Deuterium–tritium fusion

Deuterium–tritium fusion is a type of nuclear fusion. In deuterium–tritium fusion, one deuterium nucleus, or the center of a deuterium atom, fuses with one tritium nucleus. This makes one helium nucleus, one neutron, and 17.6 mega electronvolts of energy.^[1]

How to get deuterium and tritium

Deuterium is easy to find in seawater. 1 in 5000 hydrogen atoms are deuterium.^[2] However, tritium is a radioactive isotope. If lithium is exposed to neutrons with much energy, tritium is produced.^[1]^[2] The deuterium–tritium reaction also produces one neutron. In fusion reactors, a 'breeding blanket' is used where the walls of the fusion reactor have lithium on them.^[3] This way, the neutrons produced from fusion will hit the lithium and produce more tritium.

References

↑ ^1.0 ^1.1 "Nuclear Fusion". Hyperphysics. Georgia State University. Retrieved April 10, 2021.
↑ ^2.0 ^2.1 Lanctot, Matthew. "DOE Explains...deuterium–tritium Fusion Reactor Fuel". Department of Energy. Retrieved April 12, 2021.^{[permanent dead link]}
↑ "Fueling the Fusion Reaction". ITER. Retrieved April 12, 2021.

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[georgia-1] 1.0 ^1.1 "Nuclear Fusion". Hyperphysics. Georgia State University. Retrieved April 10, 2021.

[doe-2] 2.0 ^2.1 Lanctot, Matthew. "DOE Explains...deuterium–tritium Fusion Reactor Fuel". Department of Energy. Retrieved April 12, 2021.^{[permanent dead link]}

[3] "Fueling the Fusion Reaction". ITER. Retrieved April 12, 2021.

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