Abstract
The free energy and magnetization for the general $SU(N)$ one impurity Kondo model in the magnetic field, $h$, are calculated by extending the previous $1/N$ expansion technique: the saddle point is determined self-consistently to the $1/N$ order. The obtained universal field dependent magnetization $M(h/T_{K})$ by this simple method is shown analytically to be asymptotically exact at both $h \ll T_{K}$ and $h \gg T_{K}$ limits. For general ''$f$-electron'' fillings, except half filling, the $M(h/T_{K})$ curves cross continuously from weak to strong coupling limit, but overestimate the curvature in the crossover region for moderate $N$. The magnetic Wilson crossover numbers are calculated for amusement. Our results explicitly verify that the $1/N$ parameter is non-singular under the adiabatic continuation.
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