Anomalously large resistance at the charge neutrality point in a zero-gap InAs/GaSb bilayer

W Yu,W Pan,V Bellani,Z Jiang,W K Lou,D Saha,K Chang,C Hernández Fuentevilla,G Gumbs,S D Hawkins,Y Meziani,D Smirnov,C J Stanton,V Clericò,X Shi,D H Huang,J F Klem,Y Jiang,E Diez

doi:10.1088/1367-2630/aac595

Anomalously large resistance at the charge neutrality point in a zero-gap InAs/GaSb bilayer

W Yu, W Pan + Show 17 more

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https://doi.org/10.1088/1367-2630/aac595

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Journal: New journal of physics	Publication Date: May 1, 2018
Citations: 12	License type: cc-by

Affiliation: Sandia National Laboratories, University of California, Berkeley, University of Pavia, Georgia Institute of Technology, University of Florida, Institute of Semiconductors, Chinese Academy of Sciences, Hunter College, City University of New York, Universidad de Salamanca, National High Magnetic Field Laboratory

#Charge Neutrality Region #Charge Neutrality Point + Show 8 more

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Abstract

We report here our recent electron transport results in spatially separated two-dimensional electron and hole gases with nominally degenerate energy subbands, realized in an InAs(10 nm)/GaSb(5 nm) coupled quantum well. We observe a narrow and intense maximum (∼500 kΩ) in the four-terminal resistivity in the charge neutrality region, separating the electron-like and hole-like regimes, with a strong activated temperature dependence above T = 7 K and perfect stability against quantizing magnetic fields. We discuss several mechanisms for that unexpectedly large resistance in this zero-gap semi-metal system including the formation of an excitonic insulator state.

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