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Antineutron

Subatomic particle

Field	Value
name	Antineutron	image = [[Image:Quark structure antineutron.svg	200px]]
caption	The quark structure of the antineutron.
classification	antibaryon
composition	1 up antiquark, 2 down antiquarks
statistics	fermionic
group	hadron
interaction	strong, weak, electromagnetic, gravitational
antiparticle	neutron
discovered	Bruce Cork (1956)
symbol
mass
mean_lifetime	(free)
electric_charge	0 e
magnetic_moment
spin	ħ
isospin

The antineutron is the antiparticle of the neutron with symbol . It differs from the neutron only in that some of its properties have equal magnitude but opposite sign. It has the same mass as the neutron, and no net electric charge, but has opposite baryon number (+1 for neutron, −1 for the antineutron). This is because the antineutron is composed of antiquarks, while neutrons are composed of quarks. The antineutron consists of one up antiquark and two down antiquarks.

Background

The antineutron was discovered in proton–antiproton collisions at the Bevatron (Lawrence Berkeley National Laboratory) by the team of Bruce Cork, Glen Lambertson, Oreste Piccioni, and William Wenzel in 1956, one year after the antiproton was discovered.

Since the antineutron is electrically neutral, it cannot easily be observed directly. Instead, the products of its annihilation with ordinary matter are observed. In theory, a free antineutron should decay into an antiproton, a positron, and a neutrino in a process analogous to the beta decay of free neutrons. There are theoretical proposals of neutron–antineutron oscillations, a process that implies the violation of the baryon number conservation. There is a project to search for neutron-antineutron oscillations using ultracold neutrons.

Magnetic moment

The magnetic moment of the antineutron is the opposite of that of the neutron. It is for the antineutron but for the neutron (relative to the direction of the spin). Here μN is the nuclear magneton.

References

(15 November 1956). "Antineutrons Produced from Antiprotons in Charge-Exchange Collisions". Physical Review.
R. N. Mohapatra. (2009). "Neutron-Anti-Neutron Oscillation: Theory and Phenomenology". [[Journal of Physics G]].
C. Giunti. (19 August 2010). "Neutron Oscillations". [[Istituto Nazionale di Fisica Nucleare]].
Y. A. Kamyshkov. (16 January 2002). "Neutron → Antineutron Oscillations". NNN 2002 Workshop on "Large Detectors for Proton Decay, Supernovae and Atmospheric Neutrinos and Low Energy Neutrinos from High Intensity Beams" at CERN.
(2016). "Sensitivity of Experiment on Search for Neutron–Antineutron Oscillations on the Projected Ultracold Neutron Source at the WWR-M Reactor". [[Technical Physics Letters]].
A.K. Fomin. (2017). "Experiment on search for neutron–antineutron oscillations using a projected UCN source at the WWR-M reactor". Journal of Physics: Conference Series.
A.K. Fomin. (2017). "Experiment On Search For n-nbar Oscillations Using A Projected UCN Source At The WWR-M Reactor". Proceedings of Science.
A.K. Fomin. (2019). "Project on searching for neutron-antineutron oscillation at the WWR-M reactor". Journal of Physics: Conference Series.
Lorenzon, Wolfgang. (6 April 2007). "Physics 390: Homework set #7 Solutions". Modern Physics, Physics 390, Winter 2007.

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antimatter baryons neutron nucleons

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