Probing the semiconductor to semimetal transition in InAs/GaSb double quantum wells by magneto-infrared spectroscopy

Y. Jiang; S. Thapa; G. D. Sanders; C. J. Stanton; Q. Zhang; J. Kono; W. K. Lou; K. Chang; S. D. Hawkins; J. F. Klem; W. Pan; D. Smirnov; Z. Jiang

doi:10.1103/PhysRevB.95.045116

Probing the semiconductor to semimetal transition in InAs/GaSb double quantum wells by magneto-infrared spectroscopy

Y. Jiang, S. Thapa, G. D. Sanders, C. J. Stanton, Q. Zhang, J. Kono, W. K. Lou, K. Chang, S. D. Hawkins, J. F. Klem, W. Pan, D. Smirnov, Z. Jiang

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21 Citations (Scopus)

Abstract

We perform a magnetoinfrared spectroscopy study of the semiconductor to semimetal transition of InAs/GaSb double quantum wells from the normal to the inverted state. We show that owing to the low carrier density of our samples, the magnetoabsorption spectra evolve from a single cyclotron resonance peak in the normal state to multiple absorption peaks in the inverted state with distinct magnetic field dependence. Using an eight-band Pidgeon-Brown model, we explain all the major absorption peaks observed in our experiment. We demonstrate that the semiconductor to semimetal transition can be realized by manipulating the quantum confinement, the strain, and the magnetic field. Our work paves the way for band engineering of optimal InAs/GaSb structures for realizing novel topological states as well as for device applications in the terahertz regime.

Original language	English
Article number	045116
Journal	Physical Review B
Volume	95
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevB.95.045116
Publication status	Published - Jan 11 2017
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2017 American Physical Society.

ASJC Scopus Subject Areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.95.045116

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Jiang, Y., Thapa, S., Sanders, G. D., Stanton, C. J., Zhang, Q., Kono, J., Lou, W. K., Chang, K., Hawkins, S. D., Klem, J. F., Pan, W., Smirnov, D., & Jiang, Z. (2017). Probing the semiconductor to semimetal transition in InAs/GaSb double quantum wells by magneto-infrared spectroscopy. Physical Review B, 95(4), Article 045116. https://doi.org/10.1103/PhysRevB.95.045116

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title = "Probing the semiconductor to semimetal transition in InAs/GaSb double quantum wells by magneto-infrared spectroscopy",

abstract = "We perform a magnetoinfrared spectroscopy study of the semiconductor to semimetal transition of InAs/GaSb double quantum wells from the normal to the inverted state. We show that owing to the low carrier density of our samples, the magnetoabsorption spectra evolve from a single cyclotron resonance peak in the normal state to multiple absorption peaks in the inverted state with distinct magnetic field dependence. Using an eight-band Pidgeon-Brown model, we explain all the major absorption peaks observed in our experiment. We demonstrate that the semiconductor to semimetal transition can be realized by manipulating the quantum confinement, the strain, and the magnetic field. Our work paves the way for band engineering of optimal InAs/GaSb structures for realizing novel topological states as well as for device applications in the terahertz regime.",

author = "Y. Jiang and S. Thapa and Sanders, {G. D.} and Stanton, {C. J.} and Q. Zhang and J. Kono and Lou, {W. K.} and K. Chang and Hawkins, {S. D.} and Klem, {J. F.} and W. Pan and D. Smirnov and Z. Jiang",

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year = "2017",

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doi = "10.1103/PhysRevB.95.045116",

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AU - Jiang, Y.

AU - Thapa, S.

AU - Sanders, G. D.

AU - Stanton, C. J.

AU - Zhang, Q.

AU - Kono, J.

AU - Lou, W. K.

AU - Chang, K.

AU - Hawkins, S. D.

AU - Klem, J. F.

AU - Pan, W.

AU - Smirnov, D.

AU - Jiang, Z.

PY - 2017/1/11

Y1 - 2017/1/11

N2 - We perform a magnetoinfrared spectroscopy study of the semiconductor to semimetal transition of InAs/GaSb double quantum wells from the normal to the inverted state. We show that owing to the low carrier density of our samples, the magnetoabsorption spectra evolve from a single cyclotron resonance peak in the normal state to multiple absorption peaks in the inverted state with distinct magnetic field dependence. Using an eight-band Pidgeon-Brown model, we explain all the major absorption peaks observed in our experiment. We demonstrate that the semiconductor to semimetal transition can be realized by manipulating the quantum confinement, the strain, and the magnetic field. Our work paves the way for band engineering of optimal InAs/GaSb structures for realizing novel topological states as well as for device applications in the terahertz regime.

AB - We perform a magnetoinfrared spectroscopy study of the semiconductor to semimetal transition of InAs/GaSb double quantum wells from the normal to the inverted state. We show that owing to the low carrier density of our samples, the magnetoabsorption spectra evolve from a single cyclotron resonance peak in the normal state to multiple absorption peaks in the inverted state with distinct magnetic field dependence. Using an eight-band Pidgeon-Brown model, we explain all the major absorption peaks observed in our experiment. We demonstrate that the semiconductor to semimetal transition can be realized by manipulating the quantum confinement, the strain, and the magnetic field. Our work paves the way for band engineering of optimal InAs/GaSb structures for realizing novel topological states as well as for device applications in the terahertz regime.

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Probing the semiconductor to semimetal transition in InAs/GaSb double quantum wells by magneto-infrared spectroscopy

Abstract

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ASJC Scopus Subject Areas

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