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31 results on '"Karalic, Matija"'

1. Few-electron Single and Double Quantum Dots in an InAs Two-Dimensional Electron Gas

Author

Mittag, Christopher, Koski, Jonne V., Karalic, Matija, Thomas, Candice, Tuaz, Aymeric, Hatke, Anthony T., Gardner, Geoffrey C., Manfra, Michael J., Danon, Jeroen, Ihn, Thomas, and Ensslin, Klaus

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Most proof-of-principle experiments for spin qubits have been performed using GaAs-based quantum dots because of the excellent control they offer over tunneling barriers and the orbital and spin degrees of freedom. Here, we present the first realization of high-quality single and double quantum dots hosted in an InAs two-dimensional electron gas (2DEG), demonstrating accurate control down to the few-electron regime, where we observe a clear Kondo effect and singlet-triplet spin blockade. We measure an electronic $g$-factor of $16$ and a typical magnitude of the random hyperfine fields on the dots of $\sim 0.6\, \mathrm{mT}$. We estimate the spin-orbit length in the system to be $\sim 5-10\, \mu \mathrm{m}$, which is almost two orders of magnitude longer than typically measured in InAs nanostructures, achieved by a very symmetric design of the quantum well. These favorable properties put the InAs 2DEG on the map as a compelling host for studying fundamental aspects of spin qubits. Furthermore, having weak spin-orbit coupling in a material with a large Rashba coefficient potentially opens up avenues for engineering structures with spin-orbit coupling that can be controlled locally in space and/or time.

Published
2020
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2. Gate-defined Quantum Point Contact in an InSb Two-dimensional Electron Gas

Author

Lei, Zijin, Lehner, Christian A., Cheah, Erik, Mittag, Christopher, Karalic, Matija, Wegscheider, Werner, Ensslin, Klaus, and Ihn, Thomas

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We investigate an electrostatically defined quantum point contact in a high-mobility InSb two-dimensional electron gas. Well-defined conductance plateaus are observed, and the subband structure of the quantum point contact is extracted from finite-bias measurements. The Zeeman splitting is measured in both in-plane and out-of-plane magnetic fields. We find an in-plane g factor $|g_{\parallel}^* | \approx$ 40. The out-of-plane g factor is measured to be $|g_{\perp}^* | \approx$ 50, which is close to the g factor in the bulk., Comment: 20 pages, 5 figures

Published
2020
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3. Electronic g-factor and Magneto-transport in InSb Quantum Wells

Author

Lei, Zijin, Lehner, Christian A., Rubi, Km, Cheah, Erik, Karalic, Matija, Mittag, Christopher, Alt, Luca, Scharnetzky, Jan, Märki, Peter, Zeitler, Uli, Wegscheider, Werner, Ihn, Thomas, and Ensslin, Klaus

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

High mobility InSb quantum wells with tunable carrier densities are investigated by transport experiments in magnetic fields tilted with respect to the sample normal. We employ the coincidence method and the temperature dependence of the Shubnikov-de Haas oscillations and find a value for the effective g-factor of $\mid g^{\ast}\mid $ =35$\pm$4 and a value for the effective mass of $m^*\approx0.017 m_0$, where $m_0$ is the electron mass in vacuum. Our measurements are performed in a magnetic field and a density range where the enhancement mechanism of the effective g-factor can be neglected. Accordingly, the obtained effective g-factor and the effective mass can be quantitatively explained in a single particle picture. Additionally, we explore the magneto-transport up to magnetic fields of 35 T and do not find features related to the fractional quantum Hall effect., Comment: 18 Pages, 5 Figures

Published
2020
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4. Electron-Hole Interference in an Inverted-Band Semiconductor Bilayer

Author

Karalic, Matija, Štrkalj, Antonio, Masseroni, Michele, Chen, Wei, Mittag, Christopher, Tschirky, Thomas, Wegscheider, Werner, Ihn, Thomas, Ensslin, Klaus, and Zilberberg, Oded

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Electron optics in the solid state promises new functionality in electronics through the possibility of realizing micrometer-sized interferometers, lenses, collimators and beam splitters that manipulate electrons instead of light. Until now, however, such functionality has been demonstrated exclusively in one-dimensional devices, such as in nanotubes, and in graphene-based devices operating with p-n junctions. In this work, we describe a novel mechanism for realizing electron optics in two dimensions. By studying a two-dimensional Fabry-P\'{e}rot interferometer based on a resonant cavity formed in an InAs/GaSb double quantum well using p-n junctions, we establish that electron-hole hybridization in band-inverted systems can facilitate coherent interference. With this discovery, we expand the field of electron optics to encompass materials that exhibit band inversion and hybridization, with the promise to surpass the performance of current state-of-the-art devices., Comment: 7 pages, 3 figures + supplemental material (24 pages, 14 figures), comments are welcome

Published
2019
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5. A Gate-Defined Quantum Point Contact in an InAs Two-Dimensional Electron Gas

Author

Mittag, Christopher, Karalic, Matija, Lei, Zijin, Thomas, Candice, Tuaz, Aymeric, Hatke, Anthony T., Gardner, Geoffrey C., Manfra, Michael J., Ihn, Thomas, and Ensslin, Klaus

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We experimentally study quantized conductance in an electrostatically defined constriction in a high-mobility InAs two-dimensional electron gas. A parallel magnetic field lifts the spin degeneracy and allows for the observation of plateaus in integer multiples of $e^2/h$. Upon the application of a perpendicular magnetic field, spin-resolved magnetoelectric subbands are visible. Through finite bias spectroscopy we measure the subband spacings in both parallel and perpendicular direction of the magnetic field and determine the $g$-factor.

Published
2019
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6. Quantum transport in high-quality shallow InSb quantum wells

Author

Lei, Zijin, Lehner, Christian A., Cheah, Erik, Karalic, Matija, Mittag, Christopher, Alt, Luca, Scharnetzky, Jan, Wegscheider, Werner, Ihn, Thomas, and Ensslin, Klaus

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

InSb is one of the promising candidates to realize a topological state through proximity induced superconductivity in a material with strong spin-orbit interactions. In two-dimensional systems, thin barriers are needed to allow strong coupling between superconductors and semiconductors. However, it is still challenging to obtain a high-quality InSb two-dimensional electron gas in quantum wells close to the surface. Here we report on a molecular beam epitaxy grown heterostructure of InSb quantum wells with substrate-side Si-doping and ultra-thin InAlSb (5 nm, 25 nm, and 50 nm) barriers to the surface. We demonstrate that the carrier densities in these quantum wells are gate-tunable and electron mobilities up to 350,000 $\rm{cm^2(Vs)^{-1}}$ are extracted from magneto-transport measurements. Furthermore, from temperature-dependent magneto-resistance measurements, we extract an effective mass of 0.02 $m_0$ and find a Zeeman splitting compatible with the expected g-factor., Comment: Zijin Lei and Christian A. Lehner contributed equally to this work. For Supplementary Materials, please download the source files

Published
2019
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7. Gate-tunable Electronic Transport in p-type GaSb Quantum Wells

Author

Karalic, Matija, Mittag, Christopher, Hug, Michael, Shibata, Kenji, Tschirky, Thomas, Wegscheider, Werner, Winkler, R., Ensslin, Klaus, and Ihn, Thomas

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We investigate two-dimensional hole transport in GaSb quantum wells at cryogenic temperatures using gate-tunable devices. Measurements probing the valence band structure of GaSb unveil a significant spin splitting of the ground subband induced by spin-orbit coupling. We characterize the carrier densities, effective masses and quantum scattering times of these spin-split subbands and find that the results are in agreement with band structure calculations. Additionally, we study the weak anti-localization correction to the conductivity present around zero magnetic field and obtain information on the phase coherence. These results establish GaSb quantum wells as a platform for two-dimensional hole physics and lay the foundations for future experiments in this system.

Published
2019
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8. Phase Slips and Parity Jumps in Quantum Oscillations of Inverted InAs/GaSb Quantum Wells

Author

Karalic, Matija, Mittag, Christopher, Mueller, Susanne, Tschirky, Thomas, Wegscheider, Werner, Glazman, Leonid, Ensslin, Klaus, and Ihn, Thomas

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We present magnetotransport measurements of a strongly hybridized inverted InAs/GaSb double quantum well. We find that the spin-orbit interaction leads to an appreciable spin-splitting of hole-like states, which form distinct Landau levels in a perpendicular magnetic field. The resulting quantum Hall state is governed by a periodic even and odd total filling arising due to the simultaneous occupation of electron-like and hole-like Landau levels of differing degeneracy. Furthermore, oscillatory charge transfer between all involved subbands leads to discrete phase slips in the usual sequential filling of Landau levels, and coincidentally the phase slips are close to $\pi$. These results shed new insights on the Landau level structure in composite systems and have consequences for interpreting intercepts obtained from index plots, which are routinely employed to investigate the presence of Berry's phase.

Published
2018
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9. Edgeless and Purely Gate-Defined Nanostructures in InAs Quantum Wells

Author

Mittag, Christopher, Karalic, Matija, Lei, Zijin, Tschirky, Thomas, Wegscheider, Werner, Ihn, Thomas, and Ensslin, Klaus

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Nanostructures in InAs quantum wells have so far remained outside of the scope of traditional microfabrication techniques based on etching. This is due to parasitic parallel conduction arising from charge carrier accumulation at the physical edges of samples. Here we present a technique which enables the realization of quantum point contacts and quantum dots in two-dimensional electron gases of InAs purely by electrostatic gating. Multiple layers of top gates separated by dielectric layers are employed. Full quantum point contact pinch-off and measurements of Coulomb-blockade diamonds of quantum dots are demonstrated.

Published
2018
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10. Passivation of Edge States in Etched InAs Sidewalls

Author

Mittag, Christopher, Karalic, Matija, Müller, Susanne, Tschirky, Thomas, Wegscheider, Werner, Nazarenko, Olga, Kovalenko, Maksym V., Ihn, Thomas, and Ensslin, Klaus

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We investigate different methods of passivating sidewalls of wet etched InAs heterostructures in order to suppress inherent edge conduction that is presumed to occur due to band bending at the surface leading to charge carrier accumulation. Passivation techniques including sulfur, positively charged compensation dopants and plasma enhanced chemical vapor deposition of $\mathrm{SiN}_{\mathrm{x}}$ do not show an improvement. Surprisingly, atomic layer deposition of $\mathrm{Al}_{\mathrm{2}}\mathrm{O}_{\mathrm{3}}$ leads to an increase in edge resistivity of more than an order of magnitude. While the mechanism behind this change is not fully understood, possible reasons are suggested.

Published
2017
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11. Lateral p-n Junction in an Inverted InAs/GaSb Double Quantum Well

Author

Karalic, Matija, Mittag, Christopher, Tschirky, Thomas, Wegscheider, Werner, Ensslin, Klaus, and Ihn, Thomas

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We present transport measurements on a lateral p-n junction in an inverted InAs/GaSb double quantum well at zero and nonzero perpendicular magnetic fields. At a zero magnetic field, the junction exhibits diodelike behavior in accordance with the presence of a hybridization gap. With an increasing magnetic field, we explore the quantum Hall regime where spin-polarized edge states with the same chirality are either reflected or transmitted at the junction, whereas those of opposite chirality undergo a mixing process, leading to full equilibration along the width of the junction independent of spin. These results lay the foundations for using p-n junctions in InAs/GaSb double quantum wells to probe the transition between the topological quantum spin Hall and quantum Hall states.

Published
2017
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12. Experimental Signatures of the Inverted Phase in InAs/GaSb Coupled Quantum Wells

Author

Karalic, Matija, Mueller, Susanne, Mittag, Christopher, Pakrouski, Kiryl, Wu, QuanSheng, Soluyanov, Alexey A., Troyer, Matthias, Tschirky, Thomas, Wegscheider, Werner, Ensslin, Klaus, and Ihn, Thomas

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Transport measurements are performed on InAs/GaSb double quantum wells at zero and finite magnetic fields applied parallel and perpendicular to the quantum wells. We investigate a sample in the inverted regime where electrons and holes coexist, and compare it with another sample in the non-inverted semiconducting regime. Activated behavior in conjunction with a strong suppression of the resistance peak at the charge neutrality point in a parallel magnetic field attest to the topological hybridization gap between electron and hole bands in the inverted sample. We observe an unconventional Landau level spectrum with energy gaps modulated by the magnetic field applied perpendicular to the quantum wells. This is caused by strong spin-orbit interaction provided jointly by the InAs and the GaSb quantum wells.

Published
2016
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13. Non-local transport via edge-states in InAs/GaSb coupled quantum wells

Author

Mueller, Susanne, Pal, Atindra Nath, Karalic, Matija, Tschirky, Thomas, Charpentier, Christophe, Wegscheider, Werner, Ensslin, Klaus, and Ihn, Thomas

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We have investigated low-temperature electronic transport on InAs/GaSb double quantum wells, a system which promises to be electrically tunable from a normal to a topological insulator. Hall bars of $50\,\mu$m in length down to a few $\mu$m gradually develop a pronounced resistance plateau near charge-neutrality, which comes along with distinct non-local transport along the edges. Plateau resistances are found to be above or below the quantized value expected for helical edge channels. We discuss these results based on the interplay between imperfect edges and residual local bulk conductivity., Comment: 5 pages, 3 figures

Published
2015
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14. Transport Spectroscopy of a Spin-Coherent Dot-Cavity System

Author

Rössler, Clemens, Oehri, David, Zilberberg, Oded, Blatter, Gianni, Karalic, Matija, Pijnenburg, Jana, Hofmann, Andrea, Ihn, Thomas, Ensslin, Klaus, Reichl, Christian, and Wegscheider, Werner

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Quantum engineering requires controllable artificial systems with quantum coherence exceeding the device size and operation time. This can be achieved with geometrically confined low-dimensional electronic structures embedded within ultraclean materials, with prominent examples being artificial atoms (quantum dots) and quantum corrals (electronic cavities). Combining the two structures, we implement a mesoscopic coupled dot-cavity system in a high-mobility two-dimensional electron gas, and obtain an extended spin-singlet state in the regime of strong dot-cavity coupling. Engineering such extended quantum states presents a viable route for nonlocal spin coupling that is applicable for quantum information processing.

Published
2015
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15. Few-Electron Single and Double Quantum Dots in an In As Two-Dimensional Electron Gas

Author

Mittag, Christopher, Koski, Jonne V., Karalic, Matija, Thomas, Candice, Tuaz, Aymeric, Hatke, Anthony T., Gardner, Geoffrey C., Manfra, Michael J., Danon, Jeroen, Ihn, Thomas Markus, and Ensslin, Klaus

Subjects
Condensed Matter::Mesoscopic Systems and Quantum Hall Effect
Abstract

Most proof-of-principle experiments for spin qubits have been performed with GaAs-based quantum dots because of the excellent control they offer over tunneling barriers and the orbital and spin degrees of freedom. Here we present the first realization of high-quality single and double quantum dots hosted in an InAs two-dimensional electron gas, demonstrating accurate control down to the few-electron regime, where we observe a clear Kondo effect and singlet-triplet spin blockade. We measure an electronic g factor of 16 and a typical magnitude of the random hyperfine fields on the quantum dots of approximately 0.6mT. We estimate the spin-orbit length in the system to be approximately 5−10μm (which is almost 2 orders of magnitude longer than typically measured in InAs nanostructures), achieved by a very symmetric design of the quantum well. These favorable properties put the InAs two-dimensional electron gas on the map as a compelling host for studying fundamental aspects of spin qubits. Furthermore, having weak spin-orbit coupling in a material with a large Rashba coefficient potentially opens up avenues for engineering structures with spin-orbit coupling that can be controlled locally in space and/or time., PRX Quantum, 2 (1), ISSN:2691-3399

Published
2021

17. Magnetotransport of electrically induced two-dimensional hole gases in undoped GaSb quantum wells

Author

Shibata, Kenji, Karalic, Matija, Mittag, Christopher, Tschirky, Thomas, Reichl, Christian, Ito, Hiromu, Hashimoto, Katsushi, Tomimatsu, Toru, Hirayama, Yoshiro, Wegscheider, Werner, Ihn, Thomas Markus, and Ensslin, Klaus

Subjects
Condensed Matter::Strongly Correlated Electrons, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect
Abstract

We have performed magnetotransport measurements on electrically induced two-dimensional hole gases in undoped GaSb/AlSb quantum wells. The mobilities of the holes are sufficient to observe Shubnikov–de Haas oscillations for a few teslas of perpendicular magnetic field. We extracted the effective masses of holes in the valence bands from temperature-dependent Shubnikov–de Haas oscillations. The effective masses, in the unit of the free-electron mass, strongly depend on the width of the quantum wells and are 0.14–0.16 for the spin-degenerated subbands in an 8-nm-thick quantum well and 0.44–0.52 for one of the spin-split subbands in a 25-nm-thick quantum well. Furthermore, by fitting the weak antilocalization correction to the classical magnetoresistance at low magnetic fields, we obtained the phase coherence length of the system. The phase coherence length increases with hole density, reaching maxima of around 1100 and 600 nm for the 8- and 25-nm-thick quantum wells, respectively. These achievements build upon our previous results on GaSb quantum wells and further our understanding of their properties. They therefore lay the groundwork for realizing spin-based electronics based on the strong spin-orbit interaction in this promising system., Physical Review Research, 2 (3), ISSN:2643-1564

Published
2020

19. Electronic g factor and magnetotransport in InSb quantum wells

Author

Lei, Zijin, primary, Lehner, Christian A., additional, Rubi, Km, additional, Cheah, Erik, additional, Karalic, Matija, additional, Mittag, Christopher, additional, Alt, Luca, additional, Scharnetzky, Jan, additional, Märki, Peter, additional, Zeitler, Uli, additional, Wegscheider, Werner, additional, Ihn, Thomas, additional, and Ensslin, Klaus, additional

Published
2020
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24. Quantum transport in high-quality shallow InSb quantum wells

Author

Lei, Zijin, primary, Lehner, Christian A., additional, Cheah, Erik, additional, Karalic, Matija, additional, Mittag, Christopher, additional, Alt, Luca, additional, Scharnetzky, Jan, additional, Wegscheider, Werner, additional, Ihn, Thomas, additional, and Ensslin, Klaus, additional

Published
2019
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28. Passivation of edge states in etched InAs sidewalls

Author

Mittag, Christopher, primary, Karalic, Matija, additional, Mueller, Susanne, additional, Tschirky, Thomas, additional, Wegscheider, Werner, additional, Nazarenko, Olga, additional, Kovalenko, Maksym V., additional, Ihn, Thomas, additional, and Ensslin, Klaus, additional

Published
2017
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