G. I. Japaridze scite author profile

Interacting one-dimensional conductors with Rashba spin-orbit coupling are shown to exhibit a spin-selective Peierls-type transition into a mixed spin-charge density wave state. The transition leads to a gap for one-half of the conducting modes, which is strongly enhanced by electron-electron interactions. The other half of the modes remains in a strongly renormalized gapless state and conducts opposite spins in opposite directions, thus providing a perfect spin filter. The transition is driven by magnetic field and by spin-orbit interactions. As an example we show for semiconducting quantum wires and carbon nanotubes that the gap induced by weak magnetic fields or intrinsic spin-orbit interactions can get renormalized by one order of magnitude up to 10-30 Kelvins.

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Edge Dynamics in a Quantum Spin Hall State: Effects from Rashba Spin-Orbit Interaction

Ström¹,

Johannesson²,

Japaridze³

2010

Phys. Rev. Lett.

151

173

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We analyze the dynamics of the helical edge modes of a quantum spin Hall state in the presence of a spatially nonuniform Rashba spin-orbit (SO) interaction. A randomly fluctuating Rashba SO coupling is found to open a scattering channel which causes localization of the edge modes for a weakly screened electron-electron (e-e) interaction. A periodic modulation of the SO coupling, with a wave number commensurate with the Fermi momentum, makes the edge insulating already at intermediate strengths of the e-e interaction. We discuss implications for experiments on edge state transport in a HgTe quantum well.

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Nature of the insulating phases in the half-filled ionic Hubbard model

Kampf

Sekania

Japaridze

et al. 2003

J. Phys.: Condens. Matter

122

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We investigate the ground-state phase diagram of the one-dimensional "ionic" Hubbard model with an alternating periodic potential at half-filling by numerical diagonalization of finite systems with the Lanczos and density matrix renormalization group (DMRG) methods. We identify an insulatorinsulator phase transition from a band to a correlated insulator with simultaneous charge and bondcharge order. The transition point is characterized by the vanishing of the optical excitation gap while simultaneously the charge and spin gaps remain finite and equal. Indications for a possible second transition into a Mott-insulator phase are discussed.

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G. I. Japaridze

Spin-selective Peierls transition in interacting one-dimensional conductors with spin-orbit interaction

Edge Dynamics in a Quantum Spin Hall State: Effects from Rashba Spin-Orbit Interaction

Nature of the insulating phases in the half-filled ionic Hubbard model

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