# Gyromagnetic ratio

Gyromagnetic ratio

In physics, the gyromagnetic ratio (also sometimes known as the magnetogyric ratio in other disciplines) of a particle or system is the ratio of its magnetic dipole moment to its angular momentum, and it is often denoted by the symbol γ, gamma. Its SI units are radian per second per tesla (s−1·T -1) or, equivalently, coulomb per kilogram (C·kg−1).

The term "gyromagnetic ratio" is sometimes used as a synonym for a different but closely related quantity, the g-factor. The g-factor, unlike the gyromagnetic ratio, is dimensionless. For more on the g-factor, see below, or see the article g-factor.

## Gyromagnetic ratio and Larmor precession

Any free system with a constant gyromagnetic ratio, such as a rigid system of charges, a nucleus, or an electron, when placed in an external magnetic field B (measured in teslas) that is not aligned with its magnetic moment, will precess at a frequency f (measured in hertz), that is proportional to the external field: $f=\frac{\gamma}{2\pi}B$ .

For this reason, values of γ/(2π), in units of hertz per tesla (Hz/T), are often quoted instead of γ.

This relationship also explains an apparent contradiction between the two equivalent terms, gyromagnetic ratio versus magnetogyric ratio: whereas it is a ratio of a magnetic property (i.e. dipole moment) to a gyric (rotational, from Greek: γύρος, "turn") property (i.e. angular momentum), it is also, at the same time, a ratio between the angular precession frequency (another gyric property) ω = 2πf and the magnetic field.

## Gyromagnetic ratio for a classical rotating body

Consider a charged body rotating about an axis of symmetry. According to the laws of classical physics, it has both a magnetic dipole moment and an angular momentum due to its rotation. It can be shown that as long as its charge and mass are distributed identically (e.g., both distributed uniformly), its gyromagnetic ratio is $\gamma = \frac{q}{2m}$

where q is its charge and m is its mass. The derivation of this relation is as follows:

It suffices to demonstrate this for an infinitesimally narrow circular ring within the body, as the general result follows from an integration. Suppose the ring has radius r, area A = πr2, mass m, charge q, and angular momentum L=mvr. Then the magnitude of the magnetic dipole moment is $\mu = IA = \frac{qv}{2\pi r}\times\pi r^2 = \frac{q}{2m}\times mvr = \frac {q}{2m} L$

as desired.

## Gyromagnetic ratio for an isolated electron

An isolated electron has an angular momentum and a magnetic moment resulting from its spin. While an electron's spin is sometimes visualized as a literal rotation about an axis, it is in fact a fundamentally different, quantum-mechanical phenomenon with no true analogue in classical physics. Consequently, there is no reason to expect the above classical relation to hold. In fact it does not, giving the wrong result by a dimensionless factor called the electron g-factor, denoted ge (or just g when there is no risk of confusion): $\gamma_\mathrm{e} = \frac{|-e|}{2m_\mathrm{e}}g_\mathrm{e} = g_\mathrm{e} \mu_\mathrm{B}/\hbar,$

where μB is the Bohr magneton. As mentioned above, in classical physics one would expect the g-factor to be g = 1. However in the framework of relativistic quantum mechanics, $g_e = 2(1+\frac{\alpha}{2\pi}+\cdots),$

where $\alpha\approx 1/137$ is the fine-structure constant. Here the small corrections to the relativistic result g = 2 come from the quantum field theory. Experimentally, the electron g-factor has been measured to twelve decimal places: $~g_\mathrm{e} = 2.0023193043617(15).$

The electron gyromagnetic ratio is given by NIST as $\gamma_\mathrm{e} = 1.760\,859\,770(44) \times 10^{11}\, \mathrm{rad\ s^{-1}T^{-1}}.$

The g-factor and γ are in excellent agreement with theory; see Precision tests of QED for details.

## Gyromagnetic factor as a consequence of relativity

Since a gyromagnetic factor equal to 2 follows from the Dirac's equation it is a frequent misconception to think that a g-factor 2 is a consequence of relativity; it is not. The factor 2 can be obtained from the linearization of both the Schrödinger equation and the relativistic Klein-Gordon equation (which leads to Dirac's). In both cases a 4-spinor is obtained and for both linearizations the g-factor is found to be equal to 2; Therefore, the factor 2 is a consequence of the wave equation dependency on the first (and not the second) derivatives with respect to space and time.

## Gyromagnetic ratio for a nucleus

Protons, neutrons, and many nuclei carry nuclear spin, which gives rise to a gyromagnetic ratio as above. The ratio is conventionally written in terms of the proton mass and charge, even for neutrons and for other nuclei, for the sake of simplicity and consistency. The formula is: $\gamma = \frac{e}{2m_p}g = g \mu_\mathrm{N}/\hbar,$

where μN is the nuclear magneton, and g is the g-factor of the nucleon or nucleus in question.

The gyromagnetic ratio of a nucleus is particularly important because of the role it plays in Nuclear Magnetic Resonance (NMR) and Magnetic Resonance Imaging (MRI). These procedures rely on the fact that nuclear spins precess in a magnetic field at a rate called the Larmor frequency, which is simply the product of the gyromagnetic ratio with the magnetic field strength.

Approximate values for some common nuclei are given in the Table below. 

Nucleus γ / 106 rad s−1 T−1 γ/2π / MHz T−1
1H 267.513 42.576
2H 41.065 6.536
3He -203.789 -32.434
7Li 103.962 16.546
13C 67.262 10.705
14N 19.331 3.077
15N -27.116 -4.316
17O -36.264 -5.772
19F 251.662 40.053
23Na 70.761 11.262
31P 108.291 17.235
129Xe -73.997 -11.777

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### См. также в других словарях:

• gyromagnetic ratio — giromagnetinis santykis statusas T sritis Standartizacija ir metrologija apibrėžtis Apibrėžtį žr. priede. priedas( ai) Grafinis formatas atitikmenys: angl. gyromagnetic coefficient; gyromagnetic ratio vok. gyromagnetisches Verhältnis, n;… …   Penkiakalbis aiškinamasis metrologijos terminų žodynas

• gyromagnetic ratio — noun : the ratio of the magnetic moment of a spinning electrical particle (as an electron) to its mechanical angular momentum * * * Physics. the ratio of the magnetic moment of a rotating charged particle to its angular momentum. [1925 30] * * *… …   Useful english dictionary

• gyromagnetic ratio — giromagnetinis santykis statusas T sritis fizika atitikmenys: angl. gyromagnetic ratio vok. gyromagnetisches Verhältnis, n rus. гиромагнитное отношение, n pranc. rapport gyromagnétique, m …   Fizikos terminų žodynas

• gyromagnetic ratio — noun Date: 1922 the ratio of the magnetic moment of a spinning charged particle to its angular momentum called also g factor …   New Collegiate Dictionary

• gyromagnetic ratio — Physics. the ratio of the magnetic moment of a rotating charged particle to its angular momentum. [1925 30] * * * …   Universalium

• gyromagnetic ratio — noun the ratio of the angular momentum to the magnetic moment in an atom etc …   Wiktionary

• gyromagnetic ratio — /dʒaɪroʊmægˌnɛtɪk ˈreɪʃioʊ/ (say juyrohmag.netik raysheeoh) noun the ratio of the magnetic moment of an atom, nucleus, or particle to its angular momentum …   Australian English dictionary

• nuclear gyromagnetic ratio — branduolio giromagnetinis santykis statusas T sritis fizika atitikmenys: angl. nuclear gyromagnetic ratio vok. gyromagnetisches Verhältnis des Atomkerns, n rus. ядерное гиромагнитное отношение, n pranc. rapport gyromagnétique nucléaire, m …   Fizikos terminų žodynas

• gyromagnetic coefficient — giromagnetinis santykis statusas T sritis Standartizacija ir metrologija apibrėžtis Apibrėžtį žr. priede. priedas( ai) Grafinis formatas atitikmenys: angl. gyromagnetic coefficient; gyromagnetic ratio vok. gyromagnetisches Verhältnis, n;… …   Penkiakalbis aiškinamasis metrologijos terminų žodynas

• ratio — An expression of the relation of one quantity to another ( e.g., of a proportion or rate). SEE ALSO: index (2), quotient. [L. r. (ration ) a reckoning, reason, fr. reor, pp. ratus, to reckon, compute] absolute terminal innervation r. the number… …   Medical dictionary

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