Phase transitions in rare earth chlorides observed by XAFS

H Matsuura; AK Adya; DT Bowron; Haruaki MATSUURA

doi:10.1107/S090904950002015X

Phase transitions in rare earth chlorides observed by XAFS

H Matsuura, AK Adya, DT Bowron, Haruaki MATSUURA

Department of Nuclear Safety Engineering

Research output: Contribution to journal › Misc

Abstract

XAFS spectroscopy has increasingly been utilised to elucidate the nearest-neighbour structure in the condensed phases. In this paper, the XAFS spectra of NdCl3 and DyCl3 in both the solid and the liquid phases measured at the Nd and Dy LIII absorption edges on beam line BM29 of the European Synchrotron Radiation Facility (ESRF) are presented. The Fourier transformed radial structure functions, phi (r) show that the prominent peaks corresponding to M-Cl (M: Nd or Dy) first shell contribution are shifted to shorter distances in the liquid melts as compared to those found in the corresponding solids. Similar behaviour has also been observed from other diffraction techniques in typical ionic melts such as NaCl. From the temperature dependence of the radial structure functions it is clear that the change in the M-Cl distance on melting is much larger in NdCl3 than that in DyCl3.

Translated title of the contribution	Phase transitions in rare earth chlorides observed by XAFS
Original language	American English
Pages (from-to)	779 - 781
Journal	Journal of Synchrotron Radiation
Volume	8
DOIs	https://doi.org/10.1107/S090904950002015X
State	Published - Mar 2001

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title = "Phase transitions in rare earth chlorides observed by XAFS",

abstract = "XAFS spectroscopy has increasingly been utilised to elucidate the nearest-neighbour structure in the condensed phases. In this paper, the XAFS spectra of NdCl3 and DyCl3 in both the solid and the liquid phases measured at the Nd and Dy LIII absorption edges on beam line BM29 of the European Synchrotron Radiation Facility (ESRF) are presented. The Fourier transformed radial structure functions, phi (r) show that the prominent peaks corresponding to M-Cl (M: Nd or Dy) first shell contribution are shifted to shorter distances in the liquid melts as compared to those found in the corresponding solids. Similar behaviour has also been observed from other diffraction techniques in typical ionic melts such as NaCl. From the temperature dependence of the radial structure functions it is clear that the change in the M-Cl distance on melting is much larger in NdCl3 than that in DyCl3.",

author = "\{H Matsuura\} and \{AK Adya\} and \{DT Bowron\} and Haruaki MATSUURA",

year = "2001",

month = mar,

doi = "10.1107/S090904950002015X",

language = "American English",

volume = "8",

pages = "779 -- 781",

journal = "Journal of Synchrotron Radiation",

issn = "0909-0495",

publisher = "International Union of Crystallography",

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TY - JOUR

T1 - Phase transitions in rare earth chlorides observed by XAFS

AU - H Matsuura, null

AU - AK Adya, null

AU - DT Bowron, null

AU - MATSUURA, Haruaki

PY - 2001/3

Y1 - 2001/3

N2 - XAFS spectroscopy has increasingly been utilised to elucidate the nearest-neighbour structure in the condensed phases. In this paper, the XAFS spectra of NdCl3 and DyCl3 in both the solid and the liquid phases measured at the Nd and Dy LIII absorption edges on beam line BM29 of the European Synchrotron Radiation Facility (ESRF) are presented. The Fourier transformed radial structure functions, phi (r) show that the prominent peaks corresponding to M-Cl (M: Nd or Dy) first shell contribution are shifted to shorter distances in the liquid melts as compared to those found in the corresponding solids. Similar behaviour has also been observed from other diffraction techniques in typical ionic melts such as NaCl. From the temperature dependence of the radial structure functions it is clear that the change in the M-Cl distance on melting is much larger in NdCl3 than that in DyCl3.

AB - XAFS spectroscopy has increasingly been utilised to elucidate the nearest-neighbour structure in the condensed phases. In this paper, the XAFS spectra of NdCl3 and DyCl3 in both the solid and the liquid phases measured at the Nd and Dy LIII absorption edges on beam line BM29 of the European Synchrotron Radiation Facility (ESRF) are presented. The Fourier transformed radial structure functions, phi (r) show that the prominent peaks corresponding to M-Cl (M: Nd or Dy) first shell contribution are shifted to shorter distances in the liquid melts as compared to those found in the corresponding solids. Similar behaviour has also been observed from other diffraction techniques in typical ionic melts such as NaCl. From the temperature dependence of the radial structure functions it is clear that the change in the M-Cl distance on melting is much larger in NdCl3 than that in DyCl3.

U2 - 10.1107/S090904950002015X

DO - 10.1107/S090904950002015X

M3 - Misc

SN - 0909-0495

VL - 8

SP - 779

EP - 781

JO - Journal of Synchrotron Radiation

JF - Journal of Synchrotron Radiation

ER -

Phase transitions in rare earth chlorides observed by XAFS

Abstract

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