Journal ArticleDOI
Local structure of LiB3O5 single crystal from 7Li nuclear magnetic resonance
TLDR
In this paper, the local structure of LiB3O5 single crystal was investigated with 7Li (I=3/2) nuclear magnetic resonance measurements, and the quadrupole coupling constants and the asymmetry parameters were determined at room temperature and are e2qQ/h=143±1 kHz and η=0.6±0.1 for 7Li.Abstract:
The local structure of LiB3O5 single crystal was investigated with 7Li (I=3/2) nuclear magnetic resonance measurements. We observed four different spectra, which could be divided into two groups corresponding to two kinds of lithium atoms, LiA and LiB, lying at crystallographically equivalent sites and magnetically inequivalent sites. From these results, the quadrupole coupling constants and the asymmetry parameters were determined at room temperature and are e2qQ/h=143±1 kHz and η=0.6±0.1 for 7Li. The directions of the principal axes of the electric field gradient tensors were also determined. The spectra for the two groups have the same principal values of the electric field gradient tensor, but different orientations, and originate from magnetically inequivalent sites. Also, the 7Li spin-lattice relaxation rate was measured, and the measured relaxation rate was found to be proportional to the temperature. The temperature-dependent single phonon process is considered to be more effective than the Raman ...read more
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Journal ArticleDOI
Kinetics of thermally stimulated recombination processes in lithium borate crystals
I. N. Ogorodnikov,N. E. Poryvai +1 more
TL;DR: In this paper, the results of the experimental and theoretical investigations of thermally stimulated recombination processes in crystals of the lithium borates Li2B4O7 and LiB3O5 were reported.
Journal ArticleDOI
Luminescence and recombination processes in bulky Li 6 Gd x Y 1 − x (BO 3 ) 3 :Eu crystals
TL;DR: In this article, the steady-state X-ray luminescence (XRL) spectra, the temperature dependences of the XRL intensity, and the thermally stimulated luminance spectra have been measured for the lithium borates Li6Gd(BO3)3, Li6Eu(BO 3)3), Li6Y0.5Gd0.1 − x¯¯ Y1 −x¯¯ (BO 3:Eu)3):Eu compounds in the temperature range of 90-500 K.
Book ChapterDOI
Hydrothermal Synthesis and Growth of Coordinated Complex Crystals (Part I)
TL;DR: The hybrid or mixed metal-organic framework (MOF) structures are described as crystalline compounds consisting of metal ions or clusters coordinated to often rigid organic molecules to form one-, two-, or three-dimensional structures that can be used for a variety of novel applications like gas separation, gas purification, catalysts, sensors, and hydrogen storage.
Journal ArticleDOI
Interchannel Hopping in Single Crystalline Lithium Triborate Probed by 7Li NMR: Spin Relaxation, Line Shape Analysis, Selective-Inversion Spin Alignment, and Two-Dimensional Exchange Spectra
M. Storek,Roland Böhmer +1 more
TL;DR: In this article, the ion dynamics of single crystalline lithium triborate, LiB3O5, an important material in nonlinear optics, was studied using various 7Li and 11B nuclear magnetic resonance (NMR) techniques at temperatures from about 480 to 780 K in order to elucidate the apparent discrepancies underlying previous interpretations of NMR line shape analyses and results from dielectric spectroscopy.
Journal ArticleDOI
Recombination processes and luminescence in Li6GdxY1−x(BO3)3-Eu crystals
TL;DR: In this article, the results of thermally stimulated recombination processes and luminescence in Li6GdxY1?x(BO3)3-Eu crystals are presented.
References
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Book
Principles of magnetic resonance
TL;DR: In this article, the effect of changing the precession frequency of the magnetic field has been studied using NMR to study rate properties. But the effect is limited to the case of double and double resonance.
Journal ArticleDOI
New nonlinear-optical crystal: LiB 3 O 5
TL;DR: LiB3O5 as mentioned in this paper is a new nonlinear-optical crystal with a high damage threshold of 25 GW/cm2 (at 1.064 μm, 0.1 nsec) and a wide acceptance angle of 25 mrad for θ ≠ 90°.
Book
Nuclear magnetic resonance and relaxation
TL;DR: In this article, the classical view of relaxation is replaced by a quantum treatment of relaxation for rotationally invariant systems, based on a Fourier transformation and a random function for rotational diffusion.