Neutron temperature: Difference between revisions
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The '''neutron temperature''' indicates a [[free neutron|free neutron's]] [[energy]], usually given in [[electron volt]]s. |
The '''neutron temperature''' indicates a [[free neutron|free neutron's]] [[energy]], usually given in [[electron volt]]s. |
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*'''[[Fast neutron]]s''' have an energy greater than 1 eV, |
*'''[[Fast neutron]]s''' have an energy greater than 1 eV, .1 MeV or approximately 1 MeV, depending on the definition. |
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*'''Slow neutrons''' have an energy less than 1 eV. |
*'''Slow neutrons''' have an energy less than 1 eV. |
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*'''Epithermal neutrons''' have an energy from 0.025 to 1 eV. |
*'''Epithermal neutrons''' have an energy from 0.025 to 1 eV. |
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Revision as of 08:25, 19 January 2006
The neutron temperature indicates a free neutron's energy, usually given in electron volts.
- Fast neutrons have an energy greater than 1 eV, .1 MeV or approximately 1 MeV, depending on the definition.
- Slow neutrons have an energy less than 1 eV.
- Epithermal neutrons have an energy from 0.025 to 1 eV.
- Thermal neutrons have an energy of about 0.025 eV.
- Cold neutrons have an energy from 5x10-5 eV to 0.025 eV.
- Very cold neutrons have an energy from 2x10-7 eV to 5x10-5 eV.
- Ultra cold neutrons have an energy less than 2x10-7 eV.
- Continuum region neutrons have an energy from 0.01 MeV to 25 MeV.
- Resonance region neutrons have an energy from 1 eV to 0.01 MeV.
- Low energy region neutrons have an energy less than 1 eV.