Atomic diffusion studied with coherent X-rays

Leitner, Michael; Sepioł, B.; Stadler, Lorenz-M.; Pfau, Bastian; Vogl, G.

doi:10.1038/nmat2506

Cited by 106 publications

(90 citation statements)

References 20 publications

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“…for weak interactions between particles) and can be found in [12] or [13]. Our experimental results to date [14,15,16] indicate that this theory works very well and that discrepancies, if any, are negligible with nowadays available coherent beamlines.…”

Section: Recent Progress In Diffusion Thermodynamics and Kinetics In supporting

confidence: 60%

Atomic Migration Studies with X-Ray Photon Correlation Spectroscopy

Stana

Ross

Sepioł

2014

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Abstract. The new technique of atomic-scale X-ray Photon Correlation Spectroscopy (aXPCS) makes use of a coherent X-ray beam to study the dynamics of various processes in condensed matter systems. Particularly atomistic migration mechanisms are still far from being understood in most of intermetallic alloys and in amorphous systems. Special emphasis must be given to the opportunity to measure atomistic diffusion at relatively low temperatures where such measurements were far out of reach with previously established methods. The importance of short-range order is demonstrated on the basis of Monte Carlo simulations.

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Section: Recent Progress In Diffusion Thermodynamics and Kinetics In supporting

confidence: 60%

Atomic Migration Studies with X-Ray Photon Correlation Spectroscopy

Stana

Ross

Sepioł

2014

Self Cite

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“…This result is consistent with equation (6) since S(Q, ω) and f (Q, t) are Fourier pairs. Such a characterization of diffusion with coherent scattering is an important capability [3] and indeed the ability to track diffusion at the atomic scale with XPCS has recently been demonstrated [6], thereby opening a unique window into the fundamental collective motions in materials. However, for complex dynamics in condensed matter, diffusive motion obeying equation (6) is often the exception rather than the rule.…”

Section: Introductionmentioning

confidence: 99%

Beyond simple exponential correlation functions and equilibrium dynamics in x-ray photon correlation spectroscopy

Madsen¹,

Leheny²,

Guo³

et al. 2010

New J. Phys.

175

200

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“…Thanks to the instrumental developments in the collection of sparse scattering signals 18 and to an increased flux and coherence of X-ray beams, X-ray photon correlation spectroscopy (XPCS) has recently emerged as a very powerful technique able to follow the evolution of the dynamics at the atomic length scale in crystalline 19 and amorphous materials 8,[20][21][22] . Recent measurements on metallic glasses have revealed the existence of structural rearrangements at the atomic level, contrary to the common expectation of an almost arrested dynamics 8,20,21 .…”

mentioning

confidence: 99%

Revealing the fast atomic motion of network glasses

Ruta

Baldi²,

Chushkin

et al. 2014

Nat Commun

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Still very little is known on the relaxation dynamics of glasses at the microscopic level due to the lack of experiments and theories. It is commonly believed that glasses are in a dynamical arrested state, with relaxation times too large to be observed on human time scales. Here we provide the experimental evidence that glasses display fast atomic rearrangements within a few minutes, even in the deep glassy state. Following the evolution of the structural relaxation in a sodium silicate glass, we find that this fast dynamics is accompanied by the absence of any detectable aging, suggesting a decoupling of the relaxation time and the viscosity in the glass. The relaxation time is strongly affected by the network structure with a marked increase at the mesoscopic scale associated with the ion-conducting pathways. Our results modify the conception of the glassy state and asks for a new microscopic theory.

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Atomic diffusion studied with coherent X-rays

Cited by 106 publications

References 20 publications

Atomic Migration Studies with X-Ray Photon Correlation Spectroscopy

Atomic Migration Studies with X-Ray Photon Correlation Spectroscopy

Beyond simple exponential correlation functions and equilibrium dynamics in x-ray photon correlation spectroscopy

Revealing the fast atomic motion of network glasses

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