S. Kraus scite author profile

We observe the total filling factor nuT=1 quantum Hall state in a bilayer two-dimensional electron system with virtually no tunneling. We find thermally activated transport in the balanced system with a monotonic increase of the activation energy with decreasing d/lB below 1.65. In the imbalanced system we find activated transport in each of the layers separately, yet the activation energies show a striking asymmetry around the balance point, implying a different excitation spectrum for the separate layers forming the condensed state.

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From Quantum Hall Ferromagnetism to Huge Longitudinal Resistance at the2/3Fractional Quantum Hall State

Kraus

Stern

Lok

et al. 2002

Phys. Rev. Lett.

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We observe the transition from a spin-unpolarized to a polarized nu=2/3 fractional quantum Hall state at low currents (<5 nA), recently described in terms of quantum Hall ferromagnetism, versus density and parallel magnetic field. At larger currents the time and current dependent huge longitudinal resistance (HLR) is always initiated at the transition. Transport in the HLR regime is linear and the amount of current-induced nuclear polarization in the HLR is comparable to the thermal nuclear polarization at approximately 20 mK and 10 T. A current-induced disorder in the nuclear polarization is speculated to cause the enhanced resistance in the HLR regime.

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A full gap above the Fermi level: the charge density wave of monolayer VS2

et al. 2021

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In the standard model of charge density wave (CDW) transitions, the displacement along a single phonon mode lowers the total electronic energy by creating a gap at the Fermi level, making the CDW a metal–insulator transition. Here, using scanning tunneling microscopy and spectroscopy and ab initio calculations, we show that VS2 realizes a CDW which stands out of this standard model. There is a full CDW gap residing in the unoccupied states of monolayer VS2. At the Fermi level, the CDW induces a topological metal-metal (Lifshitz) transition. Non-linear coupling of transverse and longitudinal phonons is essential for the formation of the CDW and the full gap above the Fermi level. Additionally, x-ray magnetic circular dichroism reveals the absence of net magnetization in this phase, pointing to coexisting charge and spin density waves in the ground state.

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Spin effects in the magnetodrag between double quantum wells

et al. 2001

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We report on the selectivity to spin in a drag measurement. This selectivity to spin causes deep minima in the magneto-drag at odd fillingfactors for matched electron densities at magnetic fields and temperatures at which the bare spin energy is only one tenth of the temperature. For mismatched densities the selectivity causes a novel 1/B-periodic oscillation, such that negative minima in the drag are observed whenever the majority spins at the Fermi energies of the two-dimensional electron gasses (2DEGs) are anti-parallel, and positive maxima whenever the majority spins at the Fermi energies are parallel.

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Screening model of magnetotransport hysteresis observed in bilayer quantum Hall systems

Siddiki

Kraus

Gerhardts

2006

Physica E: Low-dimensional Systems and Nanostructures

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We report on theoretical and experimental investigations of a novel hysteresis effect that has been observed on the magnetoresistance of quantum-Hall bilayer systems. Extending to these system a recent approach, based on the Thomas-Fermi-Poisson nonlinear screening theory and a local conductivity model, we are able to explain the hysteresis as being due to screening effects such as the formation of "incompressible strips", which hinder the electron density in a layer within the quantum Hall regime to reach its equilibrium distribution.

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S. Kraus

Activated Transport in the Separate Layers that Form theνT=1Exciton Condensate

From Quantum Hall Ferromagnetism to Huge Longitudinal Resistance at the2/3Fractional Quantum Hall State

A full gap above the Fermi level: the charge density wave of monolayer VS2

Spin effects in the magnetodrag between double quantum wells

Screening model of magnetotransport hysteresis observed in bilayer quantum Hall systems

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