105 research outputs found
Combining high pressure and coherent diffraction: a first feasibility test
We present a first experiment combining high pression and coherent X-ray
diffraction. By using a dedicated diamond anvil cell, we show that the degree
of coherence of the X-ray beam is preserved when the X-ray beam passes through
the diamond cell. This observation opens the possibility of studying the
dynamics of slow fluctuations under high pressure.Comment: 3 pages, 2 figures, GHPR 2009 conferenc
A combined XAS and XRD Study of the High-Pressure Behaviour of GaAsO4 Berlinite
Combined X-ray absorption spectroscopy (XAS) and X-ray diffraction (XRD)
experiments have been carried out on GaAsO4 (berlinite structure) at high
pressure and room temperature. XAS measurements indicate four-fold to six-fold
coordination changes for both cations. The two local coordination
transformations occur at different rates but appear to be coupled. A reversible
transition to a high pressure crystalline form occurs around 8 GPa. At a
pressure of about 12 GPa, the system mainly consists of octahedral gallium
atoms and a mixture of arsenic in four-fold and six-fold coordinations. A
second transition to a highly disordered material with both cations in six-fold
coordination occurs at higher pressures and is irreversible.Comment: 8 pages, 5 figures, LaTeX2
High Pressure X-Ray Diffraction Study of UMn2Ge2
Uranium manganese germanide, UMn2Ge2, crystallizes in body-centered
tetragonal ThCr2Si2 structure with space group I4/mmm, a = 3.993A and c =
10.809A under ambient conditions. Energy dispersive X-ray diffraction was used
to study the compression behaviour of UMn2Ge2 in a diamond anvil cell. The
sample was studied up to static pressure of 26 GPa and a reversible structural
phase transition was observed at a pressure of ~ 16.1 GPa. Unit cell parameters
were determined up to 12.4 GPa and the calculated cell volumes were found to be
well reproduced by a Murnaghan equation of state with K0 = 73.5 GPa and K' =
11.4. The structure of the high pressure phase above 16.0 GPa is quite
complicated with very broad lines and could not be unambiguously determined
with the available instrument resolution
Dynamics of the magnetic and structural a -> e phase transition in Iron
We have studied the high-pressure iron bcc to hcp phase transition by
simultaneous X-ray Magnetic Circular Dichroism (XMCD) and X-ray Absorption
Spectroscopy (XAS) with an X-ray dispersive spectrometer. The combination of
the two techniques allows us to obtain simultaneously information on both the
structure and the magnetic state of Iron under pressure. The magnetic and
structural transitions simultaneously observed are sharp. Both are of first
order in agreement with theoretical prediction. The pressure domain of the
transition observed (2.4 0.2 GPa) is narrower than that usually cited in
the literature (8 GPa). Our data indicate that the magnetic transition slightly
precedes the structural one, suggesting that the origin of the instability of
the bcc phase in iron with increasing pressure is to be attributed to the
effect of pressure on magnetism as predicted by spin-polarized full potential
total energy calculations
Mesures de spectrométrie et de dosimétrie neutron aux postes de travail pour l'étalonnage de dosimètres individuels PGP-DIN
International audience(ManuAcrit r e p le 3 juillet 2002, accepté le 29 septembre 2002) Dans le cadre de la mise en application des recommandations décrites dans la publication 60 de la CIPR, des mesures de spectrométrie neutron ont été réalisées à plusieurs postes de travail au CEA de Valduc. Le but de ces mesures était la détermination de nouveaux coefficients d'étalonnage h affecter aux dosimètres individuels neutron PGP-DIN afin de restituer correctement les doses reçues par les opérateurs séjournant h ces postes. Ces mesures ont été effectuées au cours de deux campagnes successives. La tluence neutronique et le débit d'équivalent de dose amhiantH*(IO) ont été mesurés en fonction de l'énergie avec le spectromètre ROSPEC et un système de sphères de BONNER. Les champs de radiations étant toutefois mixtes, c'est-à-dire présentant une composante neutronique et photonique, des mesures de débits d'équivalent de dose ambiant photon aux postes de travail considérés ont également été réalisées à l'aide de débitmètres d'ambiance. Les dosimètres individuels PGP-DIN ont été positionnés sur un fantôme (ISO) d'eau. Des calculs effectués h l'aide du code MCNP ont été comparés aux résultats expérimentaux. Neutron spectrometry and dosimetry measurement at workplaces for calibration of individual PGP-DIN dosimeters. Measurements to determine new coefficients for individual neutron dosimeters PGP-DIN complying with the ICRP 60 recommendations were performed at two workplaces at the CEA of Valduc: a storage r w m and a plutonium reprocessing plant. Two spectrometry campaigns were performed allowing a better assessment of doses received by operators worki.ng at these workplaces. Neutron energy fluence and ambient dose equivalent rate H*(10) distributions were measured as function of neutron energy by using the ROSPEC device and BONNER spheres spectrometer. The radiation field being mixed neutron and gamma, the gamma component was also evaluated: neutron and photon dose-rate meters were nsed to evaluate the ambient dose rate equivalent. Individual dosemeters were positioned on an ISO water slab phantom. In addition, calculations were performed using the MCNP simulation code for different configurations. ' Insiitui de radioprotection ct de sûre16 nucléaire, DPHD, B.P. 17. 92262 Fontcnay-aux-Roses Cedcx, France
Inequivalent routes across the Mott transition in V2O3 explored by X-ray absorption
The changes in the electronic structure of V2O3 across the metal-insulator
transition induced by temperature, doping and pressure are identified using
high resolution x-ray absorption spectroscopy at the V pre K-edge. Contrary to
what has been taken for granted so far, the metallic phase reached under
pressure is shown to differ from the one obtained by changing doping or
temperature. Using a novel computational scheme, we relate this effect to the
role and occupancy of the a1g orbitals. This finding unveils the inequivalence
of different routes across the Mott transition in V2O
Pressure evolution of electronic and crystal structure of non-centrosymmetric EuCoGe
We report on the pressure evolution of the electronic and crystal structures
of the noncentrosymmetric antiferromagnet EuCoGe3. Using a diamond anvil cell,
we performed high pressure fluorescence detected near-edge x-ray absorption
spectroscopy at the Eu L3, Co K, and Ge K edges and synchrotron powder x-ray
diffraction. In the Eu L3 spectrum, both divalent and trivalent Eu peaks are
observed from the lowest pressure measurement (~2 GPa). By increasing pressure,
the relative intensity of the trivalent Eu peak increases, and an average Eu
valence continuously increases from 2.2 at 2 GPa to 2.31 at~50 GPa. On the
other hand, no discernible changes are observed in the Co K and Ge K spectra as
a function of pressure. With the increase in pressure, lattice parameters
continuously decrease without changing I4mm symmetry. Our study revealed a
robust divalent Eu state and an unchanged crystal symmetry of EuCoGe3 against
pressure.Comment: Accepted in PRB
https://journals.aps.org/prb/accepted/b2073O6fL9e1ca40307905b1de5bf05de12d8fc1
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