC) at Brookhaven National Laboratory. Specifically I am studying proton-gold collisions and measuring the direct photon yield so as to better understand the onset of Quark Gluon Plasma (QGP) in heavy ion collisions. My day to day responsibilities consist of writing and fine tuning the analysis code.
The traineeship provided a comprehensive education in accelerator science, which has clear applications to studying heavy ion collisions (i.e. the collision part). While it is unclear at the moment whether I will continue studying heavy ion collisions throughout my PhD and beyond, accelerator science also has applications in numerous other fields like material science, biology etc. I am sure in whatever area of research I end up in, the information I’ve learned through this traineeship will be invaluable.
I will be finishing the program at the end of this semester
I particularly enjoyed the introductory classes. They provided information over a broad scope, which I found to be the most interesting. Particularly the lessons on all the different applications of accelerators were the best.
Accelerator science has applications in almost all areas of STEM. Wherever your personal research interests lie, participating in this program will give you a well-rounded education which will ultimately aid you in your research.
I am a masters of science in instrumentation student.
My research project involves the diffuse laser system for the sPHENIX TPC (Time Projection Chamber). The diffuse laser system will allow us to monitor dynamic space charge inside the TPC. My responsibilities lie with ensuring adequate light uniformity on the central membrane, and certain aspects of the manufacturing of the central membrane.
I think it is important to understand the systems we are using on a large scale. I intend to work with a national lab, either after pursing a PhD, or directly after my MSI program.
I have nearly completed the traineeship program requirements. My masters will continue for one more year.
There are interesting classes to take and lots of people active in the field teaching us. I wish I had been able to get some more hands on experience though.
It is an interesting and short program. It is funded by the US Dept. of Energy and financial support is a possibility for US citizens and permanent residents.
I am a PhD student. I work with Dr. Y. Semertzidis, Dr. W. Morse and Dr. F. Meot
My research project is to provide design and computational support in the proton EDM project, with a strong focus on spin dynamics in the storage ring and impact on the design and specifications regarding its optical components.
By participating the Ernest Courant Traineeship program, I gain fruitful theoretical knowledge and hands-on simulation experience in the field of accelerator physics. The Ernest Courant Traineeship program improves my academic knowledge and boosts my technological skills towards my research career of accelerator physics. My career goal is to be a computational accelerator physicist.
I have been in the program one semester (starting from Spring 2021)
Besides the funding opportunities, I gain broad academic knowledge in accelerator physics from various courses (Stony Brook and USPAS), I also receive much useful information that would help me prepare to pursue my career goal.
The Ernest Courant Traineeship program educates students to be accelerator physicists from the professional perspective. It helps students who are interested in accelerator physics explore their career in this area.
Yuan Hui Wu
I am a masters student.
I am working on a research project at Brookhaven National Laboratory (BNL). The project is related to particle accelerator research. The research will be important for the current collider at BNL to increase its luminosity. My responsibilities are to operate, design and simulate the performance of the accelerator.
My career goal is to become an Accelerator Physicist. The traineeship program gives me the opportunity to work with scientists around the world and gain many valuable experiences.
I finished the program and joined Brookhaven National Laboratory as full-time this year.
The best part of the traineeship program is that I can work with scientists around the world on a project which is closely relate to current physics research.
I will highly recommend this program to other students. Students can work with people who are really good at this area. Particle accelerator research is also very important part of next generation physics research.