magneton

enUK

mag·ne·ton

M0033800 (măg′nĭ-tŏn′)n. Any unit of measurement of the magnetic moment of a molecular, atomic, or subatomic particle, especially the Bohr magneton or nuclear magneton.

magneton

(ˈmæɡnɪˌtɒn; mæɡˈniːtɒn) n1. (Units) Also called: Bohr magneton a unit of magnetic moment equal to eh/4πm where e and m are the charge and mass of an electron and h is the Planck constant. It has the value 9.274 096 × 10^–24 joule per tesla. Symbol: β or mB 2. (Units) Also called: nuclear magneton a similar unit equal to βm/M where M is the mass of the proton[C20: from magnet + (electr)on]

mag•ne•ton

(ˈmæg nɪˌtɒn)

n. a unit of magnetic moment, used in measuring the magnetic moment of atomic and subatomic particles. [< French magnéton (1911) = magnét(ique) magnetic + -on -on¹]

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Noun

magneton - a unit of magnetic moment of a molecular or atomic or subatomic particlemagnetomotive force unit - a unit of measurement of magnetomotive force

Magneton

enUK

Magneton

A unit of magnetic moment used to describe atomic, molecular, or nuclear magnets. More precisely, one unit, the Bohr magneton, is used at the atomic and molecular levels, and another unit, the nuclear magneton, is used at the nuclear level. Still another unit (which might be called the muon magneton, but is usually not named) is used to describe the magnetic moment of the muon.

The Bohr magneton μ_B is defined and its value given in Eq. (1), where -e and m (1) are the charge and mass of the electron respectively and ℏ is Planck's constant divided by 2&pgr;. In Dirac's theory the magnetic moment of the electron is exactly -μ_B, but according to the theory of quantum electrodynamics the electron has a small anomalous magnetic moment. The experimental value of the electron magnetic moment μ_e is given by Eq. (2), in agreement with the (2) prediction of quantum electrodynamics within the errors.

The unit of magnetic moment to describe the muon is obtained from the Bohr magneton by replacing m in Eq. (1) by the muon mass m_μ. The experimental value of the muon magnetic moment is given in Eq. (3). The deviation (3) of the muon magnetic moment from its Dirac value can also be accounted for by the theory of quantum electrodynamics. See Lepton

The nuclear magneton is obtained from the Bohr magneton by replacing m by the proton mass m_p. The value of the nuclear magneton is given in Eq. (4). The (4) nuclear magneton is used not only as the unit for the magnetic moment of the proton but also for the neutron and other hadrons and for atomic nuclei. If the proton and neutron were Dirac particles, the proton's magnetic moment would be one nuclear magneton (except for a small correction arising from quantum electrodynamics) and the neutron's magnetic moment would be zero (because the neutron is uncharged). However, the proton and neutron have large anomalous (5) magnetic moments, given in Eqs. (5). See Neutron, Nuclear moments, Proton

According to present theory, the proton, neutron, and other hadrons have large anomalous magnetic moments because these particles are not elementary but composite. In the theory of quantum chromodynamics, the principal constituents of a baryon, such as the proton or neutron, are three quarks. See Baryon, Elementary particle, Fundamental constants, Quantum chromodynamics, Quarks

Magneton

a unit of measurement of magnetic moment that has been adopted in atomic and nuclear physics.

The magnetic moment of atomic systems is due mainly to the motion of electrons and their spin and is measured in Bohr magnetons:

Here ħ is Planck’s constant, e and m are the absolute values of the charge and mass of an electron, and c is the speed of light.

In nuclear physics, magnetic moments are measured in nu-clear magnetons, which differ from μ_B in that the mass of the electron m is replaced by the mass of the proton M:

The physical meaning of the quantity μ_B may be understood easily on the basis of a semiclassical examination of the motion of an electron with velocity v in a circular orbit of radius r. This system is analogous to a coil carrying a current whose strength I is equal to the charge divided by the period of rotation: I = ev/2π_r. According to classical electrodynamics, in the Gaussian system the magnetic moment of a current-carrying coil that encompasses an area S is μ = IS/c = evr/2c, or μ = eMi/2mc, where M₁ — mvr is the orbital angular momentum of the electron. If we take into account the fact that, according to quantum laws, the orbital moment M_i of an electron can assume only discrete values that are multiples of Planck’s constant, Mi = lħ where l = 0, 1, 2,…, then the following expression results:

Thus, the magnetic moment of an electron in a state with an orbital moment M₁ is a multiple of the Bohr magneton. Consequently, in this case μ_B plays the role of an elementary magnetic moment, a “quantum” of an electron’s magnetic moment.

In addition to the orbital angular momentum M₁, which results from rotation, the electron has an intrinsic mechanical moment, the spin, which is s = 1/2 (in units of ħ). The spin magnetic moment is μ_s = 2_μB—that is, it is twice as large as the quantity that would be expected on the basis of formula (3), but since s = 1/2 , μ_s of an electron is also equal to the Bohr magneton: μ_s = μ_B This stems directly from the relativistic quantum theory of the electron, which is based on the Dirac equation.

The nuclear magneton has a similar meaning: it is the magnetic moment created by the motion of a proton (within the nucleus) having an orbital moment l = 1. However, the intrinsic magnetic moments of nuclear particles—the proton and neutron —which, like the electron, have a spin of 1/2, differ significantly from the values that would be expected according to Dirac’s theory. The anomalous magnetic moments of these particles are due to their strong interaction.

D. V. GAL’TSOV

magneton

[′mag·nə‚tän] (physics) A unit of magnetic moment used for atomic, molecular, or nuclear magnets, such as the Bohr magneton, Weiss magneton, or nuclear magneton.

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noun a unit of magnetic moment of a molecular or atomic or subatomic particle

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