Search Results - "Zikiy, E."

High-Q trenched aluminum coplanar resonators with an ultrasonic edge microcutting for superconducting quantum devices by Zikiy, E. V., Ivanov, A. I., Smirnov, N. S., Moskalev, D. O., Polozov, V. I., Matanin, A. R., Malevannaya, E. I., Echeistov, V. V., Konstantinova, T. G., Rodionov, I. A.

“…Dielectric losses are one of the key factors limiting the coherence of superconducting qubits. The impact of materials and fabrication steps on dielectric…”
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Deep multilevel wet etching of fused silica glass microstructures in BOE solution by Konstantinova, T. G., Andronic, M. M., Baklykov, D. A., Stukalova, V. E., Ezenkova, D. A., Zikiy, E. V., Bashinova, M. V., Solovev, A. A., Lotkov, E. S., Ryzhikov, I. A., Rodionov, I. A.

“…Fused silica glass is a material of choice for micromechanical, microfluidic, and optical devices due to its chemical resistance, optical, electrical, and…”
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Broadband SNAIL parametric amplifier with microstrip impedance transformer by Ezenkova, D., Moskalev, D., Smirnov, N., Ivanov, A., Matanin, A., Polozov, V., Echeistov, V., Malevannaya, E., Samoylov, A., Zikiy, E., Rodionov, I.

“…Josephson parametric amplifiers are an important part of a modern superconducting quantum computing platform and squeezed quantum states generation devices…”
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Towards highly efficient broadband superconducting quantum memory by Matanin, A. R, Gerasimov, K. I, Moiseev, E. S, Smirnov, N. S, Ivanov, A. I, Malevannaya, E. I, Polozov, V. I, Zikiy, E. V, Samoilov, A. A, Rodionov, I. A, Moiseev, S. A

“…Phys. Rev. Applied 19, 034011 2023 Microwave quantum memory promises advanced capabilities for noisy intermediate-scale superconducting quantum computers…”
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Improving Josephson junction reproducibility for superconducting quantum circuits: shadow evaporation and oxidation by Moskalev, D. O, Zikiy, E. V, Pishchimova, A. A, Ezenkova, D. A, Smirnov, N. S, Ivanov, A. I, Korshakov, N. D, Rodionov, I. A

“…The most commonly used physical realization of superconducting qubits for quantum circuits is a transmon. There are a number of superconducting quantum…”
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Broadband SNAIL parametric amplifier with microstrip impedance transformer by Ezenkova, D, Moskalev, D, Smirnov, N, Ivanov, A, Matanin, A, Polozov, V, Echeistov, V, Malevannaya, E, Samoilov, A, Zikiy, E, Rodionov, I

“…Josephson parametric amplifiers have emerged as a promising platform for quantum information processing and squeezed quantum states generation. Travelling wave…”
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Improving Josephson junction reproducibility for superconducting quantum circuits: junction area fluctuation by Pishchimova, A. A, Smirnov, N. S, Ezenkova, D. A, Krivko, E. A, Zikiy, E. V, Moskalev, D. O, Ivanov, A. I, Korshakov, N. D, Rodionov, I. A

“…Josephson superconducting qubits and parametric amplifiers are prominent examples of superconducting quantum circuits that have shown rapid progress in recent…”
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Angstrom-scale ion-beam engineering of ultrathin buried oxides for quantum and neuro-inspired computing by Smirnov, N, Krivko, E, Moskaleva, D, Moskalev, D, Solovieva, A, Echeistov, V, Zikiy, E, Korshakov, N, Ivanov, A, Malevannaya, E, Matanin, A, Polozov, V, Teleganov, M, Zhitkov, N, Romashkin, R, Korobenko, I, Yanilkin, A, Lebedev, A, Ryzhikov, I, Andriyash, A, Rodionov, I

“…Multilayer nanoscale systems incorporating buried ultrathin tunnel oxides, 2D materials, and solid electrolytes are crucial for next-generation logics, memory,…”
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High-Q trenched aluminum coplanar resonators with an ultrasonic edge microcutting for superconducting quantum devices by Zikiy, E. V, Ivanov, A. I, Smirnov, N. S, Moskalev, D. O, Polozov, V. I, Matanin, A. R, Malevannaya, E. I, Echeistov, V. V, Konstantinova, T. G, Rodionov, I. A

“…Dielectric losses are one of the key factors limiting the coherence of superconducting qubits. The impact of materials and fabrication steps on dielectric…”
Get full text

Deep multilevel wet etching of fused silica glass microstructures in BOE solution by Konstantinova, T. G, Andronic, M. M, Baklykov, D. A, Stukalova, V. E, Ezenkova, D. A, Zikiy, E. V, Bashinova, M. V, Solovev, A. A, Lotkov, E. S, Ryzhikov, I. A, Rodionov, I. A

“…Fused silica glass is a material of choice for micromechanical, microfluidic, and optical devices due to its ultimate chemical resistance, optical, electrical,…”
Get full text