Your search keyword '"Peter Fouquet"' showing total 3 results

1. Liquid 1-propanol studied by neutron scattering, near-infrared, and dielectric spectroscopy

Author

E. Vynokur, Th. Bauer, Catalin Gainaru, R. Gulich, Peter Lunkenheimer, M. Götz, Per Sillrén, S. Bauer, Marco Maccarini, Michael Marek Koza, Alois Loidl, Aleksandar Matic, Peter Fouquet, Roland Böhmer, Maths Karlsson, S. Schildmann, and Johan Mattsson

Subjects

Spectroscopy, Near-Infrared, Chemistry, Neutron diffraction, Analytical chemistry, General Physics and Astronomy, Dielectric, 1-Propanol, Neutron scattering, Molecular physics, Dielectric spectroscopy, Neutron Diffraction, Dielectric Spectroscopy, Scattering, Small Angle, Relaxation (physics), Neutron, Physical and Theoretical Chemistry, Spectroscopy, Structure factor

Abstract

Liquid monohydroxy alcohols exhibit unusual dynamics related to their hydrogen bonding induced structures. The connection between structure and dynamics is studied for liquid 1-propanol using quasi-elastic neutron scattering, combining time-of-flight and neutron spin-echo techniques, with a focus on the dynamics at length scales corresponding to the main peak and the pre-peak of the structure factor. At the main peak, the structural relaxation times are probed. These correspond well to mechanical relaxation times calculated from literature data. At the pre-peak, corresponding to length scales related to H-bonded structures, the relaxation times are almost an order of magnitude longer. According to previous work [C. Gainaru, R. Meier, S. Schildmann, C. Lederle, W. Hiller, E. Rössler, and R. Böhmer, Phys. Rev. Lett. 105, 258303 (2010)] this time scale difference is connected to the average size of H-bonded clusters. The relation between the relaxation times from neutron scattering and those determined from dielectric spectroscopy is discussed on the basis of broad-band permittivity data of 1-propanol. Moreover, in 1-propanol the dielectric relaxation strength as well as the near-infrared absorbance reveal anomalous behavior below ambient temperature. A corresponding feature could not be found in the polyalcohols propylene glycol and glycerol.

Published

2014

2. Thermodynamic, structural, and dynamic properties of supercooled water confined in mesoporous MCM-41 studied with calorimetric, neutron diffraction, and neutron spin echo measurements

Author

Peter Fouquet, Shigeharu Kittaka, Marie-Claire Bellissent-Funel, Koji Yoshida, and Toshio Yamaguchi

Subjects

Stretched exponential function, Heavy water, Chemistry, Relaxation (NMR), Neutron diffraction, General Physics and Astronomy, Thermodynamics, Neutron spin echo, law.invention, Crystallography, chemistry.chemical_compound, Differential scanning calorimetry, law, Neutron, Physical and Theoretical Chemistry, Crystallization

Abstract

Thermodynamic, structural, and dynamic properties of heavy water (D(2)O) confined in mesoporous silica glass MCM-41 C10, C12, and C14 were investigated by differential scanning calorimetry, neutron diffraction, and neutron spin echo (NSE) measurements, respectively. The DSC data showed that no crystallization of D(2)O confined in C10 occurs in a temperature range between 298 and 180 K, and that crystalline ice is formed at 204 and 221 K for C12 and C14, respectively. For C10, the neutron radial distribution functions of confined D(2)O suggested a structural change in the supercooled state between 223 and 173 K. For C10 sample, it has been found that the tetrahedral-like water structure is partially enhanced in the central part of pores at 173 K. For all the samples, the intermediate scattering functions from the NSE measurements are fitted by the Kohlrausch-Williams-Watts stretched exponential function which implies that confined supercooled D(2)O exhibits a wide distribution of relaxation times. For C10, C12, and C14 samples, between 298 and 240 K, the relaxation times of supercooled D(2)O follow remarkably well the Vogel-Fulcher-Tamman equation; for C10 sample, below 240 K, the relaxation times of nonfreezing D(2)O show an Arrhenius type behavior. From the present experimental results on calorimetric, structural, and dynamic properties, it has been concluded that supercooled D(2)O confined in MCM-41 C10 experiences a transition from high-density to low-density hydrogen-bonded structure at around 229 K.

Published

2008

3. A refined He-LiF(001) potential from selective adsorption resonances measured with high-resolution helium spin-echo spectroscopy

Author

David J. Riley, John Ellis, Andrew Jardine, William Allison, S. Dworski, Peter Fouquet, and Gil Alexandrowicz

Subjects

Spectrometer, Scattering, Chemistry, Resolution (electron density), Analytical chemistry, General Physics and Astronomy, Computational physics, symbols.namesake, Fourier transform, Selective adsorption, symbols, Spin echo, Physical and Theoretical Chemistry, Helium atom scattering, Spectroscopy

Abstract

The authors have developed a new experimental approach for measuring gas-surface selective adsorption resonances with much higher energy resolution and over a wider range of kinematic conditions than has previously been possible. The technique involves using a 3He spin-echo spectrometer as a Fourier transform helium atom scattering apparatus. The authors applied the technique to the He-LiF(001) system. They developed a new empirical potential for the He-LiF(001) system by analyzing and refining the best existing potentials in the light of the new data set. Following an initial free-particle model analysis, the authors used exact close coupling scattering calculations to compare the existing potentials with the new experimental data set. Systematic differences are observed between the two. The existing potentials are modified by simple transformations to give a refined potential that is consistent with and fully reproduces the experimental data. Their technique represents a new approach for developing very high precision empirical potentials in order to test first principles theory.

Published

2007