Electron beam/atmosphere interaction

AI Thread Summary
An electron beam in the atmosphere loses kinetic energy quickly, with a mean free path of about 10 micrometers for low-energy electrons (tens of eV). This limited range makes electron beams ineffective as weapons in atmospheric conditions, although they can be effective in a vacuum against sensitive electronics. Military research into electron beams for applications like anti-missile systems often assumes interception occurs outside the atmosphere. The discussion also touches on the potential for using such technology in detonating IEDs, but it concludes that electron beams would not effectively complete circuits unless they cause physical damage. Overall, while electron beams have some military applications, their effectiveness is significantly reduced in atmospheric conditions.
msquared
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Hello,

This is something that's puzzled me for a while, but I haven't been able to find any conclusive answers anywhere. What I'm wondering is, how far would an electron beam (such as that found in a TV) travel in the atmosphere before it lost its kinetic energy or bonded with the air molecules?

I've heard about particle beam weapons being researched for anti-missile applications and such, so that makes me think it could potentially go quite a ways...any answers or even suggestions as to where I could look would be greatly appreciated!
 
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The electron mean free path in air is of the order of 10^{-6} m for an energy of the order of 10's of eV. It doesn't make a very good weapon, I would think.

Zz.
 
Thanks for the quick reply, that's exactly what I was looking for!

Makes me wonder why they're researching them for military applications (for example, Medusa) though.
 
msquared said:
Makes me wonder why they're researching them for military applications (for example, Medusa) though.
MEDUSA uses a beam of microwave pulses, not electrons. To make any kind of a serious electron beam weapon, you'd have to accelerate the electrons to very high energy.

As Zz stated, low energy electrons (10's of eV) won't get very far in the atmosphere. I used to do electron scattering experiments at those energies--those experiments had to be done in a high vacuum chamber.
 
Ah ok, thanks for clearing that up for me.
 
I think that most of the research into electron beams as anti-missile weapons were assuming the interception of ICBM's outside the atmosphere by an orbiting weapons platform. Electron beams make fairly decent weapons in a vacuum, especially against a target with sensitive electronics on board.
 
Can this technology be used to complete an electrical circiut between conductors at any distance? Develop to detonate IED?
 
averagejoe11 said:
Can this technology be used to complete an electrical circiut between conductors at any distance? Develop to detonate IED?

It would not complete a circuit unless it melts something and causes a short. Whether this is possible using microwaves I am unsure. (which is what I'm assuming your referring to, as an electron beam would be stopped by a few mm's of ground) If the electronics are shielded, which isn't hard, then I don't think so.
Although if it could be used as an IED detonator or minesweeper it would be pretty cool.
 

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