Non-Equilibrium Multiplet Excitations probed by the M5,4 Branching Ratio in 3d → 4f X-ray Absorption Spectroscopy

Abstract

We show that ultrafast electronic 4f multiplet transitions in terbium metal are manifested by changes in the relative spectral weight of the M5 and M4 X-ray absorption resonances. Our experimental results are supported by a simulation of excited multiplet spectra with atomistic calculations; they prove that the so-called third rule of Thole and van der Laan, which relates the branching ratio of the spin-orbit split resonances to the total angular momentum J of the excited ion, is also valid in non-equilibrium. The presented detection scheme allows to detect J-changing excitation, i.e, alterations of spin and orbital states, even in samples without net magnetization. This makes branching-ratio spectroscopy a powerful tool for the quantitative investigation of ultrafast changes in angular momentum J.

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