Relaxation properties of proton magnetic spin quasi-invariants in liquid crystals
Author:
Publisher
Elsevier BV
Subject
Electrical and Electronic Engineering,Condensed Matter Physics,Electronic, Optical and Magnetic Materials
Reference6 articles.
1. Nuclear Magnetic Resonance in Solids: Thermodynamic Effects of a Pair of rf Pulses
2. NMR of protons in gypsum. I. Experimental proof of the existence of four thermodynamic invariants
3. Proton NMR signals of intra- and interpair dipolar order in liquid crystals
4. Measurement of Interproton, Nuclear Spin Dipolar Couplings in Liquid Crystalline Samples by Combining Variable Angle Sample Spinning, Isotope Dilution, and Deuterium Decoupling
5. Structure and molecular ordering extracted from residual dipolar couplings: A molecular dynamics simulation study
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1. Quantum decoherence and quasi-equilibrium in open quantum systems with few degrees of freedom: Application to 1H NMR of nematic liquid crystals;The Journal of Chemical Physics;2011-12-28
2. NMR dipolar constants of motion in liquid crystals: Jeener–Broekaert, double quantum coherence experiments and numerical calculation on a 10-spin cluster;Solid State Nuclear Magnetic Resonance;2009-10
3. Quasiequilibrium states in thermotropic liquid crystals studied by multiple-quantum NMR;The Journal of Chemical Physics;2009-01-14
4. Proton NMR relaxation of the dipolar quasi-invariants of nematic methyl deuterated para-azoxyanisole within the high-temperature Redfield relaxation theory;Physical Review E;2006-11-03
5. On the role of collective and local molecular fluctuations in the relaxation of proton intrapair dipolar order in nematic 5CB;The Journal of Chemical Physics;2005-11-22
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