Add to ORKGThe spin kinetics of 3He in an aerogel has been studied above the Fermi temperature. The magnetic relaxation times T 1 and T 2 of adsorbed, gaseous, and liquid 3He in a 95% silica aerogel at a temperature of 1.5 K have been determined as functions of frequency by means of pulse nuclear magnetic resonance. It has been found that the time T 1 is linear in frequency in all three cases, whereas T 2 is independent of frequency. To explain the observed behavior of the longitudinal relaxation rate, a theoretical model of relaxation in the adsorbed layer of 3He taking into account the filamentary structure of the aerogel is proposed. © 2008 Pleiades Publishing, Ltd
A new method for studying the processes of the establishment of the thermodynamic equilibrium in the...
A new method for studying the processes of the establishment of the thermodynamic equilibrium in the...
A new method for studying the processes of the establishment of the thermodynamic equilibrium in the...
The spin kinetics of 3He in an aerogel has been studied above the Fermi temperature. The magnetic re...
The spin kinetics of 3He in an aerogel has been studied above the Fermi temperature. The magnetic re...
The spin kinetics of 3He in an aerogel has been studied above the Fermi temperature. The magnetic re...
Experimental data of 3He pulse NMR in contact with aerogel (95%) in a nuclear Larmor frequency range...
Significant influence of the aerogel surface heterogeneity on the processes of 3He nuclear magnetic ...
Experimental data of 3He pulse NMR in contact with aerogel (95%) in a nuclear Larmor frequency range...
Experimental data of 3He pulse NMR in contact with aerogel (95%) in a nuclear Larmor frequency range...
Experimental data of 3He pulse NMR in contact with aerogel (95%) in a nuclear Larmor frequency range...
Significant influence of the aerogel surface heterogeneity on the processes of 3He nuclear magnetic ...
Significant influence of the aerogel surface heterogeneity on the processes of 3He nuclear magnetic ...
Significant influence of the aerogel surface heterogeneity on the processes of 3He nuclear magnetic ...
© 2016, Pleiades Publishing, Inc.Spin–lattice relaxation of 3Не in contact with the ordered Al2O3 fi...
A new method for studying the processes of the establishment of the thermodynamic equilibrium in the...
A new method for studying the processes of the establishment of the thermodynamic equilibrium in the...
A new method for studying the processes of the establishment of the thermodynamic equilibrium in the...
The spin kinetics of 3He in an aerogel has been studied above the Fermi temperature. The magnetic re...
The spin kinetics of 3He in an aerogel has been studied above the Fermi temperature. The magnetic re...
The spin kinetics of 3He in an aerogel has been studied above the Fermi temperature. The magnetic re...
Experimental data of 3He pulse NMR in contact with aerogel (95%) in a nuclear Larmor frequency range...
Significant influence of the aerogel surface heterogeneity on the processes of 3He nuclear magnetic ...
Experimental data of 3He pulse NMR in contact with aerogel (95%) in a nuclear Larmor frequency range...
Experimental data of 3He pulse NMR in contact with aerogel (95%) in a nuclear Larmor frequency range...
Experimental data of 3He pulse NMR in contact with aerogel (95%) in a nuclear Larmor frequency range...
Significant influence of the aerogel surface heterogeneity on the processes of 3He nuclear magnetic ...
Significant influence of the aerogel surface heterogeneity on the processes of 3He nuclear magnetic ...
Significant influence of the aerogel surface heterogeneity on the processes of 3He nuclear magnetic ...
© 2016, Pleiades Publishing, Inc.Spin–lattice relaxation of 3Не in contact with the ordered Al2O3 fi...
A new method for studying the processes of the establishment of the thermodynamic equilibrium in the...
A new method for studying the processes of the establishment of the thermodynamic equilibrium in the...
A new method for studying the processes of the establishment of the thermodynamic equilibrium in the...