Coursework that will best prepare for fusion physics

AI Thread Summary
The discussion centers on a junior physics undergraduate seeking advice on which upper-level classes to take for preparation in graduate programs focused on fusion physics. Key points include the importance of various subjects: Advanced Quantum Mechanics is highlighted as essential for understanding fundamental concepts in physics, while Advanced Electricity and Magnetism is noted for its relevance to plasma physics. Nuclear Physics is considered useful for understanding fusion processes but less critical for practical applications. Electronics is mentioned as beneficial for experimental design, and Solid State Physics may provide insights into plasma chamber materials and superconductors. Overall, Advanced Quantum Mechanics is recommended as the most valuable course for a strong foundation in fusion physics.
jflieder
Messages
3
Reaction score
0
Hello All,

I am a junior physics undergraduate and I am looking at graduate programs in physics. My field of interest is fusion physics (plasma physics, nuclear fusion and the like). Due to balancing obligations outside of school with my classes, I will be limited in the number of upper level classes I can take. The advise that I am looking for would be in which of the available upper level classes would give the best preparation for a graduate program in fusion physics. Of those of you with knowledge/experience in the plasma/fusion physics realm, which of the following classes would be best suited for studying fusion physics? Any response would be greatly appreciated.

- Nuclei and Elementary Particles
- Advanced Electricity and Magnetism
- Advanced Quantum Mechanics
- Electronics
- Solid State
 
Physics news on Phys.org
Electricity and magnetism are necessary for understanding plasmas.
Nuclear physics is useful for the actual fusion processes but probably not that important for applications.
Quantum mechanics is something every physicist should know up to some level. It helps understanding everything else.
Electronics can be useful if you want to help design experiments. Many experiments need electronics in some way.
Solid state physics: Could be interesting for the plasma chamber walls. It is also highly relevant for superconductors but I guess those are bought from elsewhere.
 
mfb said:
Electricity and magnetism are necessary for understanding plasmas.
Nuclear physics is useful for the actual fusion processes but probably not that important for applications.
Quantum mechanics is something every physicist should know up to some level. It helps understanding everything else.
Electronics can be useful if you want to help design experiments. Many experiments need electronics in some way.
Solid state physics: Could be interesting for the plasma chamber walls. It is also highly relevant for superconductors but I guess those are bought from elsewhere.

Thanks for your insight, mfb. If you could recommend one above all of the others, which would you recommend?
 
I don't know what "Advanced XXX" covers and what earlier courses had, so it's hard to pick one.

Probably quantum mechanics.
 
mfb said:
I don't know what "Advanced XXX" covers and what earlier courses had, so it's hard to pick one.

Probably quantum mechanics.

Thank, mfb. I don't have course descriptions for those 5 classes, and I wouldn't ask you to read and sift through them if I did.
 

Thread 'Self Learning Math/Physics'

Hey, I am Andreas from Germany. I am currently 35 years old and I want to relearn math and physics. This is not one of these regular questions when it comes to this matter. So... I am very realistic about it. I know that there are severe contraints when it comes to selfstudy compared to a regular school and/or university (structure, peers, teachers, learning groups, tests, access to papers and so on) . I will never get a job in this field and I will never be taken serious by "real"...
View full post »

Thread 'What should I do if I found a paper with same result as mine?'

Yesterday, 9/5/2025, when I was surfing, I found an article The Schwarzschild solution contains three problems, which can be easily solved - Journal of King Saud University - Science ABUNDANCE ESTIMATION IN AN ARID ENVIRONMENT https://jksus.org/the-schwarzschild-solution-contains-three-problems-which-can-be-easily-solved/ that has the derivation of a line element as a corrected version of the Schwarzschild solution to Einstein’s field equation. This article's date received is 2022-11-15...
View full post »

Similar threads

Getting into Plasma Physics and Fusion
Replies
3
Views
235
Admissions Admission into Princeton Grad School
Replies
9
Views
2K
Programs Fusion Energy Research Pathway
Replies
7
Views
2K
I want to research nuclear fusion
Replies
5
Views
3K
Comparing Physics Programs at UofM and UMD
Replies
4
Views
2K
Programs What is the best major or double major for Nuclear Fusion research?
Replies
3
Views
2K
Schools What are interesting research topics in plasma physics now?
Replies
3
Views
4K
Admissions Plasma Physics PhD from an EE undergrad
Replies
4
Views
1K
Schools Which College Should I Choose for a Career in Fusion System Design?
Replies
3
Views
2K
Admissions Advice on how best to spend my time for graduate school applications
Replies
15
Views
2K

Hot Threads

Recent Insights

Back
Top