Bohr magneton

E143963

The Bohr magneton is a fundamental physical constant that represents the natural unit of the electron’s magnetic moment in atomic physics.

All labels observed (1)

Label Occurrences
Bohr magneton canonical 5

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Statements (44)

Predicate Object
instanceOf magnetic moment unit
physical constant
appearsIn Schrödinger equation solutions for hydrogen-like atoms
Zeeman effect
surface form: Zeeman Hamiltonian

spin Hamiltonians
appliesTo electron
category fundamental constants
magnetism
definedAs eħ/2me
dependsOn electron rest mass
elementary charge
reduced Planck constant
field atomic physics
condensed matter physics
quantum mechanics
hasDimension energy per magnetic field
hasPhysicalMeaning magnetic moment of an electron in the first Bohr orbit (non-relativistic model)
hasSIUnit joule per tesla
hasSIUnitSymbol J·T⁻¹
isConstantIn SI units
isFundamentalFor magnetic properties of electrons
magneto-transport phenomena
spin physics
isInverselyProportionalTo electron mass
speed of light (in Gaussian units definition)
isMuchLargerThan nuclear magneton
isProportionalTo electron charge
isReferencedIn CODATA recommended values of the fundamental physical constants
isUsedFor Zeeman effect calculations
expressing electron orbital magnetic moments
expressing electron spin magnetic moments
paramagnetism analysis
solid state physics calculations
namedAfter Niels Bohr
relatedTo nuclear magneton
represents natural unit of the electron magnetic moment
symbol μB
usedAsUnitFor magnetic moments of atoms
magnetic moments of electrons in solids
magnetic moments of ions
usedIn Landé g-factor expressions
atomic spectroscopy
electron paramagnetic resonance
magnetic susceptibility formulas

How these facts were elicited

Referenced by (5)

Full triples — surface form annotated when it differs from this entity's canonical label.