Physics Non-Fusion-Related Plasma Physics?

AI Thread Summary
Plasma physics has significant applications beyond nuclear fusion, particularly in astrophysics, spacecraft propulsion, and medical technologies. While funding for non-fusion plasma research is limited and primarily academic, there are emerging fields such as laser-driven electron accelerators, which promise smaller and more affordable cancer therapy solutions. Other industrial applications include plasma-arc waste disposal, inductively coupled plasma for emission spectroscopy, and plasma etching for surface modification. Interest in radio propagation in plasma environments, like the ionosphere, also presents potential research avenues. Despite concerns about the long timeline of fusion technology development, there are diverse opportunities in plasma physics that can be explored for both academic and practical applications.
Dynamos
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Hi everyone.

I am interested in studying plasma physics, but not so much in studying nuclear fusion.

Is there a market for plasma physics research that is not geared toward nuclear fusion technology?

Thanks
 
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Plasma physics is extremely important for astrophysics, especially the physics of compact objects, accretion, jets, gamma ray bursts, supernovae, etc. There is less money and very little experiment in this field however. Not to mention that its entirely academic, no industry.
 
That is what I feared.
Thanks.

I suppose one could earn one's living teaching math/physics, while doing plasma research on the side then?
 
If you're not dead set on "pure" physics, one of the applications of plasma physics is spacecraft propulsion. Try looking up some papers on plasma physics from APS or IEEE.
 
rhombusjr said:
If you're not dead set on "pure" physics, one of the applications of plasma physics is spacecraft propulsion. Try looking up some papers on plasma physics from APS or IEEE.

Will do. Thanks. I'll still keep an eye on what's going on with fusion energy too.
 
It's just a guess, I don't know if there's any research needed, but what about plasma TVs?
 
Tom83B said:
It's just a guess, I don't know if there's any research needed, but what about plasma TVs?

Yeah, I never thought of that.
I guess that there are also industrial applications of plasma technology.
 
One area of non-fusion research is laser-driven electron accelerators (AKA plasma wakefield accelerators). These can accelerate particles to GeV's over a much shorter distance than current accelerators. There is a lot of interest in this for medical technologies, because right now accelerators for cancer therapy are too big and expensive for most hospitals. Laser-drive accelerators would supposedly be smaller and cheaper. See more information here: http://en.wikipedia.org/wiki/Plasma_acceleration

Plasma-arc waste disposal is another area, though I would imagine this is mostly engineering.

Take a look at the applied areas of research here for some more info: http://en.wikipedia.org/wiki/Plasma_(physics )
 
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Inductively coupled plasmas are used for emission spectroscopy for determination of elements (including impurities) in alloys.
http://en.wikipedia.org/wiki/Inductively_coupled_plasma
http://www.cee.vt.edu/ewr/environmental/teach/smprimer/icp/icp.html
or search google for "Inductively-coupled plasmas"

There is plasma-etching as well - http://en.wikipedia.org/wiki/Reactive_ion_etching

Plasmas are used in propulsion - http://en.wikipedia.org/wiki/Pulsed_inductive_thruster

Plasmas can be used for surface modification including PVD.
http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6TW0-49C5GFP-1&_user=10&_coverDate=10%2F01%2F2003&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_searchStrId=1616225371&_rerunOrigin=google&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=31dfca335c6ce520ecbc115cdeb47124&searchtype=a


http://www3.gettysburg.edu/~marschal/physics/plasma/index.htm
 
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  • #10
Thanks for the responses everyone.

I think I like radio propagation in plasma environments (ie the ionosphere), the medical use, and space propulsion best. However, my concerns about fusion tech (60 yrs of being "on the cusp") may also apply to plasma propulsion. (Correct me if I am wrong!)
 
  • #11
sir_manning said:
One area of non-fusion research is laser-driven electron accelerators (AKA plasma wakefield accelerators). These can accelerate particles to GeV's over a much shorter distance than current accelerators. There is a lot of interest in this for medical technologies, because right now accelerators for cancer therapy are too big and expensive for most hospitals. Laser-drive accelerators would supposedly be smaller and cheaper. See more information here: http://en.wikipedia.org/wiki/Plasma_acceleration

Plasma-arc waste disposal is another area, though I would imagine this is mostly engineering.

Take a look at the applied areas of research here for some more info: http://en.wikipedia.org/wiki/Plasma_(physics )

There are other schemes of laser-plasma interactions for accelerating particles. I'm an undergraduate working on ion acceleration from thin foil targets in the radiation pressure acceleration (RPA) scheme. My work is a mix of analytic theory and computational science.
 
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