A. Skierkowski scite author profile

A. Skierkowski

4Publications

4Citation Statements Received

25Citation Statements Given

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University of Warsaw

Publications

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Strain Induced k-Linear Spin Splitting in III-V Semiconductors

Skierkowski

Majewski

2007

Acta Phys. Pol. A

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We present theoretical studies of the linear-k strain induced spin splitting of the conduction band in the zinc-blende semiconductors. The studies are based on ab initio calculations performed within the density functional theory with non-scalar relativistic effects fully taken into account. This permits one to construct effective Hamiltonian for the strain induced linear-k spin splitting of the zinc-blende semiconductors. This Hamiltonian reproduces fully the structure of the strain induced linear-k spin splitting and generalizes previously introduced and commonly used effective Hamiltonian.

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Ab initio Calculations of Zero-field Spin Splitting in Zinc Blende Semiconductors

Skierkowski¹,

Majewski²

2007

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Theoretical Study of Spin Lifetimes in [110] Strained GaAs

Skierkowski

Majewski

2006

Acta Phys. Pol. A

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Resonant Spin Splitting in III-V Semiconductors

Skierkowski

Majewski

2005

Acta Phys. Pol. A

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We present first-principles studies of the zero field spin splitting of energy bands in typical III-V semiconductors. Our calculations reveal that the strain induces linear-k spin splitting of the conduction band in the Γ point, which is linear in strain, and determine the magnitude of the so-called acoustic phonon constant that characterizes the magnitude of the spin splitting. In addition, we show that optical phonons lead to spin-flip processes and we present quantitative results for the spin-phonon deformation potentials in GaAs. Most importantly, the calculations show that the linear-k spin splitting can be resonantly enhanced when bands cross in a particular point of the Brillouin zone. This resonant enhancement of the bulk inversion asymmetry coupling constant by more than one order of magnitude was observed in both valence and conduction bands and can be steered by the application of the external stress. This allows tailoring of the spin relaxation and spin precession of conduction electrons in nanostructures to a much larger extent than was hitherto assumed.

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A. Skierkowski

Strain Induced k-Linear Spin Splitting in III-V Semiconductors

Ab initio Calculations of Zero-field Spin Splitting in Zinc Blende Semiconductors

Theoretical Study of Spin Lifetimes in [110] Strained GaAs

Resonant Spin Splitting in III-V Semiconductors

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