Charged Particle Beams: Uses & Potential Applications

In summary, the charged particle beam is a versatile tool that is still being used for many different purposes.
  • #1
Frigorifico
32
0
Besides proton therapy: What are charged particle beams currently used for and what new uses could they have?.
 
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  • #2
Apart from scientific and medical uses you mean?
They are still used in cathode ray tubes to make pictures.
 
  • #3
I didn't mean beside science, just beside medicine. I am very interested in engineering and experimental uses
 
  • #4
Charged particle beams of all kinds are used to probe the fabric of space time and the nature of fundamental interactions - they are essential for challenging and improving upon the standard model in particle physcs... so you'll need to be more specific.

You've heard of CERN right? They just have a bunch of big accelerators - the LHC being the most famous.
Charged particle beams are also used to study nuclear fusion and explore/image nanoscale structures ... the uses are very broad.
 
  • #5
Okay, there is a contest to propose an experiment with a charged particle beam at CERN and am looking for ideas, I admit it.
 
  • #6
Please provide a reference to this contest so we know what it is about.
It's good to be up-front about this sort of thing - you may find a collaborator for instance, but it does mean you will get responces from people who won't mind being exploited like this so much.
 
  • #7
Charged particle beams are used in:

1. Synchrotron light sources. These are the workhorse for many different areas due to the nature of the light they generate to study things ranging from material science to biology to pharmaceuticals.

2. Free electron lasers. Electron beams are used to generate extremely intense light, especially x-ray.

3. Scanning electron microscope. Electron beams are accelerated to several keV to look features not accessible with visible range light.

4. Scanners. Particle accelerators are used at airports create x-rays that scan bags and people. They are also used in doctors offices for the x-rays that you typically get.

Zz.
 
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  • #8
This is the contest:

http://home.web.cern.ch/students-educators/spotlight/2013/competition-beam-line-schools

This are the specifications of the beam and detectors available:

http://home.web.cern.ch/sites/home.web.cern.ch/files/information_about_the_t9_beam_line_and_experimental_facilities.pdf
 
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  • #9
See, this is why I hate being given only "partial" information when there is a bigger picture to the question. You should have stated this way in the very beginning! I've just wasted time describing to you stuff that are utterly irrelevant to the intent of your question.

If you wish to continue posting in this forum, please consider providing all the necessary information with your question, not just what you THINK we need to know.

Zz.
 

Related to Charged Particle Beams: Uses & Potential Applications

1. What are charged particle beams?

Charged particle beams are streams of charged particles, such as electrons or protons, that are accelerated to high speeds using electric or magnetic fields. These beams can be manipulated and controlled to perform various functions in different applications.

2. What are the uses of charged particle beams?

Charged particle beams have a wide range of uses in different fields, such as scientific research, medical treatments, and industrial processes. They can be used for imaging, irradiation, and material modification, among other applications.

3. How are charged particle beams generated?

Charged particle beams are typically generated using devices called particle accelerators, which use electric fields to accelerate charged particles to high speeds. These accelerators can vary in size and complexity depending on the desired energy and type of particles being accelerated.

4. What are the potential applications of charged particle beams?

The potential applications of charged particle beams are constantly expanding as new technologies and techniques are developed. Some potential future applications include advanced cancer therapy, improved materials analysis, and high-speed data communication.

5. What are the benefits and limitations of using charged particle beams?

The benefits of using charged particle beams include high precision, controllability, and non-invasiveness, making them useful for delicate procedures. However, they also have limitations, such as high costs and the need for specialized facilities and equipment.

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