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1,071 results on '"MEYER, J. S."'

1. Evidence of $\phi$0-Josephson junction from skewed diffraction patterns in Sn-InSb nanowires

Author

Zhang, B., Li, Z., Aguilar, V., Zhang, P., Pendharkar, M., Dempsey, C., Lee, J. S., Harrington, S. D., Tan, S., Meyer, J. S., Houzet, M., Palmstrom, C. J., and Frolov, S. M.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study Josephson junctions based on InSb nanowires with Sn shells. We observe skewed critical current diffraction patterns: the maxima in forward and reverse current bias are at different magnetic flux, with a displacement of 20-40 mT. The skew is greatest when the external field is nearly perpendicular to the nanowire, in the substrate plane. This orientation suggests that spin-orbit interaction plays a role. We develop a phenomenological model and perform tight-binding calculations, both methods reproducing the essential features of the experiment. The effect modeled is the $\phi$0-Josephson junction with higher-order Josephson harmonics. The system is of interest for Majorana studies: the effects are either precursor to or concomitant with topological superconductivity. Current-phase relations that lack inversion symmetry can also be used to design quantum circuits with engineered nonlinearity.

Published
2022
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2. Tunneling spectroscopy of few-monolayer NbSe$_2$ in high magnetic field: Ising protection and triplet superconductivity

Author

Kuzmanović, M., Dvir, T., LeBoeuf, D., Ilić, S., Haim, M., Möckli, D., Kraemer, S., Khodas, M., Houzet, M., Meyer, J. S., Aprili, M., Steinberg, H., and Quay, C. H. L.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In conventional Bardeen-Cooper-Scrieffer (BCS) superconductors, Cooper pairs of electrons of opposite spin (i.e. singlet structure) form the ground state. Equal spin triplet pairs (ESTPs), as in superfluid $^3$He, are of great interest for superconducting spintronics and topological superconductivity, yet remain elusive. Recently, odd-parity ESTPs were predicted to arise in (few-)monolayer superconducting NbSe$_2$, from the non-colinearity between the out-of-plane Ising spin-orbit field (due to the lack of inversion symmetry in monolayer NbSe$_2$) and an applied in-plane magnetic field. These ESTPs couple to the singlet order parameter at finite field. Using van der Waals tunnel junctions, we perform spectroscopy of superconducting NbSe$_2$ flakes, of 2--25 monolayer thickness, measuring the quasiparticle density of states (DOS) as a function of applied in-plane magnetic field up to 33T. In flakes $\lesssim$ 15 monolayers thick the DOS has a single superconducting gap. In these thin samples, the magnetic field acts primarily on the spin (vs orbital) degree of freedom of the electrons, and superconductivity is further protected by the Ising field. The superconducting energy gap, extracted from our tunnelling spectra, decreases as a function of the applied magnetic field. However, in bilayer NbSe$_2$, close to the critical field (up to 30T, much larger than the Pauli limit), superconductivity appears to be more robust than expected from Ising protection alone. Our data can be explained by the above-mentioned ESTPs.

Published
2021

3. Emergent Lorentz symmetry with vanishing velocity in a critical two-subband quantum wire

Author

Sitte, M., Rosch, A., Meyer, J. S., Matveev, K. A., and Garst, M.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We consider a quantum wire with two subbands of spin-polarized electrons in the presence of strong interactions. We focus on the quantum phase transition when the second subband starts to get filled as a function of gate voltage. Performing a one-loop renormalization group (RG) analysis of the effective Hamiltonian, we identify the critical fixed-point theory as a conformal field theory having an enhanced SU(2) symmetry and central charge 3/2. While the fixed point is Lorentz invariant, the effective 'speed of light' nevertheless vanishes at low energies due to marginally irrelevant operators leading to a diverging critical specific heat coefficient., Comment: 4 pages, 3 figures, minor changes, published version

Published
2008
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4. Spontaneous Spin Polarization in Quantum Wires

Author

Klironomos, A. D., Meyer, J. S., and Matveev, K. A.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

A number of recent experiments report spin polarization in quantum wires in the absence of magnetic fields. These observations are in apparent contradiction with the Lieb-Mattis theorem, which forbids spontaneous spin polarization in one dimension. We show that sufficiently strong interactions between electrons induce deviations from the strictly one-dimensional geometry and indeed give rise to a ferromagnetic ground state in a certain range of electron densities., Comment: 4 pages, 4 figures

Published
2005
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5. Critical States in Disordered Superconducting Films

Author

Lamacraft, A., Marchetti, F. M., Meyer, J. S., Moir, R. S., and Simons, B. D.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Disordered Systems and Neural Networks
Abstract

When subject to a pair-breaking perturbation, the pairing susceptibility of a disordered superconductor exhibits substantial long-ranged mesoscopic fluctuations. Focusing on a thin film subject to a parallel magnetic field, it is proposed that the quantum phase transition to the bulk superconducting condensate may be preempted by the formation of a glass-like phase with multi-fractal correlations of a complex order parameter. Although not universal, we argue that such behavior may be a common feature of quantum critical phenomena in disordered environments., Comment: 7 pages, 1 eps figure

Published
2004
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13. Tunneling spectroscopy of few-monolayer NbSe2 in high magnetic fields: Triplet superconductivity and Ising protection

Author

Kuzmanović, M. (author), Dvir, T. (author), Leboeuf, D. (author), Ilić, S. (author), Haim, M. (author), Möckli, D. (author), Kramer, S. (author), Khodas, M. (author), Meyer, J. S. (author), Kuzmanović, M. (author), Dvir, T. (author), Leboeuf, D. (author), Ilić, S. (author), Haim, M. (author), Möckli, D. (author), Kramer, S. (author), Khodas, M. (author), and Meyer, J. S. (author)

Abstract

In conventional Bardeen-Cooper-Schrieffer superconductors, Cooper pairs of electrons of opposite spin (i.e., singlet structure) form the ground state. Equal-spin triplet pairs (ESTPs), as in superfluid He3, are of great interest for superconducting spintronics and topological superconductivity, yet remain elusive. Recently, odd-parity ESTPs were predicted to arise in (few-)monolayer superconducting NbSe2, from the noncollinearity between the out-of-plane Ising spin-orbit field (due to the lack of inversion symmetry in monolayer NbSe2) and an applied in-plane magnetic field. These ESTPs couple to the singlet order parameter at finite field. Using van der Waals tunnel junctions, we perform spectroscopy of superconducting NbSe2 flakes, of 2-25 monolayer thickness, measuring the quasiparticle density of states (DOS) as a function of applied in-plane magnetic field up to 33 T. In flakes ≲15 monolayers thick the DOS has a single superconducting gap. In these thin samples, the magnetic field acts primarily on the spin (vs orbital) degree of freedom of the electrons, and superconductivity is further protected by the Ising field. The superconducting energy gap, extracted from our tunneling spectra, decreases as a function of the applied magnetic field. However, in bilayer NbSe2, close to the critical field (up to 30 T, much larger than the Pauli limit), superconductivity appears to be more robust than expected from Ising protection alone. Our data can be explained by the above-mentioned ESTPs., QRD/Kouwenhoven Lab

Published
2022
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