6533b857fe1ef96bd12b4f77

RESEARCH PRODUCT

Instantaneous diffusion effect on spin-echo decay: Experimental investigation by spectral selective excitation

subject

description

The influence of the instantaneous diffusion process on spin-echo decay of ${E}_{\ensuremath{\gamma}}^{\ensuremath{'}}$ centers in gamma irradiated silica is experimentally probed by spectral selective excitation within their inhomogeneous resonance line. Our results evidence the different effectiveness of this dephasing mechanism on varying the resonance field, manifesting itself by a faster decay of the echo signal when generated by spin packets located in the central part of the spectrum. It is shown that the dependence of the instantaneous diffusion rate on the spectral position of echo-active spins reproduces the shape of the ${E}_{\ensuremath{\gamma}}^{\ensuremath{'}}$ centers resonance spectrum. These features are discussed in the framework of theoretical models concerning the transversal spin relaxation in solid systems and point out the correlation between the instantaneous diffusion rate and the concentration of echo-active spins located within a spectral bandwidth of the order of the Rabi frequency.