Your search keyword '"Schlereth, Raimund"' showing total 7 results

1. Dynamical separation of bulk and edge transport in HgTe-based 2D topological insulators

Author

Dartiailh, Matthieu C., Hartinger, Simon, Gourmelon, Alexandre, Bendias, Kalle, Bartolomei, Hugo, Kamata, Hiroshi, Berroir, Jean-Marc, Fève, Gwendal, Plaçais, Bernard, Lunczer, Lukas, Schlereth, Raimund, Buhmann, Hartmut, Molenkamp, Laurens W., and Bocquillon, Erwann

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Topological effects in edge states are clearly visible on short lengths only, thus largely impeding their studies. On larger distances, one may be able to dynamically enhance topological signatures by exploiting the high mobility of edge states with respect to bulk carriers. Our work on microwave spectroscopy highlights the responses of the edges which host very mobile carriers, while bulk carriers are drastically slowed down in the gap. Though the edges are denser than expected, we establish that charge relaxation occurs on short timescales, and suggests that edge states can be addressed selectively on timescales over which bulk carriers are frozen., Comment: Main text (5 pages, 4 figures) + Supplementary Material

Published

2019

2. Topological Superconductivity in a Phase-Controlled Josephson Junction

Author

Ren, Hechen, Pientka, Falko, Hart, Sean, Pierce, Andrew, Kosowsky, Michael, Lunczer, Lukas, Schlereth, Raimund, Scharf, Benedikt, Hankiewicz, Ewelina M., Molenkamp, Laurens W., Halperin, Bertrand I., and Yacoby, Amir

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Topological superconductors can support localized Majorana states at their boundaries. These quasi-particle excitations have non-Abelian statistics that can be used to encode and manipulate quantum information in a topologically protected manner. While signatures of Majorana bound states have been observed in one-dimensional systems, there is an ongoing effort to find alternative platforms that do not require fine-tuning of parameters and can be easily scalable to large numbers of states. Here we present a novel experimental approach towards a two-dimensional architecture. Using a Josephson junction made of HgTe quantum well coupled to thin-film aluminum, we are able to tune between a trivial and a topological superconducting state by controlling the phase difference $\phi$ across the junction and applying an in-plane magnetic field. We determine the topological state of the induced superconductor by measuring the tunneling conductance at the edge of the junction. At low magnetic fields, we observe a minimum in the tunneling spectra near zero bias, consistent with a trivial superconductor. However, as the magnetic field increases, the tunneling conductance develops a zero-bias peak which persists over a range of $\phi$ that expands systematically with increasing magnetic fields. Our observations are consistent with theoretical predictions for this system and with full quantum mechanical numerical simulations performed on model systems with similar dimensions and parameters. Our work establishes this system as a promising platform for realizing topological superconductivity and for creating and manipulating Majorana modes and will therefore open new avenues for probing topological superconducting phases in two-dimensional systems., Comment: Supplementary contains resized figures. Original files are available upon request

Published

2018

3. Topological superconductivity in a phase-controlled Josephson junction

Author

Ren, Hechen, Pientka, Falko, Hart, Sean, Pierce, Andrew T., Kosowsky, Michael, Lunczer, Lukas, and Schlereth, Raimund

Subjects

Superconductivity -- Observations, Semiconductor diodes -- Electric properties, Superconductors, Thin films, Atoms, Quantum wells, Magnetic fields, Numerical analysis, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Topological superconductors can support localized Majorana states at their boundaries.sup.1-5. These quasi-particle excitations obey non-Abelian statistics that can be used to encode and manipulate quantum information in a topologically protected manner.sup.6,7. Although signatures of Majorana bound states have been observed in one-dimensional systems, there is an ongoing effort to find alternative platforms that do not require fine-tuning of parameters and can be easily scaled to large numbers of states.sup.8-21. Here we present an experimental approach towards a two-dimensional architecture of Majorana bound states. Using a Josephson junction made of a HgTe quantum well coupled to thin-film aluminium, we are able to tune the transition between a trivial and a topological superconducting state by controlling the phase difference across the junction and applying an in-plane magnetic field.sup.22. We determine the topological state of the resulting superconductor by measuring the tunnelling conductance at the edge of the junction. At low magnetic fields, we observe a minimum in the tunnelling spectra near zero bias, consistent with a trivial superconductor. However, as the magnetic field increases, the tunnelling conductance develops a zero-bias peak, which persists over a range of phase differences that expands systematically with increasing magnetic field. Our observations are consistent with theoretical predictions for this system and with full quantum mechanical numerical simulations performed on model systems with similar dimensions and parameters. Our work establishes this system as a promising platform for realizing topological superconductivity and for creating and manipulating Majorana modes and probing topological superconducting phases in two-dimensional systems. Majorana bound states are created in a two-dimensional architecture by confining Majorana channels within a planar Josephson junction, using the phase difference across the junction and an in-plane magnetic field., Author(s): Hechen Ren [sup.1] [sup.2] , Falko Pientka [sup.1] [sup.3] , Sean Hart [sup.1] [sup.4] , Andrew T. Pierce [sup.1] , Michael Kosowsky [sup.1] , Lukas Lunczer [sup.5] , Raimund [...]

Published

2019

4. Low-Temperature Atomic Layer Deposition of Hafnium Oxide for Gating Applications

Author

Shekhar, Pragya, primary, Shamim, Saquib, additional, Hartinger, Simon, additional, Schlereth, Raimund, additional, Hock, Volkmar, additional, Buhmann, Hartmut, additional, Kleinlein, Johannes, additional, and Molenkamp, Laurens W., additional

Published

2022

5. New techniques and improvements in the MBE growth of Hg-containing narrow gap semiconductors

Author

Schlereth, Raimund

Subjects

530 Physik

Published

2020

6. Neue Techniken und Verbesserung des MBE Wachstums Hg-haltiger Halbleiter mit schmaler Bandlücke

Author

Schlereth, Raimund

Subjects

Halbleiter, Molekularstrahlepitaxie, ddc:530

Abstract

The subject of this thesis is the growth of Hg\(_{1-x}\)Cd\(_2\)Te layers via molecular beam epitaxy (MBE). This material system gives rise to a number of extraordinary physical phenomena related to its electronic band structure and therefore is of fundamental interest in research. The main results can be divided into three main areas, the implementation of a temperature measurement system based on band edge thermometry (BET), improvements of CdTe virtual substrate growth and the investigation of Hg\(_{1-x}\)Cd\(_2\)Te for different compositions., Gegenstand dieser Arbeit ist das Wachstum von Hg\(_{1-x}\)Cd\(_2\)Te-Schichten mittels Molekularstrahlepitaxie (MBE). Die elektronische Bandstruktur dieses Materials führt zu einer Reihe außergewöhnlicher physikalischer Phänomene. Es ist daher für die Forschung von grundlegendem Interesse. Die Ergebnisse lassen sich in drei Hauptbereiche unterteilen: die Implementierung eines Temperaturmessgeräts basierend auf dem Prinzip der Bandkantenthermometrie (BET), die Verbesserung des Wachstums von virtuellen CdTe-Substraten und die Untersuchung von Hg\(_{1-x}\)Cd\(_2\)Te-Schichten für verschiedene Materialkonzentrationen.

Published

2020

7. Dynamical Separation of Bulk and Edge Transport in HgTe-Based 2D Topological Insulators

Author

Dartiailh, Matthieu C., primary, Hartinger, Simon, additional, Gourmelon, Alexandre, additional, Bendias, Kalle, additional, Bartolomei, Hugo, additional, Kamata, Hiroshi, additional, Berroir, Jean-Marc, additional, Fève, Gwendal, additional, Plaçais, Bernard, additional, Lunczer, Lukas, additional, Schlereth, Raimund, additional, Buhmann, Hartmut, additional, Molenkamp, Laurens W., additional, and Bocquillon, Erwann, additional

Published

2020