Add to ORKGThe optical and EPR spectra of the Cr3+ γ-center in a lithium niobate crystal are interpreted, and the energy levels of the ground-state spin quadruplet and all the experimentally revealed doublet states are described. The parameters of the Coulomb Hamiltonian for the spin-orbit interaction of electrons and their interaction with an electrostatic field of the crystal are determined. It is found that the crystal field acting on the paramagnetic ion is relatively strong and has trigonal symmetry. The Cr 3+ ion embedded in the crystal is characterized by considerable changes in the interactions associated with the excited configurations. © 2005 Pleiades Publishing, Inc
The work is devoted to the complex investigations of the optic and magnetic properties of the activa...
An electron paramagnetic resonance study of a synthetic single crystal of Cr-doped LiScGeO4 was carr...
This paper shows the important role that plays the electron-lattice coupling to represent correctly ...
The optical and EPR spectra of the Cr3+ γ-center in a lithium niobate crystal are interpreted, and t...
The optical and EPR spectra of the Cr3+ γ-center in a lithium niobate crystal are interpreted, and t...
Electron paramagnetic resonance (EPR), optical absorption and photoluminescence studies of Cr3+ ions...
Electron paramagnetic resonance (EPR), optical absorption and photoluminescence studies of Cr(3+) io...
The crystal field energy levels (or optical band positions) and EPR parameters (g factor g//, g⊥ and...
The crystal field energy levels (or optical band positions) and EPR parameters (g factor g//, g⊥ and...
Electron paramagnetic resonance (EPR) study of Cr3+ doped cesium tetrabromozincate (CTBZ) single cry...
The optical stability of the R-lines and broad band associated with the Cr3+ ions has been studied i...
Electron paramagnetic resonance (EPR) study of Cr3+ doped cesium tetrabromozincate (CTBZ) single cry...
This paper shows the important role that plays the electron-lattice coupling to represent correctly ...
Nous avons mesuré l'absorption optique et le spectre de luminescence du spinelle LiAl5O8 : Cr3+ à 29...
The relations between spin-Hamiltonian parameters and local structure around Cr3+ in diammonium hexa...
The work is devoted to the complex investigations of the optic and magnetic properties of the activa...
An electron paramagnetic resonance study of a synthetic single crystal of Cr-doped LiScGeO4 was carr...
This paper shows the important role that plays the electron-lattice coupling to represent correctly ...
The optical and EPR spectra of the Cr3+ γ-center in a lithium niobate crystal are interpreted, and t...
The optical and EPR spectra of the Cr3+ γ-center in a lithium niobate crystal are interpreted, and t...
Electron paramagnetic resonance (EPR), optical absorption and photoluminescence studies of Cr3+ ions...
Electron paramagnetic resonance (EPR), optical absorption and photoluminescence studies of Cr(3+) io...
The crystal field energy levels (or optical band positions) and EPR parameters (g factor g//, g⊥ and...
The crystal field energy levels (or optical band positions) and EPR parameters (g factor g//, g⊥ and...
Electron paramagnetic resonance (EPR) study of Cr3+ doped cesium tetrabromozincate (CTBZ) single cry...
The optical stability of the R-lines and broad band associated with the Cr3+ ions has been studied i...
Electron paramagnetic resonance (EPR) study of Cr3+ doped cesium tetrabromozincate (CTBZ) single cry...
This paper shows the important role that plays the electron-lattice coupling to represent correctly ...
Nous avons mesuré l'absorption optique et le spectre de luminescence du spinelle LiAl5O8 : Cr3+ à 29...
The relations between spin-Hamiltonian parameters and local structure around Cr3+ in diammonium hexa...
The work is devoted to the complex investigations of the optic and magnetic properties of the activa...
An electron paramagnetic resonance study of a synthetic single crystal of Cr-doped LiScGeO4 was carr...
This paper shows the important role that plays the electron-lattice coupling to represent correctly ...