Localized motion in supercooled glycerol as measured by 2h-nmr spin-lattice relaxation and incoherent neutron scattering.

F. Fujara; R. M. Diehl; W. Schnauss; H. Sillescu; W. Petry

doi:10.1209/0295-5075/14/6/011

Localized motion in supercooled glycerol as measured by 2h-nmr spin-lattice relaxation and incoherent neutron scattering.

F. Fujara, R. M. Diehl, W. Schnauss, H. Sillescu, W. Petry

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Abstract

Selectively deuterated glycerol has been subjected to 2H-NMR spin-lattice relaxation and quasi-elastic neutron scattering experiments. The measurements yield relaxation rates and a non-Gaussian Q-dependence of the Debye-Waller factor which are different for the two hydrogen sites. The data analysis shows that below the onset of the glass transition a- process the hydrogens perform a local motion (= 10-12 s) in addition to what is expected from harmonic phonons. The resulting mean-square displacements are highly temperature dependent but are significantly smaller than those found in van der Waals glasses. Amplitudes and activation energies of the carbon-bonded and oxygen-bonded hydrogens are different. A possible mechanism is discussed.

Original language	English
Pages (from-to)	563-568
Number of pages	6
Journal	Europhysics Letters
Volume	14
Issue number	6
DOIs	https://doi.org/10.1209/0295-5075/14/6/011
State	Published - 15 Mar 1991
Externally published	Yes

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title = "Localized motion in supercooled glycerol as measured by 2h-nmr spin-lattice relaxation and incoherent neutron scattering.",

abstract = "Selectively deuterated glycerol has been subjected to 2H-NMR spin-lattice relaxation and quasi-elastic neutron scattering experiments. The measurements yield relaxation rates and a non-Gaussian Q-dependence of the Debye-Waller factor which are different for the two hydrogen sites. The data analysis shows that below the onset of the glass transition a- process the hydrogens perform a local motion (= 10-12 s) in addition to what is expected from harmonic phonons. The resulting mean-square displacements are highly temperature dependent but are significantly smaller than those found in van der Waals glasses. Amplitudes and activation energies of the carbon-bonded and oxygen-bonded hydrogens are different. A possible mechanism is discussed.",

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T1 - Localized motion in supercooled glycerol as measured by 2h-nmr spin-lattice relaxation and incoherent neutron scattering.

AU - Fujara, F.

AU - Diehl, R. M.

AU - Schnauss, W.

AU - Sillescu, H.

AU - Petry, W.

PY - 1991/3/15

Y1 - 1991/3/15

N2 - Selectively deuterated glycerol has been subjected to 2H-NMR spin-lattice relaxation and quasi-elastic neutron scattering experiments. The measurements yield relaxation rates and a non-Gaussian Q-dependence of the Debye-Waller factor which are different for the two hydrogen sites. The data analysis shows that below the onset of the glass transition a- process the hydrogens perform a local motion (= 10-12 s) in addition to what is expected from harmonic phonons. The resulting mean-square displacements are highly temperature dependent but are significantly smaller than those found in van der Waals glasses. Amplitudes and activation energies of the carbon-bonded and oxygen-bonded hydrogens are different. A possible mechanism is discussed.

AB - Selectively deuterated glycerol has been subjected to 2H-NMR spin-lattice relaxation and quasi-elastic neutron scattering experiments. The measurements yield relaxation rates and a non-Gaussian Q-dependence of the Debye-Waller factor which are different for the two hydrogen sites. The data analysis shows that below the onset of the glass transition a- process the hydrogens perform a local motion (= 10-12 s) in addition to what is expected from harmonic phonons. The resulting mean-square displacements are highly temperature dependent but are significantly smaller than those found in van der Waals glasses. Amplitudes and activation energies of the carbon-bonded and oxygen-bonded hydrogens are different. A possible mechanism is discussed.

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Localized motion in supercooled glycerol as measured by 2h-nmr spin-lattice relaxation and incoherent neutron scattering.

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