Showing posts with label alpha emitter. Show all posts
Showing posts with label alpha emitter. Show all posts

Wednesday, May 27, 2015

Neutron Gun




Neutron Gun



What's so neat about neutrons? Well, among other things they can have a direct impact on their environment. They can knock out atoms in a crystalline structure, it can eat away at metals-causing then to become brittle, or can knock enough atomic particles around to actually change one element into an entirely different one via a process called transmutation.

If you aim the neutrons at heavy water/deuterium ($10) can create tritium (for modern glow-in-the-dark watches and gun sights)...although it would take years and years to accomplish. By the way: tritium slowly decays into helium-3 which is what Geiger counter tubes (Geiger-Muller tubes actually) are filled with.

Back to the design I scribbled above:
Alpha particle hits the beryllium. The beryllium turns onto carbon+a neutron. The neutron hits the paraffin wax and does one of two things, it either: slows down and continues on its merry way, or it hits a nucleus of a hydrogen atom in the wax really good and that sends a proton zinging out.

A word about Beryllium safety...according the internet it's super-deadly. In real life it's used in golf clubs, spark-less hammers, copper-beryllium tools, non-sparking drill bits, DENTAL crowns and implants and all sorts of other common, everyday stuff. 

Hopefully some of this will cause my Geiger counter to click.  If that fails then hopefully a neutron will hit some of the boron sprinkled into the paraffin wax, which will zing out an alpha particle-which can't be seen by my current Geiger counter, but can be seen by my radioscope ($29).

Now, if I replaced the paraffin with more uranium the neutrons would change any U-235 into U-236 (fission!). The U-236 promptly explodes and send off THREE new neutrons which then do the same to more and more U-235 atoms until...well, until the U-235 runs out.

Now, any U-238 in the blob of uranium goes through a similar process and becomes U-239, which blasts of beta particles of all things (which are detectable by my Geiger counter) and it breaks down into neptunium (also number 239). The neptunium-239 zings off yet another beta and becomes plutonium (again, still number 239). The plutonium zings off, are ready for this: more stupid alpha particles! Just like the ones we started with like a billion sentences ago...of course, the whole plutonium end of this reaction is pretty rare: even in a nuclear reactor it would take days.

This is in contrast to the boron portion, which is easy; so easy that hitting boron's huge neutron capture cross-section had been likened to hitting a barn door (a barn is the unit of measurement for denoting the size of a capture cross-section). A single barn unit is about the same size as the cross section of a uranium nucleus...boron's neutron capture cross section is 3800 barns! That's for B-10, regular boring boron still manages 760 barns.

If I replaced the beryllium with aluminum foil the result should be the same. I could replace the uranium at the beginning of the process with any alpha emitter, alpha particles being identical to a helium atom nucleus (2 neutrons bound to 2 protons); although it's like helium-4, not the helium-3 mentioned earlier.

It's all a big circle: helium, uranium, plutonium, helium-3, neptunium, neutrons, neutrons, neutrons...and of course our friend boron.



That's enough boron talk for now. Meow!