Mark Shulman scite author profile

We show that polycrystalline GeSb2Te4 in the fcc phase (f-GST), which is an insulator at low temperature at ambient pressure, becomes a superconductor at elevated pressures. Our study of the superconductor -insulator transition versus pressure at low temperatures reveals a second order quantum phase transition with linear scaling (critical exponent close to unity) of the transition temperature with the pressure above the critical zero-temperature pressure. In addition, we demonstrate that at higher pressures the f-GST goes through a structural phase transition via amorphization to bcc GST (b-GST), which also become superconducting. We also find that the pressure regime where an inhomogeneous mixture of amorphous and b-GST exists, there is an anomalous peak in magnetoresistance, and suggest an explanation for this anomaly.

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XAS studies of pressure-induced structural and electronic transformations in α-FeOOH

Trcera¹,

Layek²,

Shulman³

et al. 2019

J. Phys.: Condens. Matter

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Structural and electronic transformation taking place in α-FeOOH goethite have been studied by Fe K-edge x-ray absorption spectroscopy at pressures up to 50 GPa. These studies have shown the symmetrization of FeO6 octahedra coinciding with the Fe3+ high to low spin transition at pressure above ~45 GPa. Our data are in excellent agreement with the results of recent single crystal XRD and Mössbauer spectroscopy studies (Xu et al 2013 Phys. Rev. Lett. 111 175501), supporting the H-bonds symmetrization in iron oxyhydroxide, resulting from the Fe3+ high-to-low spin crossover at above 45 GPa. Our study shows an applicability of the x-ray absorption spectroscopy in a further study of the H-bonds symmetrization phenomenon.

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Pressure-induced high-spin/low-spin disproportionated state in the Mott insulator FeBO3

Dong

Layek

et al. 2022

Sci Rep

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The pressure-induced Mott insulator-to-metal transitions are often accompanied by a collapse of magnetic interactions associated with delocalization of 3d electrons and high-spin to low-spin (HS-LS) state transition. Here, we address a long-standing controversy regarding the high-pressure behavior of an archetypal Mott insulator FeBO3 and show the insufficiency of a standard theoretical approach assuming a conventional HS-LS transition for the description of the electronic properties of the Mott insulators at high pressures. Using high-resolution x-ray diffraction measurements supplemented by Mössbauer spectroscopy up to pressures ~ 150 GPa, we document an unusual electronic state characterized by a “mixed” HS/LS state with a stable abundance ratio realized in the $$R\overline{3 }c$$ R 3 ¯ c crystal structure with a single Fe site within a wide pressure range of ~ 50–106 GPa. Our results imply an unconventional cooperative (and probably dynamical) nature of the ordering of the HS/LS Fe sites randomly distributed over the lattice, resulting in frustration of magnetic moments.

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Quantum nature of a nonlinear beam splitter

Belinsky¹,

Shulman²

2014

Phys.-Usp.

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Paradox of a nonlinear beam splitter and its resolution

Belinsky

Volkov

Дмитриев

et al. 2013

J. Exp. Theor. Phys.

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Mark Shulman

Superconductor-insulator transition in fccGeSb2Te4at elevated pressures

XAS studies of pressure-induced structural and electronic transformations in α-FeOOH

Pressure-induced high-spin/low-spin disproportionated state in the Mott insulator FeBO3

Quantum nature of a nonlinear beam splitter

Paradox of a nonlinear beam splitter and its resolution

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