235 research outputs found

    Dependence of spin susceptibility of a two-dimensional electron system on the valley degree of freedom

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    We report measurements of the spin susceptibility, χgvgm\chi\propto g_v g^*m^*, in an AlAs two-dimensional electron system where, via the application of in-plane stress, we transfer electrons from one conduction-band valley to another (gvg_v is the valley degeneracy, and mm^* and gg^* are the electron effective mass and g-factor). At a given density, when the two valleys are equally populated (gv=2g_v=2), the measured gmg^*m^* is smaller than when only one valley is occupied (gv=1g_v=1). This observation counters the common assumption that a two-valley two-dimensional system is effectively more dilute than a single-valley system because of its smaller Fermi energy.Comment: 4 pages, 3 figure

    Valley splitting of AlAs two-dimensional electrons in a perpendicular magnetic field

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    By measuring the angles at which the Landau levels overlap in tilted magnetic fields (the coincidence method), we determine the splitting of the conduction-band valleys in high-mobility two-dimensional (2D) electrons confined to AlAs quantum wells. The data reveal that, while the valleys are nearly degenerate in the absence of magnetic field, they split as a function of perpendicular magnetic field. The splitting appears to depend primarily on the magnitude of the perpendicular component of the magnetic field, suggesting electron-electron interaction as its origin.Comment: Revtex4: 4 pages, 4 figures. Submitted for publicatio

    Dependence of persistent gaps at Landau level crossings on relative spin

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    We report measurements of the quantum Hall state energy gap at avoided crossings between Landau levels originating from different conduction band valleys in AlAs quantum wells. These gaps exhibit an approximately linear dependence on magnetic field over a wide range of fields and filling factors. More remarkably, we observe an unexpected dependence of the gap size on the relative spin orientation of the crossing levels, with parallel-spin crossings exhibiting larger gaps than antiparallel-spin crossings.Comment: 4 pages, 3 figures, submitted for publicatio

    Valley susceptibility of an interacting two-dimensional electron system

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    We report direct measurements of the valley susceptibility, the change of valley population in response to applied symmetry-breaking strain, in an AlAs two-dimensional electron system. As the two-dimensional density is reduced, the valley susceptibility dramatically increases relative to its band value, reflecting the system's strong electron-electron interaction. The increase has a remarkable resemblance to the enhancement of the spin susceptibility and establishes the analogy between the spin and valley degrees of freedom.Comment: 5 pages, 2 figure

    Observation of Quantum Hall Valley Skyrmions

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    We report measurements of the interaction-induced quantum Hall effect in a spin-polarized AlAs two-dimensional electron system where the electrons occupy two in-plane conduction band valleys. Via the application of in-plane strain, we tune the energies of these valleys and measure the energy gap of the quantum Hall state at filling factor ν\nu = 1. The gap has a finite value even at zero strain and, with strain, rises much faster than expected from a single-particle picture, suggesting that the lowest energy charged excitations at ν=1\nu=1 are "valley Skyrmions".Comment: 4 pages, 3 figure

    Anomalous giant piezoresistance in AlAs 2D electrons with anti-dot lattices

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    An AlAs two-dimensional electron system patterned with an anti-dot lattice exhibits a giant piezoresistance (GPR) effect, with a sign opposite to the piezoresistance observed in the unpatterned region. We trace the origin of this anomalous GPR to the non-uniform strain in the anti-dot lattice and the exclusion of electrons occupying the two conduction band valleys from different regions of the sample. This is analogous to the well-known giant magnetoresistance (GMR) effect, with valley playing the role of spin and strain the role of magnetic field.Comment: 4 figures, submitted for publicatio
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