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Line 12: However, the effect of a torque applied to an electron's magnetic moment must be considered in light of [[spin-orbit interaction]]. Because the magnetic moment of an electron is a consequence of its spin and orbit and the associated angular momenta, the magnetic moment of an electron is directly proportional to its angular momentum through the [[gyromagnetic ratio]] <math>\gamma</math>, such that :<math>\mathbf{m}=-\gamma \mathbf{L}</math>. The gyromagnetic ratio for a free electron has been experimentally determined as γ<~~math~~sub>~~\gamma_e~~ e</sub> =  {{val\|1.~~760 859 770~~760859644e11\|(4411) ~~\times 10^{11} \mathrm{~~\|u=s~~^{-1} T^{-1}}~~<sup>−1</~~math~~sup>⋅T<sup>−1</sup>}}.<ref>"[http://physics.nist.gov/cgi-bin/cuu/Value?gammae CODATA Value: electron gyromagnetic ratio]," ''The NIST Reference on Constants, Units, and Uncertainty''~~, <[http://physics.nist.gov/cgi-bin/cuu/Value?eqgammae\|search_for=gyromagnetic+ratio+electron http://physics.nist.gov/cgi-bin/cuu/Value?eqgammae\|search_for=gyromagnetic+ratio+electron]>~~</ref> This value is very close to that used for Fe-based magnetic materials. Taking the derivative of the gyromagnetic ratio with respect to time yields the relationship,

Magnetization dynamics: Difference between revisions