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23 results on '"Landig, A. J."'

1. In-situ Tuning of the Electric Dipole Strength of a Double Dot Charge Qubit: Charge Noise Protection and Ultra Strong Coupling

Author

Scarlino, P., Ungerer, J. H., van Woerkom, D. J., Mancini, M., Stano, P., Muller, C., Landig, A. J., Koski, J. V., Reichl, C., Wegscheider, W., Ihn, T., Ensslin, K., and Wallraff, A.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Semiconductor quantum dots, where electrons or holes are isolated via electrostatic potentials generated by surface gates, are promising building blocks for semiconductor-based quantum technology. Here, we investigate double quantum dot (DQD) charge qubits in GaAs, capacitively coupled to high-impedance SQUID array and Josephson junction array resonators. We tune the strength of the electric dipole interaction between the qubit and the resonator in-situ using surface gates. We characterize the qubit-resonator coupling strength, qubit decoherence, and detuning noise affecting the charge qubit for different electrostatic DQD configurations. We find that all quantities can be tuned systematically over more than one order of magnitude, resulting in reproducible decoherence rates $\Gamma_2/2\pi<~5$ MHz in the limit of high interdot capacitance. Conversely, by reducing the interdot capacitance, we can increase the DQD electric dipole strength, and therefore its coupling to the resonator. By employing a Josephson junction array resonator with an impedance of $\sim4$ k$\Omega$ and a resonance frequency of $\omega_r/2\pi \sim 5.6$ GHz, we observe a coupling strength of $g/2\pi \sim 630$ MHz, demonstrating the possibility to achieve the ultrastrong coupling regime (USC) for electrons hosted in a semiconductor DQD. These results are essential for further increasing the coherence of quantum dot based qubits and investigating USC physics in semiconducting QDs., Comment: 24 pages, 13 figures

Published
2021
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2. Realization of a $CQ_3$ Qubit: energy spectroscopy and coherence

Author

Kratochwil, Benedikt, Koski, Jonne V., Landig, Andreas J., Scarlino, Pasquale, Abadillo-Uriel, José C., Reichl, Christian, Coppersmith, Susan N., Wegscheider, Werner, Friesen, Mark, Wallraff, Andreas, Ihn, Thomas, and Ensslin, Klaus

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The energy landscape of a single electron in a triple quantum dot can be tuned such that the energy separation between ground and excited states becomes a flat function of the relevant gate voltages. These so-called sweet spots are beneficial for charge coherence, since the decoherence effects caused by small fluctuations of gate voltages or surrounding charge fluctuators are minimized. We propose a new operation point for a triple quantum dot charge qubit, a so-called $CQ_3$-qubit, having a third order sweet spot. We show strong coupling of the qubit to single photons in a frequency tunable high-impedance SQUID-array resonator. In the dispersive regime we investigate the qubit linewidth in the vicinity of the proposed operating point. In contrast to the expectation for a higher order sweet spot, we there find a local maximum of the linewidth. We find that this is due to a non-negligible contribution of noise on the quadrupolar detuning axis not being in a sweet spot at the proposed operating point. While the original motivation to realize a low-decoherence charge qubit was not fulfilled, our analysis provides insights into charge decoherence mechanisms relevant also for other qubits., Comment: 12 pages, 11 figures

Published
2020
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3. Automated tuning of double quantum dots into specific charge states using neural networks

Author

Durrer, Renato, Kratochwil, Benedikt, Koski, Jonne V., Landig, Andreas J., Reichl, Christian, Wegscheider, Werner, Ihn, Thomas, and Greplova, Eliska

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

While quantum dots are at the forefront of quantum device technology, tuning multi-dot systems requires a lengthy experimental process as multiple parameters need to be accurately controlled. This process becomes increasingly time-consuming and difficult to perform manually as the devices become more complex and the number of tuning parameters grows. In this work, we present a crucial step towards automated tuning of quantum dot qubits. We introduce an algorithm driven by machine learning that uses a small number of coarse-grained measurements as its input and tunes the quantum dot system into a pre-selected charge state. We train and test our algorithm on a GaAs double quantum dot device and we consistently arrive at the desired state or its immediate neighborhood., Comment: 9 pages, 8 figures, code available at https://github.com/redur/auto-tuner

Published
2019
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4. Strong photon coupling to the quadrupole moment of an electron in solid state

Author

Koski, Jonne V., Landig, Andreas J., Russ, Maximilian, Abadillo-Uriel, José C., Scarlino, Pasquale, Kratochwil, Benedikt, Reichl, Christian, Wegscheider, Werner, Burkard, Guido, Friesen, Mark, Coppersmith, Susan N., Wallraff, Andreas, Ensslin, Klaus, and Ihn, Thomas

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The implementation of circuit quantum electrodynamics allows coupling distant qubits by microwave photons hosted in on-chip superconducting resonators. Typically, the qubit-photon interaction is realized by coupling the photons to the electric dipole moment of the qubit. A recent proposal suggests storing the quantum information in the electric quadrupole moment of an electron in a triple quantum dot. The qubit is expected to have improved coherence since it is insensitive to dipolar noise produced by distant voltage fluctuators. Here we experimentally realize a quadrupole qubit in a linear array of three quantum dots in a GaAs/AlGaAs heterostructure. A high impedance microwave resonator coupled to the middle dot interacts with the qubit quadrupole moment. We demonstrate strong quadrupole qubit--photon coupling and observe improved coherence properties when operating the qubit in the parameter space where the dipole coupling vanishes.

Published
2019
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5. Coherent long-distance spin-qubit-transmon coupling

Author

Landig, A. J., Koski, J. V., Scarlino, P., Müller, C., Abadillo-Uriel, J. C., Kratochwil, B., Reichl, C., Wegscheider, W., Coppersmith, S. N., Friesen, Mark, Wallraff, A., Ihn, T., and Ensslin, K.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Spin qubits and superconducting qubits are among the promising candidates for a solid state quantum computer. For the implementation of a hybrid architecture which can profit from the advantages of either world, a coherent long-distance link is necessary that integrates and couples both qubit types on the same chip. We realize such a link with a frequency-tunable high impedance SQUID array resonator. The spin qubit is a resonant exchange qubit hosted in a GaAs triple quantum dot. It can be operated at zero magnetic field, allowing it to coexist with superconducting qubits on the same chip. We find a working point for the spin qubit, where the ratio between its coupling strength and decoherence rate is optimized. We observe coherent interaction between the resonant exchange qubit and a transmon qubit in both resonant and dispersive regimes, where the interaction is mediated either by real or virtual resonator photons.

Published
2019
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6. Microwave cavity detected spin blockade in a few electron double quantum dot

Author

Landig, A. J., Koski, J. V., Scarlino, P., Reichl, C., Wegscheider, W., Wallraff, A., Ensslin, K., and Ihn, T.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We investigate spin states of few electrons in a double quantum dot by coupling them weakly to a magnetic field resilient NbTiN microwave resonator. We observe a reduced resonator transmission if resonator photons and spin singlet states interact. This response vanishes in a magnetic field once the quantum dot ground state changes from a spin singlet into a spin triplet state. Based on this observation, we map the two-electron singlet-triplet crossover by resonant spectroscopy. By measuring the resonator only, we observe Pauli spin blockade known from transport experiments at finite source-drain bias and detect an unconventional spin blockade triggered by the absorption of resonator photons.

Published
2018
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7. Microwave photon-mediated interactions between semiconductor qubits

Author

van Woerkom, David J., Scarlino, Pasquale, Ungerer, Jann H., Müller, Clemens, Koski, Jonne V., Landig, Andreas J., Reichl, Christian, Wegscheider, Werner, Ihn, Thomas, Ensslin, Klaus, and Wallraff, Andreas

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Applied Physics
Abstract

The realization of a coherent interface between distant charge or spin qubits in semiconductor quantum dots is an open challenge for quantum information processing. Here we demonstrate both resonant and non-resonant photon-mediated coherent interactions between double quantum dot charge qubits separated by several tens of micrometers. We present clear spectroscopic evidence of the collective enhancement of the resonant coupling of two qubits. With both qubits detuned from the resonator we observe exchange coupling between the qubits mediated by virtual photons. In both instances pronounced bright and dark states governed by the symmetry of the qubit-field interaction are found. Our observations are in excellent quantitative agreement with master-equation simulations. The extracted two-qubit coupling strengths significantly exceed the linewidths of the combined resonator-qubit system. This indicates that this approach is viable for creating photon-mediated two-qubit gates in quantum dot based systems., Comment: 14 pages, 10 figures and 6 tables

Published
2018
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8. Coherent microwave photon mediated coupling between a semiconductor and a superconductor qubit

Author

Scarlino, P., van Woerkom, D. J., Mendes, U. C., Koski, J. V., Landig, A. J., Andersen, C. K., Gasparinetti, S., Reichl, C., Wegscheider, W., Ensslin, K., Ihn, T., Blais, A., and Wallraff, A.

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

Semiconductor qubits rely on the control of charge and spin degrees of freedom of electrons or holes confined in quantum dots (QDs). They constitute a promising approach to quantum information processing [1, 2], complementary to superconducting qubits [3]. Typically, semiconductor qubit-qubit coupling is short range [1, 2, 4, 5], effectively limiting qubit distance to the spatial extent of the wavefunction of the confined particle, which represents a significant constraint towards scaling to reach dense 1D or 2D arrays of QD qubits. Following the success of circuit quantum eletrodynamics [6], the strong coupling regime between the charge [7, 8] and spin [9, 10, 11] degrees of freedom of electrons confined in semiconducting QDs interacting with individual photons stored in a microwave resonator has recently been achieved. In this letter, we demonstrate coherent coupling between a superconducting transmon qubit and a semiconductor double quantum dot (DQD) charge qubit mediated by virtual microwave photon excitations in a tunable high-impedance SQUID array resonator acting as a quantum bus [12, 13, 14]. The transmon-charge qubit coherent coupling rate ($ \sim$ 21 MHz) exceeds the linewidth of both the transmon ($ \sim$ 0.8 MHz) and the DQD charge ($ \sim$ 3 MHz) qubit. By tuning the qubits into resonance for a controlled amount of time, we observe coherent oscillations between the constituents of this hybrid quantum system. These results enable a new class of experiments exploring the use of the two-qubit interactions mediated by microwave photons to create entangled states between semiconductor and superconducting qubits. The methods and techniques presented here are transferable to QD devices based on other material systems and can be beneficial for spin-based hybrid systems., Comment: 9 pages, 6 figures

Published
2018
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9. Floquet spectroscopy of a strongly driven quantum dot charge qubit with a microwave resonator

Author

Koski, J. V., Landig, A. J., Pályi, A., Scarlino, P., Reichl, C., Wegscheider, W., Burkard, G., Wallraff, A., Ensslin, K., and Ihn, T.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We experimentally investigate a strongly driven GaAs double quantum dot charge qubit weakly coupled to a superconducting microwave resonator. The Floquet states emerging from strong driving are probed by tracing the qubit - resonator resonance condition. This way we probe the resonance of a qubit that is driven in an adiabatic, a non-adiabatic, or an intermediate rate showing distinct quantum features of multi-photon processes and Landau-Zener-St\"uckelberg interference pattern. Our resonant detection scheme enables the investigation of novel features when the drive frequency is comparable to the resonator frequency. Models based on adiabatic approximation, rotating wave approximation, and Floquet theory explain our experimental observations., Comment: 5 pages, 4 figures

Published
2018
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10. Coherent spin-qubit photon coupling

Author

Landig, A. J., Koski, J. V., Scarlino, P., Mendes, U. C., Blais, A., Reichl, C., Wegscheider, W., Wallraff, A., Ensslin, K., and Ihn, T.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Electron spins hold great promise for quantum computation due to their long coherence times. An approach to realize interactions between distant spin-qubits is to use photons as carriers of quantum information. We demonstrate strong coupling between single microwave photons in a NbTiN high impedance cavity and a three-electron spin-qubit in a GaAs triple quantum dot. We resolve the vacuum Rabi mode splitting with a coupling strength of $g/2\pi\simeq31$ MHz and a qubit decoherence of $\gamma_2/2\pi\simeq 20$ MHz. We can tune the decoherence electrostatically and obtain a minimal $\gamma_2/2\pi\simeq 10$ MHz for $g/2\pi\simeq 23$ MHz. The dependence of the qubit-photon coupling strength on the tunable electric dipole moment of the qubit is measured directly using the ac Stark effect. Our demonstration of strong spin-photon interaction is an important step towards coherent long-distance coupling of spin-qubits.

Published
2017
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15. In situ Tuning of the Electric-Dipole Strength of a Double-Dot Charge Qubit: Charge-Noise Protection and Ultrastrong Coupling

Author

Scarlino, P., primary, Ungerer, J. H., additional, van Woerkom, D. J., additional, Mancini, M., additional, Stano, P., additional, Müller, C., additional, Landig, A. J., additional, Koski, J. V., additional, Reichl, C., additional, Wegscheider, W., additional, Ihn, T., additional, Ensslin, K., additional, and Wallraff, A., additional

Published
2022
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16. The Kaye Effect

Author

Binder, J. M. and Landig, A. J.

Abstract

The International Young Physicists' Tournament (IYPT) is a worldwide, annual competition for secondary school students. This is our solution to problem number 10, "The Kaye effect", as presented in the final round of the 21st IYPT in Trogir, Croatia. The Kaye effect occurs when a thin stream of shampoo or a different adequate non-Newtonian liquid is poured onto a surface. Suddenly, a jet leaves the heap that is formed by the shampoo and begins to "dance" around the primary jet like a lasso. The phenomenon ends when the "dancing" jet hits the primary jet and subsequently collapses. We started our investigations based on available literature (Kaye 1963 "Nature" 197 1001, Versluis "et al" 2006 "J. Stat. Mech.", Collyer and Fischer 1976 "Nature" 261 682). We made experiments with a similar experimental set-up in which we could determine the velocities of both shampoo streams as well as the angle of the "dancing" stream. From there on, we developed a theoretical model for the energy loss of the jet in the heap. We discovered that the air layer between the jet and the heap is a necessity for the Kaye effect to occur. At this point, our observations differ from the aforementioned literature. This also accounts for the shampoo beam acting as a light guide. Further experiments concerning the viscoelasticity of the shampoo revealed that the elastic property of the shampoo is necessary for the effect to occur. (Contains 2 footnotes and 18 figures.)

Published
2009
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17. Strong photon coupling to the quadrupole moment of an electron in a solid-state qubit

Author

Koski, J., V, Landig, A. J., Russ, M., Abadillo-Uriel, J. C., Scarlino, P., Kratochwil, B., Reichl, C., Wegscheider, W., Burkard, Guido, Friesen, Mark, Coppersmith, S. N., Wallraff, A., Ensslin, K., Ihn, T., Koski, J., V, Landig, A. J., Russ, M., Abadillo-Uriel, J. C., Scarlino, P., Kratochwil, B., Reichl, C., Wegscheider, W., Burkard, Guido, Friesen, Mark, Coppersmith, S. N., Wallraff, A., Ensslin, K., and Ihn, T.

Published
2020

18. Charge qubit in a triple quantum dot with tunable coherence

Author

Kratochwil, B., primary, Koski, J. V., additional, Landig, A. J., additional, Scarlino, P., additional, Abadillo-Uriel, J. C., additional, Reichl, C., additional, Coppersmith, S. N., additional, Wegscheider, W., additional, Friesen, Mark, additional, Wallraff, A., additional, Ihn, T., additional, and Ensslin, K., additional

Published
2021
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20. Aspects of Intelligence in Gifted Preschoolers

Author

Landig, Hans-J and Naumann, Theodor F.

Abstract

Stanford-Binet results of 36 gifted children of preschool age were classified into categories according to J. Guilford's Structure-of-Intellect (SI) model. (Author)

Published
1978

21. Microwave Photon-Mediated Interactions between Semiconductor Qubits

Author

van Woerkom, D. J., primary, Scarlino, P., additional, Ungerer, J. H., additional, Müller, C., additional, Koski, J. V., additional, Landig, A. J., additional, Reichl, C., additional, Wegscheider, W., additional, Ihn, T., additional, Ensslin, K., additional, and Wallraff, A., additional

Published
2018
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23. Aspects of Intelligence in Gifted Preschoolers.

Author

Landig, Hans-J. and Naumann, Theodor F.

Abstract

Stanford-Binet results for 36 gifted children of preschool age were classified into categories according to Guilford's Structure-of-Intellect(SI)model. Four of five operations categories were considered and the levels ofrelative magnitude between the different factors compared. Also examined were changes within the same factor over a two year span. Greatest variability b etween SIfactors occurred at younger age groups. Three factors showed a relative decline over the two year test span despite steady Stanford-Binet IQ levels. [ABSTRACT FROM PUBLISHER]

Published
1978
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