Neutron bombardment of paraffin

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Discussion Overview

The discussion revolves around the effects of neutron bombardment on paraffin wax, specifically focusing on the types of particles emitted and the energies involved. Participants explore theoretical aspects, potential experimental outcomes, and the behavior of neutrons in this context.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested
  • Experimental/applied

Main Points Raised

  • Some participants propose that paraffin emits protons when bombarded with neutrons, while others question the specific energy parameters of the neutrons involved.
  • There is mention of boron and hydrogen being effective absorbers of low-energy neutrons, potentially releasing alpha and gamma radiation.
  • One participant suggests that neutrons from alpha irradiation of beryllium or aluminum could be relevant to the discussion.
  • Another participant notes that paraffin acts as a good neutron moderator, leading to repeated elastic collisions and the possibility of capturing neutrons to form deuterons and emit gamma radiation.
  • Questions arise regarding the expected energy of emitted particles, particularly the deuteron, and the need for specific input energy parameters to estimate output energies.
  • Concerns are raised about the conservation of energy, with assertions that output energy will not exceed input energy and will be distributed among emitted products.
  • One participant mentions elastic scattering detectors and the dynamics of neutron-proton interactions in paraffin, likening it to a Newton's cradle effect.
  • Another participant clarifies that scattering is typically at angles rather than head-on, affecting energy transfer and resulting in various effects within the paraffin.
  • There is speculation about the production of photons from capture events at lower energies and the potential for other emissions at higher energies.

Areas of Agreement / Disagreement

Participants express differing views on the specific outcomes of neutron bombardment of paraffin, with no consensus on the types of emitted particles or their energies. The discussion remains unresolved regarding the exact nature of the interactions and emissions.

Contextual Notes

Limitations include the lack of specific energy parameters for the neutrons and the dependence on the definitions of terms like "capture events" and "elastic scattering." The discussion also highlights the complexity of neutron interactions with paraffin, which may vary based on energy levels.

lawrencium103
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When paraffin wax (or borated paraffin) is bombarded with neutrons, what does the paraffin emit? (If memory serves me correctly I think it emits protons...?) Also what are typical energies that the emitted particles have?
 
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Bombarded with neutrons of which energy?
Boron and hydrogen are good absorbers for low-energetic neutrons, and will release alpha and gamma radiation.
High-energetic neutrons can produce all sorts of hadrons in the collisions.
 
Say the neutrons created from alpha irradiation of either beryllium or aluminum
 
Mostly, paraffin and the H atoms it contains are considered to be a good neutron moderator. That means repeated elastic collisions. There's also an appreciable cross-section for capture, formation of a deuteron and release of a gamma.
 
So paraffin bombarded with neutrons from an alpha irradiated beryllium/aluminum source will produce gamma and a deuteron? What would be the approximate expected energy of the deuteron?
 
Well how do we know?
You didn't say the energy parameters for the input energy or the "alpha irradiated beryllium/aluminum source"

Surely the output energy will not be bigger than the one that went in , ofcourse if there doesn't start a chain reaction which is not the case with paraffin.
So the output will always be somewhere less than the input not also the output energy will be divided among the products of the outcome ( gamma, deuteron etc.)
Now if you would give us some numbers I'm sure there will be some math fanatics here to give you the approximate energies.
 
Crazymechanic said:
Well how do we know?
You didn't say the energy parameters for the input energy or the "alpha irradiated beryllium/aluminum source"

Surely the output energy will not be bigger than the one that went in , ofcourse if there doesn't start a chain reaction which is not the case with paraffin.
So the output will always be somewhere less than the input not also the output energy will be divided among the products of the outcome ( gamma, deuteron etc.)
Now if you would give us some numbers I'm sure there will be some math fanatics here to give you the approximate energies.

Yeah sorry about all the abstracts, I'm just asking theoretical questions. Has anyone done experiments with neutron bombardment of paraffin using alpha irradiated beryllium/ aluminum source? Maybe that could give me a better idea of the energies involved.
 
I think the OP is thinking of elastic scattering detectors, where the neutron comes in and elastically scatters with a proton in the paraffin. The proton is then detected. Since m(n) is close to m(p), you have a phenomenon like Newton's Balls.
 
Well, except that the scattering is usually not ---><---- head on like in Newton's cradle.
Most of the time it is at an angle. The proton gets some of the energy and the nuetron
loses some.

The recoiling proton probably does not go very far. It will scatter from the various
things in the paraffin. So mostly it will just produce some dislocation effections in the
wax, some heat, maybe some weird molecules due to the ionization.

Mostly what you will see from neutrons on paraffin is some photons produced by
capture events, at least at energies low enough not to be producing other stuff.
If the energy is high enough you can start to see lots of others tuff.
Dan
 

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