Nuclear magneton

The value of nuclear magneton
system of units	value	unit
SI	6973505078369900000♠5.050783699(31)×10⁻²⁷	J·T⁻¹
CGS	6976505078369900000♠5.050783699(31)×10⁻²⁴	Erg·G⁻¹
eV	6992315245125500000♠3.1524512550(15)×10⁻⁸	eV·T⁻¹
MHz/T (per h)	7000762259328500000♠7.622593285(47)	MHz/T^[1]

The nuclear magneton (symbol μ_N), is a physical constant of magnetic moment, defined in SI units by:

\mu _{{\mathrm {N}}}={{e\hbar } \over {2m_{{\mathrm {p}}}}}

and in Gaussian CGS units by:

\mu _{{\mathrm {N}}}={{e\hbar } \over {2m_{{\mathrm {p}}}c}}

where:

e is the elementary charge,

ħ is the reduced Planck constant,

m_p is the proton rest mass, and

c is the speed of light

In SI units, its value is approximately:

μ_N = 5.050783699(31)×10⁻²⁷ J/T

In Gaussian CGS units, its value can be given in convenient units as

μ_N = 0.10515446 e⋅fm

The nuclear magneton is the natural unit for expressing magnetic dipole moments of heavy particles such as nucleons and atomic nuclei.

Due to the fact that neutrons and protons consist of quarks and thus are no real Dirac particles, their magnetic moment differ from $\mu _{\mathrm {N} }$ :

\mu _{\mathrm {p} }=2{.}79\mu _{\mathrm {N} }

\mu _{\mathrm {n} }=-1{.}91\mu _{\mathrm {N} }

The magnetic dipole moment of the electron, which is much larger as a consequence of much larger charge-to-mass ratio, is usually expressed in units of the Bohr magneton. The Bohr magneton, which is calculated in the same fashion as the nuclear magneton, is larger than μ_N by a factor equal to the ratio of the proton to electron mass, or about a factor of 1836.

References

↑ "nuclear magneton in MHz/T: $\mu _{\rm {N}}/h$ ". NIST (citing CODATA recommended values). 2014.

External links

Nuclear magneton, value from CODATA

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[1] "nuclear magneton in MHz/T: $\mu _{\rm {N}}/h$ ". NIST (citing CODATA recommended values). 2014.

Nuclear magneton

See also

References

External links