Examples of 'thermal neutrons' in a sentence
Meaning of "thermal neutrons"
Thermal neutrons refer to neutrons that are in thermal equilibrium with their environment, meaning their kinetic energy matches the average kinetic energy of the particles surrounding them. In the context of nuclear reactions, thermal neutrons are often used to initiate or sustain chain reactions
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- plural of thermal neutron
How to use "thermal neutrons" in a sentence
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thermal neutrons
Cross sections are for thermal neutrons in barns.
Thermal neutrons in heavy water.
An appropriate device based on thermal neutrons is therefore conceivable.
The fission process is typically sustained by thermal neutrons.
Thermal neutrons could not cure more deeply located tumours.
These neutrons are termed thermal neutrons.
These thermal neutrons are the primary source of fissions in the reactor.
Boric acid is an effective soluble absorber of thermal neutrons.
This isotope strongly absorbs thermal neutrons releasing much energy.
The neutron counter according to the invention counts thermal neutrons.
A semiconductor detector for thermal neutrons based on pyrolytic boron nitride.
It is thermal neutrons that are primarily responsible for the latter types of interaction.
It operates with thermal neutrons.
It is the slow or thermal neutrons which cause the continuing nuclear reaction to occur.
The chain nuclear reaction can only be continued by slow or thermal neutrons.
See also
Referred to as thermal neutrons.
This is because a larger amount of water increases reactivity by providing more thermal neutrons.
This results in production of fewer thermal neutrons and decreased fission.
The neutrons quickly slow down in the body to become low energy thermal neutrons.
Fast neutrons can be made into thermal neutrons via a process called moderation.
Application in nuclear technology due to the low capture cross section for thermal neutrons.
Many of the considerations given above for thermal neutrons are now no longer relevant.
If thermal neutrons are used, this is called thermal capture.
Fast neutrons can be rapidly changed into thermal neutrons via a process called moderation.
If thermal neutrons are used, the process is called thermal capture.
The rate of absorption of thermal neutrons with a velocity V is VΣ.
The Reed Research Reactor is intended to produce thermal neutrons.
Response to Thermal neutrons.
When thermal neutrons are then absorbed, gamma rays are emitted.
In particular, the cold neutrons may be thermal neutrons.
Flux of fast and thermal neutrons and gamma photons ;.
The detector 3 is efficiency able to detect such thermal neutrons.
The energy of thermal neutrons is only of about one electron-volt.
In such applications, it serves its function by adsorbing thermal neutrons.
Thus, more fast neutrons become thermal neutrons capable of promoting fissioning.
The neutron detector 3 is configured to detect particularly thermal neutrons.
Therefore, such thermal neutrons can often be absorbed more easily by an atomic nucleus.
A thermal-neutron reactor is a nuclear reactor that uses slow or thermal neutrons.
A well-collimated beam of thermal neutrons may then be focused on the defined tumor locations.
On average, more neutrons per fission are produced by fast neutrons than from thermal neutrons.
Thermal neutrons of energies < 0.4 eV were obtained from research reactors operated by the institutions.
Most neutron detectors used in thermal-spectrum nuclear reactors are optimized to detect thermal neutrons.
Thermal neutrons diffuse in all directions, and therefore also towards the inside of compartment 12.
Among its properties are high, hardness, wear resistance and cross section for thermal neutrons.
Other activating agents include thermal neutrons which could be used to activate boron-containing 1,8-naphthalimide dyes.
After the process of moderation, the neutrons have energies which are characteristic for thermal neutrons.
DN - dose by thermal neutrons - due to thermal neutrons capture by nitrogen, Nn, pC ;.
Intermediate-energy neutrons have poorer fission / capture ratios than either fast or thermal neutrons for most fuels.
In turn these thermal neutrons would be absorbed by the Thorium 232 changing it into Protactinium 233.
The BR1 reactor is exceptionally suitable for irradiation with thermal neutrons.
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Examples of using Neutrons
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The stream of neutrons should grow accordingly
Neutrons are relevant background in rare event physics
Protons and neutrons would not bind
Examples of using Thermal
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Inverter is too hot thermal shutdown mode
Thermal protection circuits are shutting amplifier off
Do not use the thermal carafe in a microwave
