Tushar Bhowmick scite author profile

Tushar Bhowmick

4Publications

24Citation Statements Received

82Citation Statements Given

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213

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University of Utah, Sejong University

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Suppressed weak antilocalization in the topological insulator Bi₂Se₃proximity coupled to antiferromagnetic NiO

et al. 2017

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Time-reversal symmetry (TRS) breaking of the topological insulators (TIs) is a prerequisite to observe the quantum anomalous Hall effect (QAHE) and topological magnetoelectric effect (TME). Although antiferromagnetism as well as ferromagnetism could break the TRS and generate massive Dirac surface states in the TIs, no attention has been paid to the antiferromagnet-TI heterostructures. Herein, we report the magnetotransport measurements of BiSe proximately coupled to antiferromagnetic NiO. Thin films of BiSe were successfully grown on the NiO (001) single crystalline substrates by molecular beam epitaxy. Unexpectedly, we observed a strong suppression of the weak antilocalization effect, which is similar to the case of TIs coupled to the ferromagnetic materials. For the 5 nm-thick BiSe sample on NiO, we even observed a crossover to weak localization at 2 K. These behaviors are attributed to the strong magnetic exchange field from the Ni 3d electrons. Our results show the effectiveness of the antiferromagnetic materials in breaking the TRS of TIs by the proximity effect and their possible applications for QAHE and TME observations.

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Pressure-induced ferroelectric-like transition creates a polar metal in defect antiperovskites Hg3Te2X2 (X = Cl, Br)

Cai

et al. 2021

Nat Commun

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Ferroelectricity is typically suppressed under hydrostatic compression because the short-range repulsions, which favor the nonpolar phase, increase more rapidly than the long-range interactions, which prefer the ferroelectric phase. Here, based on single-crystal X-ray diffraction and density-functional theory, we provide evidence of a ferroelectric-like transition from phase I213 to R3 induced by pressure in two isostructural defect antiperovskites Hg3Te2Cl2 (15.5 GPa) and Hg3Te2Br2 (17.5 GPa). First-principles calculations show that this transition is attributed to pressure-induced softening of the infrared phonon mode Γ4, similar to the archetypal ferroelectric material BaTiO3 at ambient pressure. Additionally, we observe a gradual band-gap closing from ~2.5 eV to metallic-like state of Hg3Te2Br2 with an unexpectedly stable R3 phase even after semiconductor-to-metal transition. This study demonstrates the possibility of emergence of polar metal under pressure in this class of materials and establishes the possibility of pressure-induced ferroelectric-like transition in perovskite-related systems.

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Fermi surface studies of the low-temperature structure of sodium

et al. 2020

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Structure and pressure dependence of the Fermi surface of lithium

et al. 2022

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Tushar Bhowmick

Suppressed weak antilocalization in the topological insulator Bi₂Se₃proximity coupled to antiferromagnetic NiO

Pressure-induced ferroelectric-like transition creates a polar metal in defect antiperovskites Hg3Te2X2 (X = Cl, Br)

Fermi surface studies of the low-temperature structure of sodium

Structure and pressure dependence of the Fermi surface of lithium

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Tushar Bhowmick

Suppressed weak antilocalization in the topological insulator Bi2Se3proximity coupled to antiferromagnetic NiO

Pressure-induced ferroelectric-like transition creates a polar metal in defect antiperovskites Hg3Te2X2 (X = Cl, Br)

Fermi surface studies of the low-temperature structure of sodium

Structure and pressure dependence of the Fermi surface of lithium

Contact Info

Product

Resources

About

Suppressed weak antilocalization in the topological insulator Bi₂Se₃proximity coupled to antiferromagnetic NiO