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Literature DB >> 25192115

Cubic Rashba spin-orbit interaction of a two-dimensional hole gas in a strained-Ge/SiGe quantum well.

Rai Moriya¹, Kentarou Sawano², Yusuke Hoshi³, Satoru Masubuchi⁴, Yasuhiro Shiraki², Andreas Wild⁵, Christian Neumann⁶, Gerhard Abstreiter⁷, Dominique Bougeard⁶, Takaaki Koga⁸, Tomoki Machida⁴.

Abstract

The spin-orbit interaction (SOI) of a two-dimensional hole gas in the inversion symmetric semiconductor Ge is studied in a strained-Ge/SiGe quantum well structure. We observe weak antilocalization (WAL) in the magnetoconductivity measurement, revealing that the WAL feature can be fully described by the k-cubic Rashba SOI theory. Furthermore, we demonstrate electric field control of the Rashba SOI. Our findings reveal that the heavy hole (HH) in strained Ge is a purely cubic Rashba system, which is consistent with the spin angular momentum m(j) = ± 3/2 nature of the HH wave function.

Year: 2014 PMID： 25192115 DOI： 10.1103/PhysRevLett.113.086601

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

5 in total

Cubic Rashba spin-orbit interaction of a two-dimensional hole gas in a strained-Ge/SiGe quantum well.

1. Strong confinement-induced engineering of the g factor and lifetime of conduction electron spins in Ge quantum wells.

2. New strategies for producing defect free SiGe strained nanolayers.

3. Gate-controlled quantum dots and superconductivity in planar germanium.

4. Quantum confined two-dimensional electron/hole gas switching by facet orientation of perovskite oxides.

5. Orbital angular momentum analysis for giant spin splitting in solids and nanostructures.