V. Crespo scite author profile

Superconductors with an odd number of bands crossing the Fermi energy have topologically protected Andreev states at interfaces, including Majorana states in one-dimensional geometries. We propose here that repeated indentation of a Pb tip on a Pb substrate can lead to nanowires such that the resulting superconducting system has novel topological properties. We have analyzed a number of conductance curves obtained in different nanowires, and observe, in a few cases, very peculiar dependence of the critical current on magnetic field. In these cases, the form of multiple Andreev reflections observed at finite voltages are compatible with topological superconductivity. The nanowires give a low number of 1D channels, large spin orbit coupling, and a sizable Zeeman energy, provided that the applied magnetic field is higher than the Pb bulk critical field.

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Scanning microscopies of superconductors at very low temperatures

Crespo¹,

Galvis²,

Kulkarni³

et al. 2012

Physica C: Superconductivity

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We discuss basics of scanning tunneling microscopy and spectroscopy (STM/S) of the superconducting state with normal and superconducting tips. We present a new method to measure the local variations in the Andreev reflection amplitude between a superconducting tip and the sample. This method is termed Scanning Andreev Reflection Spectroscopy (SAS). We also briefly discuss vortex imaging with STM/S under an applied current through the sample, and show the vortex lattice as a function of the angle between the magnetic field and sample's surface.

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Evolution of the Local Superconducting Density of States inErRh4B4Close to the Ferromagnetic Transition

et al. 2009

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We present local tunneling spectroscopy experiments in the superconducting and ferromagnetic phases of the reentrant superconductor ErRh4B4. The tunneling conductance curves jump from showing normal to superconducting features within a few mK close to the ferromagnetic transition temperature, with a clear hysteretic behavior. Within the ferromagnetic phase, we do not detect any superconducting correlations. Within the superconducting phase we find a peculiar V-shaped density of states at low energies, which is produced by the magnetically modulated phase that coexists with superconductivity just before ferromagnetism sets in.

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Josephson current at atomic scale: Tunneling and nanocontacts using a STM

Rodrigo

Crespo

Vieira

2006

Physica C: Superconductivity and its Applications

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V. Crespo

A nodeless superconducting gap in Sr₂RuO₄from tunneling spectroscopy

Topological Superconducting State of Lead Nanowires in an External Magnetic Field

Scanning microscopies of superconductors at very low temperatures

Evolution of the Local Superconducting Density of States inErRh4B4Close to the Ferromagnetic Transition

Josephson current at atomic scale: Tunneling and nanocontacts using a STM

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V. Crespo

A nodeless superconducting gap in Sr2RuO4from tunneling spectroscopy

Topological Superconducting State of Lead Nanowires in an External Magnetic Field

Scanning microscopies of superconductors at very low temperatures

Evolution of the Local Superconducting Density of States inErRh4B4Close to the Ferromagnetic Transition

Josephson current at atomic scale: Tunneling and nanocontacts using a STM

Contact Info

Product

Resources

About

A nodeless superconducting gap in Sr₂RuO₄from tunneling spectroscopy