Dachun Gu scite author profile

The pressure dependence of the superconducting transition temperature (Tc) and unit cell metrics of tetragonal (NH3)yCs0.4FeSe were investigated in high pressures up to 41 GPa. The Tc decreases with increasing pressure up to 13 GPa, which can be clearly correlated with the pressure dependence of c (or FeSe layer spacing). The Tc vs. c plot is compared with those of various (NH3)yMxFeSe (M: metal atoms) materials exhibiting different Tc and c, showing that the Tc is universally related to c. This behaviour means that a decrease in two-dimensionality lowers the Tc. No superconductivity was observed down to 4.3 K in (NH3)yCs0.4FeSe at 11 and 13 GPa. Surprisingly, superconductivity re-appeared rapidly above 13 GPa, with the Tc reaching 49 K at 21 GPa. The appearance of a new superconducting phase is not accompanied by a structural transition, as evidenced by pressure-dependent XRD. Furthermore, Tc slowly decreased with increasing pressure above 21 GPa, and at 41 GPa superconductivity disappeared entirely at temperatures above 4.9 K. The observation of a double-dome superconducting phase may provide a hint for pursuing the superconducting coupling-mechanism of ammoniated/non-ammoniated metal-doped FeSe.

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Breakdown of three-dimensional Dirac semimetal state in pressurizedCd3As2

Zhang¹,

Wu²,

Schoop³

et al. 2015

Phys. Rev. B

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We report the first observation of a pressure-induced breakdown of the 3D-DSM state in Cd 3 As 2 , evidenced by a series of in-situ high-pressure synchrotron X-ray diffraction (XRD) and single crystal transport measurements. We find that Cd 3 As 2 undergoes a structural phase transition from a metallic tetragonal (T) phase in space group I4 1 /acd to a semiconducting monoclinic (M) phase in space group P2 1 /c at critical pressure 2.57 GPa, above this pressure, an activation energy gap appears, accompanied by distinct switches in Hall resistivity slope and electron mobility. These changes of crystal symmetry and corresponding transport properties manifest the breakdown of the 3D-DSM state in pressurized Cd 3 As 2 .

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Role of the 245 phase in alkaline iron selenide superconductors revealed by high-pressure studies

Gao

Sun

et al. 2014

Phys. Rev. B

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There is considerable interest in uncovering the physics of iron-based superconductivity from the alkaline iron selenides, a materials class containing an insulating phase (245 phase) and a superconducting (SC) phase. Due to the microstructural complexity of these superconductors, the role of the 245 phase in the development of the superconductivity has been a puzzle. Here we demonstrate a comprehensive high-pressure study on the insulating samples with pure 245 phase and biphasic SC samples. We find that the insulating behavior can be completely suppressed by pressure in the insulating samples and also identify an intermediate metallic (M ) state. The Mott insulating (MI) state of the 245 phase and the M state coexist over a significant range of pressure up to ß10 GPa, the same pressure at which the superconductivity of the SC samples vanishes. Our results reveal the M state as a pathway that connects the insulating and SC phases of the alkaline iron selenides and indicate that the coexistence and interplay between the MI and M states is a necessary condition for superconductivity. Finally, we interpret the M state in terms of an orbital selectivity of the correlated 3d electrons.

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Dachun Gu

Re-emerging superconductivity at 48 kelvin in iron chalcogenides

Emergence of double-dome superconductivity in ammoniated metal-doped FeSe

Breakdown of three-dimensional Dirac semimetal state in pressurizedCd3As2

Role of the 245 phase in alkaline iron selenide superconductors revealed by high-pressure studies

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