The g-tensor of excess electron centres (H+)(e-) generated at the surface of polycrystalline MgO has been determined by multi-frequency, high-field electron-paramagnetic resonance (EPR) performed at 9.5, 34, 190 and 285 GHz. The A tensor for the interacting 1H was also determined by complementary Q-band electron-nuclear double resonance (ENDOR). Due to the high spectral resolution the anisotropy of the g-tensor could be fully resolved in the powder continuous-wave EPR spectrum. Computer simulation of the experimental data revealed small g-tensor anisotropies: Dgx=-0.00294, Dgy =-0.00286, Dgz =-0.00101, with Dgi = gi-2.0023.
Multi-frequency high-field EPR study of (H+)(e-) pairs localized at the surface of polycrystalline MgO
Annino G;Massa CA;
2007
Abstract
The g-tensor of excess electron centres (H+)(e-) generated at the surface of polycrystalline MgO has been determined by multi-frequency, high-field electron-paramagnetic resonance (EPR) performed at 9.5, 34, 190 and 285 GHz. The A tensor for the interacting 1H was also determined by complementary Q-band electron-nuclear double resonance (ENDOR). Due to the high spectral resolution the anisotropy of the g-tensor could be fully resolved in the powder continuous-wave EPR spectrum. Computer simulation of the experimental data revealed small g-tensor anisotropies: Dgx=-0.00294, Dgy =-0.00286, Dgz =-0.00101, with Dgi = gi-2.0023.File in questo prodotto:
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