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Your search keyword '"Nojiri, Yuki"' showing total 16 results
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16 results on '"Nojiri, Yuki"'

1. Onset of transmon ionization in microwave single-photon detection

Author

Nojiri, Yuki, Honasoge, Kedar E., Marx, Achim, Fedorov, Kirill G., and Gross, Rudolf

Subjects
Quantum Physics
Abstract

By strongly driving a transmon-resonator system, the transmon qubit may eventually escape from its cosine-shaped potential. This process is called transmon ionization (TI) and known to be detrimental to the qubit coherence and operation. In this work, we investigate the onset of TI in an irreversible, parametrically-driven, frequency conversion process in a system consisting of a superconducting 3D-cavity coupled to a fixed-frequency transmon qubit. Above a critical pump power we find a sudden increase in the transmon population. Using Renyi entropy, Floquet modes, and Husimi Q functions, we infer that this abrupt change can be attributed to a quantum-to-classical phase transition. Furthermore, in the context of the single-photon detection, we measure a TI-uncorrected detection efficiency of up to 86% and estimate a TI-corrected value of up to 78% by exploiting the irreversible frequency conversion. Our numerical simulations suggest that increasing the detuning between the pump and qubit frequencies and increasing the qubit anharmonicity can suppress the TI impact. Our findings highlight the general importance of the TI process when operating coupled qubit-cavity systems.

Published
2024

2. Quantum behavior of a superconducting Duffing oscillator at the dissipative phase transition

Author

Chen, Qi-Ming, Fischer, Michael, Nojiri, Yuki, Renger, Michael, Xie, Edwar, Partanen, Matti, Pogorzalek, Stefan, Fedorov, Kirill G., Marx, Achim, Deppe, Frank, and Gross, Rudolf

Subjects
Quantum Physics, Condensed Matter - Superconductivity
Abstract

Understanding the non-deterministic behavior of deterministic nonlinear systems has been an implicit dream since Lorenz named it the "butterfly effect". A prominent example is the hysteresis and bistability of the Duffing oscillator, which in the classical description is attributed to the coexistence of two steady states in a double-well potential. However, this interpretation fails in the quantum-mechanical perspective, where a single unique steady state is allowed in the whole parameter space. Here, we measure the non-equilibrium dynamics of a superconducting Duffing oscillator and reconcile the classical and quantum descriptions in a unified picture of quantum metastability. We demonstrate that the two classically regarded steady states are in fact metastable states. They have a remarkably long lifetime in the classical hysteresis regime but must eventually relax into a single unique steady state allowed by quantum mechanics. By engineering the lifetime of the metastable states sufficiently large, we observe a first-order dissipative phase transition, which mimics a sudden change of the mean field in a 11-site Bose-Hubbard lattice. We also reveal the two distinct phases of the transition by quantum state tomography, namely a coherent-state phase and a squeezed-state phase separated by a critical point. Our results reveal a smooth quantum state evolution behind a sudden dissipative phase transition, and they form an essential step towards understanding hysteresis and instability in non-equilibrium systems.

Published
2022
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3. Perspectives of microwave quantum key distribution in open-air

Author

Fesquet, Florian, Kronowetter, Fabian, Renger, Michael, Chen, Qiming, Honasoge, Kedar, Gargiulo, Oscar, Nojiri, Yuki, Marx, Achim, Deppe, Frank, Gross, Rudolf, and Fedorov, Kirill G.

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

One of the cornerstones of quantum communication is the unconditionally secure distribution of classical keys between remote parties. This key feature of quantum technology is based on the quantum properties of propagating electromagnetic waves, such as entanglement, or the no-cloning theorem. However, these quantum resources are known to be susceptible to noise and losses, which are omnipresent in open-air communication scenarios. In this work, we theoretically investigate the perspectives of continuous-variable open-air quantum key distribution at microwave frequencies. In particular, we present a model describing the coupling of propagating microwaves with a noisy environment. Using a protocol based on displaced squeezed states, we demonstrate that continuous-variable quantum key distribution with propagating microwaves can be unconditionally secure at room temperature up to distances of around 200 meters. Moreover, we show that microwaves can potentially outperform conventional quantum key distribution at telecom wavelength at imperfect weather conditions., Comment: 13 pages, 6 figures

Published
2022
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4. The scattering coefficients of superconducting microwave resonators: II. System-bath approach

Author

Chen, Qi-Ming, Partanen, Matti, Fesquet, Florian, Honasoge, Kedar E., Kronowetter, Fabian, Nojiri, Yuki, Renger, Michael, Fedorov, Kirill G., Marx, Achim, Deppe, Frank, and Gross, Rudolf

Subjects
Quantum Physics, Condensed Matter - Superconductivity
Abstract

We describe a unified quantum approach for analyzing the scattering coefficients of superconducting microwave resonators with a variety of geometries. We also generalize the method to a chain of resonators with time delays, and reveal several transport properties similar to a photonic crystal. It is shown that both the quantum and classical analyses provide consistent results, and they together reveal different decay and decoherence mechanisms in a general microwave resonator. These results form a solid basis for understanding the scattering spectrums of networks of microwave resonators, and pave the way for applying superconducting microwave resonators in complex circuits.

Published
2021
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5. The scattering coefficients of superconducting microwave resonators: I. Transfer-matrix approach

Author

Chen, Qi-Ming, Pfeiffer, Meike, Partanen, Matti, Fesquet, Florian, Honasoge, Kedar E., Kronowetter, Fabian, Nojiri, Yuki, Renger, Michael, Fedorov, Kirill G., Marx, Achim, Deppe, Frank, and Gross, Rudolf

Subjects
Quantum Physics, Condensed Matter - Superconductivity
Abstract

We describe a unified classical approach for analyzing the scattering coefficients of superconducting microwave resonators with a variety of geometries. To fill the gap between experiment and theory, we also consider the influences of small circuit asymmetry and the finite length of the feedlines, and describe a procedure to correct them in typical measurement results. We show that, similar to the transmission coefficient of a hanger-type resonator, the reflection coefficient of a necklace- or bridge-type resonator does also contain a reference point which can be used to characterize the electrical properties of a microwave resonator in a single step. Our results provide a comprehensive understanding of superconducting microwave resonators from the design concepts to the characterization details.

Published
2021
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7. Tuning and Amplifying the Interactions in Superconducting Quantum Circuits with Subradiant Qubits

Author

Chen, Qi-Ming, Fesquet, Florian, Honasoge, Kedar E., Kronowetter, Fabian, Nojiri, Yuki, Renger, Michael, Fedorov, Kirill G., Marx, Achim, Deppe, Frank, and Gross, Rudolf

Subjects
Quantum Physics
Abstract

We propose a tunable coupler consisting of N fixed-frequency qubits, which can tune and even amplify the effective interaction between two superconducting quantum circuits. The tuning range of the interaction is proportional to N, with a minimum value of zero and a maximum that can exceed the physical coupling rates between the coupler and the circuits. The effective coupling rate is determined by the collective magnetic quantum number of the qubit ensemble, which takes only discrete values and is free from collective decay and decoherence. Using single-photon pi-pulses, the coupling rate can be switched between arbitrary choices of the initial and final values within the dynamic range in a single step without going through intermediate values. A cascade of the couplers for amplifying small interactions or weak signals is also discussed. These results should not only stimulate interest in exploring the collective effects in quantum information processing, but also enable development of applications in tuning and amplifying the interactions in a general cavity-QED system.

Published
2021
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8. Quantum Fourier Transform in Oscillating Modes

Author

Chen, Qi-Ming, Deppe, Frank, Wu, Re-Bing, Sun, Luyan, Liu, Yu-xi, Nojiri, Yuki, Pogorzalek, Stefan, Renger, Michael, Partanen, Matti, Fedorov, Kirill G., Marx, Achim, and Gross, Rudolf

Subjects
Quantum Physics
Abstract

Quantum Fourier transform (QFT) is a key ingredient of many quantum algorithms where a considerable amount of ancilla qubits and gates are often needed to form a Hilbert space large enough for high-precision results. Qubit recycling reduces the number of ancilla qubits to one but imposes the requirement of repeated measurements and feedforward within the coherence time of the qubits. Moreover, recycling only applies to certain cases where QFT can be carried out in a semi-classical way. Here, we report a novel approach based on two harmonic resonators which form a high-dimensional Hilbert space for the realization of QFT. By employing the all-resonant and perfect state-transfer methods, we develop a protocol that transfers an unknown multi-qubit state to one resonator. QFT is performed by the free evolution of the two resonators with a cross-Kerr interaction. Then, the fully-quantum result can be localized in the second resonator by a projective measurement. Qualitative analysis shows that a 2^10-dimensional QFT can be realized in current superconducting quantum circuits which paves the way for implementing various quantum algorithms in the noisy intermediate-scale quantum (NISQ) era.

Published
2019

13. Experimental quantum teleportation of propagating microwaves

Author

Fedorov, Kirill G., primary, Renger, Michael, additional, Pogorzalek, Stefan, additional, Di Candia, Roberto, additional, Chen, Qiming, additional, Nojiri, Yuki, additional, Inomata, Kunihiro, additional, Nakamura, Yasunobu, additional, Partanen, Matti, additional, Marx, Achim, additional, Gross, Rudolf, additional, and Deppe, Frank, additional

Published
2021
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16. Nd3+-doped perovskite nanosheets with NIR luminescence.

Author

Funatsu, Asami, Taniguchi, Takaaki, Tokita, Yousuke, Murakami, Tomoaki, Nojiri, Yuki, and Matsumoto, Yasumichi

Subjects
*NEODYMIUM compounds, *DOPING agents (Chemistry), *PEROVSKITE, *LUMINESCENCE spectroscopy, *MICROFABRICATION, *NANOELECTROMECHANICAL systems
Abstract

Abstract: Exfoliation of layered materials into ultrathin nanosheets introduces a new cost-effective and environmentally safe fabrication method for novel nanostructured devices. In the present study, we have developed for the first time inorganic oxide nanosheets with near-infrared (NIR) luminescence properties. KLa1−x Nd x Nb2O7 (x=0.025, 0.05, 0.1, 0.2, or 0.3) powders obtained by a solid state reaction were exfoliated into single-layer metal oxide nanosheets with approximately 1.7nm thickness by osmotic swelling with tetrabutylammonium cations, followed by the protonation of KLa1−x Nd x Nb2O7. We observed strong coupling of high-energy OH vibration with the Nd3+ energy levels upon protonation and exfoliation steps because of the extremely thin nature of oxide nanosheet-layers. Colloidal oxide nanosheets with an optimized Nd-doping concentration yielded detectable NIR luminescence due to 4F3/2–4I11/2 (Nd3+) radiative transitions, which opens possible application of these oxide nanosheets as bioimaging probes and bioanalytical sensors. [Copyright &y& Elsevier]

Published
2014
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