Electron pairs bound by the spin–orbit interaction in 2D gated Rashba materials with two-band spectrum

Yasha Gindikin; Igor Rozhansky; Vladimir A. Sablikov

doi:10.1016/j.physe.2022.115551

Electron pairs bound by the spin–orbit interaction in 2D gated Rashba materials with two-band spectrum

Yasha Gindikin, Igor Rozhansky, Vladimir A. Sablikov

Physics and Astronomy (Twin Cities)

Research output: Contribution to journal › Article › peer-review

Abstract

We show that the bound electron pairs (BEPs) emerge in two-dimensional gated Rashba materials owing to the interplay of the pair spin–orbit interaction, produced by the Coulomb fields of interacting electrons, and the peculiarities of the band structure giving rise to a negative reduced mass of the interacting electrons. Our consideration is based on the four-band Bernevig–Hughes–Zhang model with the Rashba spin–orbit interaction created by the charges on the gate. The binding energy of the BEP varies with the gate voltage in a wide range across the entire width of the two-particle energy gap. Although the spin–orbit interaction destroys the spin quantization, the BEPs have a magnetic moment, which is created mainly by the orbital motion of the electrons and tuned by the gate voltage.

Original language	English (US)
Article number	115551
Journal	Physica E: Low-Dimensional Systems and Nanostructures
Volume	146
DOIs	https://doi.org/10.1016/j.physe.2022.115551
State	Published - Jan 2023

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Publisher Copyright:
© 2022 Elsevier B.V.

Keywords

2D electron systems
Bernevig–Hughes–Zhang model
Bound electron pairs
Pair spin–orbit interaction
Rashba spin–orbit interaction

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title = "Electron pairs bound by the spin–orbit interaction in 2D gated Rashba materials with two-band spectrum",

abstract = "We show that the bound electron pairs (BEPs) emerge in two-dimensional gated Rashba materials owing to the interplay of the pair spin–orbit interaction, produced by the Coulomb fields of interacting electrons, and the peculiarities of the band structure giving rise to a negative reduced mass of the interacting electrons. Our consideration is based on the four-band Bernevig–Hughes–Zhang model with the Rashba spin–orbit interaction created by the charges on the gate. The binding energy of the BEP varies with the gate voltage in a wide range across the entire width of the two-particle energy gap. Although the spin–orbit interaction destroys the spin quantization, the BEPs have a magnetic moment, which is created mainly by the orbital motion of the electrons and tuned by the gate voltage.",

keywords = "2D electron systems, Bernevig–Hughes–Zhang model, Bound electron pairs, Pair spin–orbit interaction, Rashba spin–orbit interaction",

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AU - Gindikin, Yasha

AU - Rozhansky, Igor

AU - Sablikov, Vladimir A.

PY - 2023/1

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N2 - We show that the bound electron pairs (BEPs) emerge in two-dimensional gated Rashba materials owing to the interplay of the pair spin–orbit interaction, produced by the Coulomb fields of interacting electrons, and the peculiarities of the band structure giving rise to a negative reduced mass of the interacting electrons. Our consideration is based on the four-band Bernevig–Hughes–Zhang model with the Rashba spin–orbit interaction created by the charges on the gate. The binding energy of the BEP varies with the gate voltage in a wide range across the entire width of the two-particle energy gap. Although the spin–orbit interaction destroys the spin quantization, the BEPs have a magnetic moment, which is created mainly by the orbital motion of the electrons and tuned by the gate voltage.

AB - We show that the bound electron pairs (BEPs) emerge in two-dimensional gated Rashba materials owing to the interplay of the pair spin–orbit interaction, produced by the Coulomb fields of interacting electrons, and the peculiarities of the band structure giving rise to a negative reduced mass of the interacting electrons. Our consideration is based on the four-band Bernevig–Hughes–Zhang model with the Rashba spin–orbit interaction created by the charges on the gate. The binding energy of the BEP varies with the gate voltage in a wide range across the entire width of the two-particle energy gap. Although the spin–orbit interaction destroys the spin quantization, the BEPs have a magnetic moment, which is created mainly by the orbital motion of the electrons and tuned by the gate voltage.

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KW - Pair spin–orbit interaction

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Electron pairs bound by the spin–orbit interaction in 2D gated Rashba materials with two-band spectrum

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