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	~~'''~~Neutron temperature''' is a term used in [[nuclear physics]] to describe the kinetic energy of [[neutrons]] in a system. It is an important concept in various fields such as [[nuclear engineering]], [[nuclear fusion]], and [[nuclear fission]].		{{DISPLAYTITLE:Neutron Temperature}}

	== ~~Overview~~ ==		== Neutron Temperature ==
			[[File:MaxwellBoltzmann-en.svg\|thumb\|right\|300px\|Maxwell-Boltzmann distribution of neutron speeds.]]

	Neutron temperature is ~~not~~ a ~~measure of heat, but rather a measure of~~ the ~~average~~ kinetic energy of ~~the~~ neutrons in a ~~system~~. It is ~~typically measured~~ in ~~electron volts (~~[[eV]]~~), a unit~~ of ~~energy. The neutron~~ temperature of a ~~system can be determined by the speed and direction~~ of ~~the~~ neutrons.		Neutron temperature is a concept used in [[nuclear physics]] to describe the kinetic energy of [[neutrons]] in a given environment. It is an important factor in nuclear reactions, as the energy of neutrons affects their interaction with [[atomic nuclei]]. Neutron temperature is often expressed in terms of the [[temperature]] of a hypothetical gas of neutrons in thermal equilibrium.

	== ~~Thermal~~ Neutrons ==		== Classification of Neutrons by Temperature ==
			Neutrons can be classified based on their kinetic energy, which is related to their temperature. The main categories are:

	[[~~Thermal neutrons~~]] are ~~neutrons~~ in ~~thermal equilibrium with a surrounding medium. They have a~~ neutron ~~temperature similar to the actual temperature of the medium. Thermal neutrons have a speed of about 2200 meters per second at room temperature~~.		=== Cold Neutrons ===
			Cold neutrons have very low kinetic energy, typically less than 0.025 eV. They are produced in [[neutron moderators]] and are used in various applications such as [[neutron scattering]] experiments.

	== ~~Fast~~ Neutrons ==		=== Thermal Neutrons ===
			Thermal neutrons are in thermal equilibrium with their environment and have energies around 0.025 eV at room temperature. They are crucial in [[nuclear reactors]] as they are more likely to induce [[nuclear fission]] in certain isotopes, such as [[uranium-235]].

	~~[[Fast~~ neutrons~~]] are high-energy~~ neutrons ~~with energies above~~ 1 ~~MeV~~. They are ~~produced in nuclear reactions and have a higher neutron temperature than~~ thermal neutrons~~. Fast neutrons are important in nuclear fission as they can cause the fission of certain heavy nuclei~~.		=== Epithermal Neutrons ===
			Epithermal neutrons have energies between thermal and fast neutrons, typically ranging from 0.025 eV to 1 keV. They are less likely to be absorbed by nuclei compared to thermal neutrons.

	== ~~Cold~~ Neutrons ==		=== Fast Neutrons ===
			Fast neutrons have high kinetic energy, typically greater than 1 keV. They are produced in nuclear reactions and are important in [[fast neutron reactors]].

	~~[[Cold~~ neutrons~~]] are neutrons that~~ have ~~been moderated to energies below thermal~~ energies. They ~~have a lower neutron temperature than thermal neutrons. Cold neutrons~~ are ~~used~~ in ~~neutron scattering~~ experiments and ~~in neutron radiography~~.		=== Relativistic Neutrons ===
			Relativistic neutrons have extremely high energies, often exceeding 1 MeV. They are encountered in high-energy physics experiments and cosmic ray interactions.

	== Neutron Moderation ==		== Neutron Moderation ==
			Neutron moderation is the process of reducing the kinetic energy of fast neutrons to convert them into thermal neutrons. This is achieved using materials known as moderators, such as [[water]], [[heavy water]], or [[graphite]]. Moderation is essential in thermal nuclear reactors to sustain a controlled chain reaction.

	[[Neutron ~~moderation]] is the process~~ of ~~slowing down fast neutrons to thermal energies. This is achieved by the neutrons colliding with a [[moderator]], which is a material that slows down the neutrons without absorbing them. The~~ neutron temperature ~~after moderation~~ is ~~dependent on the type of moderator used.~~		== Applications of Neutron Temperature ==
			The concept of neutron temperature is applied in various fields:

	~~== Applications ==~~		* In [[nuclear reactor]] design, understanding neutron temperature helps in optimizing the reactor's efficiency and safety.
			* In [[neutron scattering]] techniques, different neutron temperatures are used to probe the structure of materials at the atomic level.
			* In [[nuclear medicine]], neutron temperature is considered in the design of [[boron neutron capture therapy]] (BNCT) for cancer treatment.

	Neutron ~~temperature is a critical parameter in nuclear~~ reactor design. The neutron temperature affects the rate of nuclear reactions, the efficiency of the reactor, and the safety of the reactor. In nuclear fusion research, the neutron temperature is important in determining the conditions for achieving a sustained fusion reaction.		== Related Pages ==
			* [[Neutron]]
			* [[Nuclear reactor]]
			* [[Neutron scattering]]
			* [[Nuclear fission]]
			* [[Neutron moderator]]

	[[Category:Nuclear physics]]		[[Category:Nuclear physics]]
	[[Category:~~Nuclear engineering~~]]		[[Category:Neutron]]
	~~[[Category:Nuclear fusion]]~~
	~~[[Category:Nuclear fission]]~~
	~~{{physics-stub}}~~

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'''Neutron temperature''' is a term used in [[nuclear physics]] to describe the kinetic energy of [[neutrons]] in a system. It is an important concept in various fields such as [[nuclear engineering]], [[nuclear fusion]], and [[nuclear fission]].

== Overview ==

Neutron temperature is not a measure of heat, but rather a measure of the average kinetic energy of the neutrons in a system. It is typically measured in electron volts ([[eV]]), a unit of energy. The neutron temperature of a system can be determined by the speed and direction of the neutrons.

== Thermal Neutrons ==

[[Thermal neutrons]] are neutrons in thermal equilibrium with a surrounding medium. They have a neutron temperature similar to the actual temperature of the medium. Thermal neutrons have a speed of about 2200 meters per second at room temperature.

== Fast Neutrons ==

[[Fast neutrons]] are high-energy neutrons with energies above 1 MeV. They are produced in nuclear reactions and have a higher neutron temperature than thermal neutrons. Fast neutrons are important in nuclear fission as they can cause the fission of certain heavy nuclei.

== Cold Neutrons ==

[[Cold neutrons]] are neutrons that have been moderated to energies below thermal energies. They have a lower neutron temperature than thermal neutrons. Cold neutrons are used in neutron scattering experiments and in neutron radiography.

== Neutron Moderation ==

[[Neutron moderation]] is the process of slowing down fast neutrons to thermal energies. This is achieved by the neutrons colliding with a [[moderator]], which is a material that slows down the neutrons without absorbing them. The neutron temperature after moderation is dependent on the type of moderator used.

== Applications ==

Neutron temperature is a critical parameter in nuclear reactor design. The neutron temperature affects the rate of nuclear reactions, the efficiency of the reactor, and the safety of the reactor. In nuclear fusion research, the neutron temperature is important in determining the conditions for achieving a sustained fusion reaction.

[[Category:Nuclear physics]]
[[Category:Nuclear engineering]]
[[Category:Nuclear fusion]]
[[Category:Nuclear fission]]
{{physics-stub}}

Neutron temperature - Revision history

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