Accelerator Physics - A field where jobs go begging

In summary, accelerator physics is a field that straddles both physics and engineering, making it a perfect choice for those who can't decide between the two. It is not limited to just high energy physics and students who specialize in this field have no problem finding employment. While there may not be a set certification for this profession, there are opportunities to learn through particle accelerator schools and internships. Additionally, accelerator technology has numerous applications beyond high energy physics, making it a diverse and exciting field for those interested in practical applications of physics.
  • #106
Anyone got experience on the job market for accelerator physicists is in Europe? According to this article published in the New Statesman, there is / will be a shortage of specialists due to the large number of planned projects:

https://www.liverpool.ac.uk/media/livacuk/quasargroup/files/press/Cockcroft,adv.pdf
 
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  • #107
thecage said:
Anyone got experience on the job market for accelerator physicists is in Europe? According to this article published in the New Statesman, there is / will be a shortage of specialists due to the large number of planned projects:

https://www.liverpool.ac.uk/media/livacuk/quasargroup/files/press/Cockcroft,adv.pdf

Of the two projects mentioned specifically in that article, EuroCirCol isn't isn't looking for an accelerator physicist. When I talked to one of the people doing the recruiting, they were looking for a particle physicist that can pick up the accelerator physics, not accelerator physicists. That person isn't from Liverpool though, and Liverpool is looking for PhD http://brightrecruits.com/job/8457/phd-opportunities-at-the-cockcroft-institute.

The EuPRAXIA program does want an accelerator physicist (I've only seen one posting from the groups in France and this current one is a re-post). I do get the feeling, based on recent presentations from the BELLA group on staged acceleration, that EuPAXIA will end up being far enough behind BELLA that most of the discovery science will be cracked before it gets going and the grueling (and under appreciated) work of making the systems work reliably for users will begin.
 
  • #108
I didn't see it mentioned, so I'd like to say that there are a couple of NSF funded REUs in accelerator physics. If you get an offer, it can be a great way of trying out research in the field during undergrad!

The Cornell CLASSE REU (an offer I personally received, which made me look up accelerator physics and find this thread) seems like a really great one. I believe Indiana and UCLA also offer REU opportunities in the field.
 
  • #110
Here's another example of a new effort at advanced accelerator concepts:

http://physicsworld.com/cws/article...ut-to-build-european-laser-plasma-accelerator

Note that in that article, the possible applications of the laser plasma wakefield accelerator did not even explicitly mentioned any application in high-energy physics (although there is a clear advantage for that field). Instead, the envisioned areas are industrial (and scientific) as a source of "high-quality x-ray".

I see major challenges left for electrons undergoing this acceleration scheme to get their energy spread and emittance to be within the requirement of a FEL. But hey, that is why they are still doing research, and it is why they continue to need accelerator physicists!

Zz.
 
  • #111
FYI, the 2010 article from Symmetry Magazine started off with statements from Tony Favale of Advanced Energy Systems:
Business in the particle accelerator world is booming, as is business at Advanced Energy Systems, where Favale is president. His company, with offices in New York and New Jersey, is doing research and design work for the next generation of accelerators, which will be employed in electron lasers for the Navy, radiation detectors for the Department of Homeland Security, and more efficient particle colliders at US national laboratories.

But of the seven positions he was advertising in November, three were still unfilled in mid-March because Favale can’t find enough qualified accelerator scientists. The shortage is forcing the scientists and engineers he already employs to work overtime. Favale isn’t picky; he says he’d be comfortable hiring people with experience in other fields, such as vacuum or radio-frequency technology, and teaching them the accelerator science on the job.

If you were hoping for a long term job at AES (back in 2010), you're out of luck as the auction of their assets started today. Word is that they missed out on the action of making superconducting modules for LCLS-II and also lost some Phase II SBIR contracts that they were counting on and couldn't keep the doors open anymore. This field can be very brutal on its members, especially because hiring is so slow.
 
  • #112
ESRF is embarking on a large, 150 million Euro, upgrade to its machine. Helpfully, you can see all of the hiring they plan to do over the next 5 years, which include that upgrade, here. This listing also includes their projections for retirements, so it isn't just about the upgrade by any stretch. As you can see, they want engineers and technicians of all sorts, but they don't want permanent scientists: one position! They do want a rather large number of temporary scientists to run the x-ray beam lines (i.e. not accelerator physicists). This pretty well puts paid to the idea that you don't have to do a postdoc and that there aren't enough PhDs being trained for the field of accelerator physics. The vast majority of jobs around an accelerator don't require much, if any, knowledge of accelerator physics and these facilities definitely want you to do a postdoc.
 
  • #113
I'm sure some physics grads would like to fill those technician and engineering positions. I would. Most technical endeavors are like you say, only a couple scientists are needed but an army of engineers and technicians are hired.
 
  • #114
ModusPwnd said:
I'm sure some physics grads would like to fill those technician and engineering positions. I would. Most technical endeavors are like you say, only a couple scientists are needed but an army of engineers and technicians are hired.

This is totally true, and I encourage people who are interested in being a technician or an engineer to look at accelerators for work, it can be a lot of fun. This may be a conversation I am having with myself, but when you read material on the field of accelerator physics "begging" for workers, they regularly appeal to the lack of PhDs. Both the article that started this thread in 2010 and the one from a few[/PLAIN] [Broken] months ago focus on PhDs.

For example, slide 4 in this presentation to the High Energy Physics Advisory Panel worries about the fact that only ~15 PhDs are produced in accelerator physics and compares that to the ~3000 full time employees that DoE Office of Science labs employ to run accelerators. Comparison of these two numbers alights entirely over how many of those FTEs are roles that use an accelerator physics PhD. At the same time, folks at SLAC are challenging the DoE on this front, telling HEP that SLAC can't possibly employ all the people who are applying for post doctoral positions in accelerator physics. Word is that the labs that are having trouble recruiting are in less desirable locations: FRIB in East Lansing (they have other problems, too), Cornell in Ithaca, Los Alamos in the middle of nowhere. AES was out in the middle of Long Island, 90 minutes from the city without traffic.
 
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  • #115
In accelerator physics, what software do you guys use to design the accelerators? Do you guys use CADs or EDAs?
 
  • #116
Amrator said:
In accelerator physics, what software do you guys use to design the accelerators? Do you guys use CADs or EDAs?

The particle beam lines (as opposed to the x-ray beam lines) are first designed in a specialty code for accelerators like elegant, IMPACT or synergia. After that the engineers use SolidWorks (where I have worked) or SolidEdge (SLAC and FNAL) to create a model of the whole beam line. I don't know what EDAs are, so maybe that tells you all you need to know about that?
 
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  • #117
Amrator said:
In accelerator physics, what software do you guys use to design the accelerators? Do you guys use CADs or EDAs?

There is no one software. It also depends on what you are doing or designing.

There are codes for particle beam dynamics, such as PARMELA out of Los Alamos.

If one is designing structures, one first have to model these structures. Finite element packages such as COMSOL, Microwave Studios, etc... have all been used.

Then, once these have been designed, then the task of producing the engineering diagrams to have them fabricated and installed will require 3D CAD programs.

There are many, MANY more packages, codes, and even homemade codes, that I haven't mentioned here. It is why computational work is a significant part of many Particle Accelerator schools.

Zz.
 
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  • #118
Awesome. Thanks, guys. So far, accelerator physics sounds awesome. I plan on transferring to Illinois Institute of Technology as a physics major from a community college. The nice thing about IIT is they really emphasize computational science. http://science.iit.edu/physics/computational-science-and-physics-illinois-tech
 
  • #119
This is amazing, honestly thank you so much for sharing it with us.

I know i am a little bit late to the party, but can anyone please name some job positions that can be held by carriers of this degree?
 
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  • #120
I don't know what you mean by "job positions that can be held by carriers of this degree." Any job or jobs in the field? What degree level? Bachelors? Masters? PhD?

The best resource for job postings in the field of accelerators that I have found are:
USPAS jobs board (can be slow to update) - http://uspas.fnal.gov/opportunities/jobs/index.shtml
Brightrecruits - http://brightrecruits.com/jobs/accelerators-neuron-and-light-sources/
Lightsources - http://www.lightsources.org/jobs
INSPIRE (use tag physics.acc-phys) - https://inspirehep.net/collection/Jobs

Rarely, accelerator physics jobs will show up on Physics Today and the like, but most of these jobs aren't considered academic (wrongly, in my opinion) and so they tend to get filled more like regular jobs. Indeed and Glassdoor will also turn up results if you search accelerator physics, but there is a lot of noise in the searches. For me, half the results are for karate instructors on Glassdoor, Indeed is almost all medical physics jobs.
 
  • #121
se7enred7 said:
I've worked on accelerators in industry for the past 8 years as an electronics technician. I've been working on a BS in physics for most of those years, taking classes in my spare time - partly for enjoyment, partly for career advancement. After a long road, its time to decide on an MS, and was considering USPAS. This thread popped up in my Google search, and was pleased to hear my field of interest is in demand.

Since I'm only a part-timer, the thought of taking classes at USPAS in two week chunks or online with a 5 year time limit is very tempting. I don't believe I'll complete a PhD, so I'm wondering if you see value in a MS from USPAS/UI or is this something best left to those with a PhD?

I am also planning to pursue my MS in Physics (specializing in accelerator physics).
Could you share your experience or your current status?? Would love to hear about it.
 
  • #122
Just so you know, he hasn't been here in almost 9 years.
 
  • #123
Vanadium 50 said:
Just so you know, he hasn't been here in almost 9 years.
Thanks for letting me know. Didn't realize it.
 
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  • #124
@ZapperZ , I know you had first started this thread back in 2010, where you had argued that there was plentiful employment opportunities in the area of accelerator physics.

I was wondering if you have any information to update the rest of PF community regarding the demand for those in accelerator physics as of 2021.
 
  • #125
ersa17 said:
I am also planning to pursue my MS in Physics (specializing in accelerator physics).
Could you share your experience or your current status?? Would love to hear about it.

I know someone who did it and I went to a fair few USPAS courses myself during my graduate studies. The courses vary in quality from decent to very good depending on how many times the instructor has taught at USPAS. Some lessons I learned the hard way, that you might find useful:

1) Networking is just as important as the content of the classes. Talk to the teachers, talk the fellow students, talk to everyone.

2) The compressed schedule means you should treat the problem sets like a test. Don't start on problem 1, read them all, figure out which ones you can do quickly and do them. Then come back and do the harder problems. Don't spin your wheels for too long on a problem either, talk to the teacher, TA, or other students.

3) Do not stay up late doing the homework. My personal rule was at 11 PM I'd start cleaning up the work that I had, so that I could relax for 30-45 minutes before being in bed at midnight. You are going to have to do all of this again tomorrow, get some sleep.

4) Exercise and get out of the hotel once a day. It was very good for my sanity. It doesn't have to be a big thing, but 30 minutes of concentrating on something that isn't course content was great for my morale, mental health, and sleep cycle.

5) The food varies by hotel from terrible to pretty decent. It tends to be pretty heavy, so eat less than you think you want and have snacks on hand to cover.

If you decide to do the project, that is probably the hardest part. The best case for this is if you already work in some accelerator-relevant field and you can convert some task/project that you are already working on into a thesis. Pick something you genuinely want to do. This document is going to summarize your expertise in a narrow area of accelerator physics and, when you go out looking for work, employers are going to expect you to use it to their benefit. Don't just pluck low hanging fruit in the hopes you'll get to do something "better" later, that is a hard row to hoe.

Everyone prioritizes PhDs over masters holders. Because, generally, the PhDs have spent more time learning more things and know more people in the field. At a lab, you will probably end up as a system expert for either an entire system (small, singular systems, say a kicker magnet) or part of a system (larger systems, say the RF chain). My experience at the labs is mostly outside the US, but the group leaders and people with upward mobility all have PhDs. In industry, we preferred PhDs for the above reasons. That doesn't mean we won't call you for an interview, but unless your particular skill is exactly what we need when we need it and we expect to have enough work to keep you busy for a few years doing that, we'll go with the PhD first because we just don't have the head count to have a narrow specialist on staff.

I hope you found that useful.
 
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  • #126
JJminusI said:
I know someone who did it and I went to a fair few USPAS courses myself during my graduate studies. The courses vary in quality from decent to very good depending on how many times the instructor has taught at USPAS. Some lessons I learned the hard way, that you might find useful:
It looks like for now the instruction is online distance learning. That's unfortunate to lose some of the hands-on experience...

https://uspas.fnal.gov/

USPAS said:
*** COVID-19 Update ***

Our winter session with Texas A&M University will be offered online and will be expanded to 4 weeks from January 25 - February 19, 2021 with classes held via Zoom. Details can be found here.

Our summer 2021 session with Stony Brook University will most likely be moved online as well. Please watch this space for updates.
 
  • #127
Zap said:
To the OP:

You should link to some job posts.

Otherwise, it's only talk.
The post was 11 years ago.
 
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  • #128
Joshy said:
The post was 11 years ago.

Given how old this thread is, perhaps the moderators should consider closing it?

Because the title is suggesting that demand for accelerator physics is still strong, which might have been true 11 years ago, but may not be so today.
 
  • #129
StatGuy2000 said:
Given how old this thread is, perhaps the moderators should consider closing it?

Because the title is suggesting that demand for accelerator physics is still strong, which might have been true 11 years ago, but may not be so today.
Good point. I'll tie off the thread for now. If @ZapperZ wants to re-open it, we can.
 
<h2>1. What is accelerator physics?</h2><p>Accelerator physics is a field of study that involves the design, construction, and operation of particle accelerators. These machines are used to accelerate charged particles to high speeds in order to study the fundamental properties of matter and to create high-energy collisions for research in fields such as nuclear physics, particle physics, and materials science.</p><h2>2. What kind of jobs are available in accelerator physics?</h2><p>There are a variety of jobs available in accelerator physics, including accelerator designer, accelerator operator, beam physicist, and accelerator engineer. These roles involve designing, building, and maintaining particle accelerators, as well as conducting experiments and analyzing data from accelerator experiments.</p><h2>3. What skills are needed to work in accelerator physics?</h2><p>To work in accelerator physics, one needs a strong foundation in physics, mathematics, and engineering. Knowledge of computer programming and data analysis is also essential. In addition, good problem-solving skills, attention to detail, and the ability to work well in a team are important qualities for success in this field.</p><h2>4. What are the current job prospects in accelerator physics?</h2><p>Currently, there is a high demand for professionals in accelerator physics, with many job opportunities available in research institutions, universities, and national laboratories. As technology continues to advance and new applications for particle accelerators are discovered, the job market in this field is expected to continue to grow.</p><h2>5. How can I get involved in accelerator physics?</h2><p>To get involved in accelerator physics, one can pursue a degree in physics, engineering, or a related field. Many universities offer undergraduate and graduate programs in accelerator science and technology. Additionally, internships and research opportunities at accelerator facilities can provide hands-on experience and valuable connections in the field.</p>

1. What is accelerator physics?

Accelerator physics is a field of study that involves the design, construction, and operation of particle accelerators. These machines are used to accelerate charged particles to high speeds in order to study the fundamental properties of matter and to create high-energy collisions for research in fields such as nuclear physics, particle physics, and materials science.

2. What kind of jobs are available in accelerator physics?

There are a variety of jobs available in accelerator physics, including accelerator designer, accelerator operator, beam physicist, and accelerator engineer. These roles involve designing, building, and maintaining particle accelerators, as well as conducting experiments and analyzing data from accelerator experiments.

3. What skills are needed to work in accelerator physics?

To work in accelerator physics, one needs a strong foundation in physics, mathematics, and engineering. Knowledge of computer programming and data analysis is also essential. In addition, good problem-solving skills, attention to detail, and the ability to work well in a team are important qualities for success in this field.

4. What are the current job prospects in accelerator physics?

Currently, there is a high demand for professionals in accelerator physics, with many job opportunities available in research institutions, universities, and national laboratories. As technology continues to advance and new applications for particle accelerators are discovered, the job market in this field is expected to continue to grow.

5. How can I get involved in accelerator physics?

To get involved in accelerator physics, one can pursue a degree in physics, engineering, or a related field. Many universities offer undergraduate and graduate programs in accelerator science and technology. Additionally, internships and research opportunities at accelerator facilities can provide hands-on experience and valuable connections in the field.

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