Arbeitsgruppe Supraleitende Quantenschaltkreise

Ausgewählte Veröffentlichungen


[1]

Rabi oscillations in a superconducting nanowire circuit

Y. Schön, J. N. Voss, M. Wildermuth, A. Schneider, . T. Skacel, M. P. Weides, J. H. Cole, H. Rotzinger, A. V. Ustinov

npj Quantum Mater. 5 (2020) 18

 

[2]

Current-Resistance Effects Inducing Nonlinear Fluctuation Mechanisms in Granular Aluminum Oxide Nanowires

C. Barone, H. Rotzinger, J. N. Voss, C. Mauro, Y. Schön, A. V. Ustinov, S. Pagano

Nanomaterials 10 (2020) 524

 

[3]

Circuit Quantum Electrodynamics of Granular Aluminum Resonators

N. Maleeva, L. Grünhaupt, T. Klein, F. Levy-Bertrand, O. Dupre, M. Calvo, F. Valenti, P. Winkel, F. Friedrich, W. Wernsdorfer, A. V. Ustinov, H. Rotzinger, A. Monfardini, M. V. Fistul, I. M. Pop

Nat. Commun. 9 (2018) 3889

 

[4]

Electric field spectroscopy of material defects in transmon qubits

J. Lisenfeld, A. Bilmes, A. Megrant, R. Barends, J. Kelly, P. Klimov, G. Weiss, J. M. Martinis, A. V. Ustinov

npj Quantum Inf. 5 (2019) 105

 

[5]

Transmon qubit in a magnetic field: Evolution of coherence and transition frequency

A. Schneider, T. Wolz, M. Pfirrmann, M. Spiecker, H. Rotzinger, A. V. Ustinov, M. Weides

Phys. Rev. Res. 1 (2019) 23003

 

[6]

Charge quantum interference device

S. E. de Graaf, S. T. Skacel, T. Hönigl-Decrinis, R. Shaikhaidarov, H. Rotzinger, S. Linzen, M. Ziegler, U. Hübner, H.-G. Meyer, V. Antonov, E. Il'ichev, A. V. Ustinov, A. Ya. Tzalenchuk, O. V. Astafiev

Nat. Phys. 14 (2018) 590

 

[7]

Granular aluminium as a superconducting material for high-impedance quantum circuits

L. Grünhaupt, M. Spiecker, D. Gusenkova, N. Maleeva, S. T. Skacel, I. Takmakov, F. Valenti, P. Winkel, H. Rotzinger, W. Wernsdorfer, A. V. Ustinov, I. M. Pop

Nat. Mater. 18 (2019) 816

 

[8]

Loss Mechanisms and Quasiparticle Dynamics in Superconducting Microwave Resonators Made of Thin-Film Granular Aluminum

L. Grünhaupt, N. Maleeva, S. T. Skacel, M. Calvo, F. Levy-Bertrand, A. V. Ustinov, H. Rotzinger, A. Monfardini, G. Catelani, I. M. Pop

Phys. Rev. Lett. 121 (2018) 117001

 

[9]

Analog quantum simulation of the Rabi model in the ultra-strong coupling regime

J. Braumüller, M. Marthaler, A. Schneider, A. Stehli, H. Rotzinger, M. Weides, A. V. Ustinov

Nat. Commun. 8 (2017) 779

 

[10]

Aluminium-oxide wires for superconducting high kinetic inductance circuits

H. Rotzinger, S. T. Skacel, M. Pfirrmann, J. N. Voss, J. Münzberg, S. Probst, P. Bushev, M. P. Weides, A. V. Ustinov, J. E. Mooij

Supercond. Sci. Technol. 30 (2017) 25002

 

[11]

Superconductor-insulator transition in nanowires and nanowire arrays

J. E. Mooij, G Schön, A. Shnirman, T. Fuse, C. J. P. M. Harmans, H. Rotzinger, A. H. Verbruggen

New J. Phys. 17 (2015) 33006

 

[12]

Anisotropic rare-earth spin ensemble strongly coupled to a superconducting resonator

S. Probst, H. Rotzinger, S. Wünsch, P. Jung, M. Jerger, M. Siegel, A. V. Ustinov, and P. A. Bushev

Phys. Rev. Lett. 110 (2013) 157001

 

[13]

Ultralow-power spectroscopy of a rare-earth spin ensemble using a superconducting resonator

P. Bushev, A. K. Feofanov, H. Rotzinger, I. Protopopov, J. H. Cole, C. M. Wilson, G. Fischer, A. Lukashenko, A. V. Ustinov

Phys. Rev. B 84 (2011) 60501

 

Neueste Veröffentlichungen


Readout error mitigated quantum state tomography tested on superconducting qubits
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2024. Communications Physics, 7 (1), 301. doi:10.1038/s42005-024-01790-8
Giant Two-Level Systems in a Granular Superconductor
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2024. Physical Review Letters, 132 (21), Artkl.Nr.: 217002. doi:10.1103/PhysRevLett.132.217002
Quantum emulation of the transient dynamics in the multistate Landau-Zener model
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Two-level system hyperpolarization using a quantum Szilard engine
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2023. Nature Physics, 19, 1320–1325. doi:10.1038/s41567-023-02082-8
Random telegraph fluctuations in granular microwave resonators
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Coherent Quantum Network of Superconducting Qubits as a Highly Sensitive Detector of Microwave Photons for Searching of Galactic Axions
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2023. IEEE Transactions on Applied Superconductivity, 33 (5), 1–5. doi:10.1109/TASC.2023.3263807
Enhancing the coherence of superconducting quantum bits with electric fields
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Microscopic quantum point contact formation as the electromigration mechanism in granular superconductor nanowires
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2022. New Journal of Physics, 24, Art.-Nr.: 073008. doi:10.1088/1367-2630/ac7a58
Cavity-QED simulation of a quantum metamaterial with tunable disorder
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2022. Physical Review A, 105 (3), Art.-Nr.: 033519. doi:10.1103/PhysRevA.105.033519
Fluxons in high-impedance long Josephson junctions
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2022. Applied Physics Letters, 120 (11), Art.-Nr.: 112601. doi:10.1063/5.0082197
Simulation of the five-qubit quantum error correction code on superconducting qubits
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Probing defect densities at the edges and inside Josephson junctions of superconducting qubits
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Phase-resolved visualization of radio-frequency standing waves in superconducting spiral resonator for metamaterial applications
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2022. Low Temperature Physics, 48 (2), 104–112. doi:10.1063/10.0009288
Frequency fluctuations of ferromagnetic resonances at millikelvin temperatures
Wolz, T.; McLellan, L.; Schneider, A.; Stehli, A.; Brehm, J. D.; Rotzinger, H.; Ustinov, A. V.; Weides, M.
2021. Applied Physics Letters, 119 (21), 212403. doi:10.1063/5.0063668
Tunable coupling scheme for implementing two-qubit gates on fluxonium qubits
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2021. Applied Physics Letters, 119 (19), Art.Nr. 194001. doi:10.1063/5.0064800
In-situ bandaged Josephson junctions for superconducting quantum processors
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2021. Superconductor Science and Technology, 34 (12), Art.Nr. 125011. doi:10.1088/1361-6668/ac2a6d
Tunable Anderson localization of dark states
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2021. Physical Review B, 104 (17), Art.-Nr.: 174202. doi:10.1103/PhysRevB.104.174202
Approaching Deep-Strong On-Chip Photon-To-Magnon Coupling
Golovchanskiy, I. A.; Abramov, N. N.; Stolyarov, V. S.; Golubov, A. A.; Kupriyanov, M. Y.; Ryazanov, V. V.; Ustinov, A. V.
2021. Physical Review Applied, 16 (3), 034029. doi:10.1103/PhysRevApplied.16.034029
Eliminating Quantum Phase Slips in Superconducting Nanowires
Voss, J. N.; Schön, Y.; Wildermuth, M.; Dorer, D.; Cole, J. H.; Rotzinger, H.; Ustinov, A. V.
2021. ACS nano, 15 (3), 4108–4114. doi:10.1021/acsnano.0c08721
Quantum beats of a magnetic fluxon in a two-cell SQUID
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2021. Physical Review B, 103 (22), Art.Nr.: 224528. doi:10.1103/PhysRevB.103.224528
Topological excitations and bound photon pairs in a superconducting quantum metamaterial
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2021. Physical Review B, 103 (22), Art.-Nr.: 224520. doi:10.1103/PhysRevB.103.224520
Ultrastrong photon-To-magnon coupling in multilayered heterostructures involving superconducting coherence via ferromagnetic layers
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2021. Science Advances, 7 (25), Art.-Nr.: eabe8638. doi:10.1126/sciadv.abe8638
Minimizing the Discrimination Time for Quantum States of an Artificial Atom
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2021. Physical review applied, 15 (6), Art. Nr.: 064029. doi:10.1103/PhysRevApplied.15.064029
Quantum Nondemolition Dispersive Readout of a Superconducting Artificial Atom Using Large Photon Numbers
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2021. Physical review applied, 15 (6), Art. Nr.: 064030. doi:10.1103/PhysRevApplied.15.064030
Quantum sensors for microscopic tunneling systems
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2021. npj Quantum information, 7 (1), Art.-Nr.: 27. doi:10.1038/s41534-020-00359-x
Photon Transport in a Bose-Hubbard Chain of Superconducting Artificial Atoms
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2021. Physical Review Letters, 126 (18), Art.-Nr.: 180503. doi:10.1103/PhysRevLett.126.180503
Reducing the impact of radioactivity on quantum circuits in a deep-underground facility
Cardani, L.; Valenti, F.; Casali, N.; Catelani, G.; Charpentier, T.; Clemenza, M.; Colantoni, I.; Cruciani, A.; D’Imperio, G.; Gironi, L.; Grünhaupt, L.; Gusenkova, D.; Henriques, F.; Lagoin, M.; Martinez, M.; Pettinari, G.; Rusconi, C.; Sander, O.; Tomei, C.; Ustinov, A. V.; Weber, M.; Wernsdorfer, W.; Vignati, M.; Pirro, S.; Pop, I. M.
2021. Nature Communications, 12 (1), Art.-Nr.: 2733. doi:10.1038/s41467-021-23032-z
Waveguide bandgap engineering with an array of superconducting qubits
Brehm, J. D.; Poddubny, A. N.; Stehli, A.; Wolz, T.; Rotzinger, H.; Ustinov, A. V.
2021. npj quantum materials, 6 (1), Art. Nr.: 10. doi:10.1038/s41535-021-00310-z
Coherent superconducting qubits from a subtractive junction fabrication process
Stehli, A.; Brehm, J. D.; Wolz, T.; Baity, P.; Danilin, S.; Seferai, V.; Rotzinger, H.; Ustinov, A. V.; Weides, M.
2020. Applied physics letters, 117 (12), Art.-Nr.: 124005. doi:10.1063/5.0023533
Magnetization Dynamics in Proximity-Coupled Superconductor-Ferromagnet-Superconductor Multilayers
Golovchanskiy, I. A.; Abramov, N. N.; Stolyarov, V. S.; Chichkov, V. I.; Silaev, M.; Shchetinin, I. V.; Golubov, A. A.; Ryazanov, V. V.; Ustinov, A. V.; Kupriyanov, M. Y.
2020. Physical review applied, 14 (2), Art.-Nr.: 024086. doi:10.1103/PhysRevApplied.14.024086
Nonlinear spin waves in ferromagnetic/superconductor hybrids
Golovchanskiy, I. A.; Abramov, N. N.; Stolyarov, V. S.; Golubov, A. A.; Ryazanov, V. V.; Ustinov, A. V.
2020. Journal of applied physics, 127 (9), Art. Nr.: 093903. doi:10.1063/1.5141793
Probing the Tavis-Cummings Level Splitting with Intermediate-Scale Superconducting Circuits
Yang, P.; Brehm, J. D.; Leppäkangas, J.; Guo, L.; Marthaler, M.; Boventer, I.; Stehli, A.; Wolz, T.; Ustinov, A. V.; Weides, M.
2020. Physical review applied, 14 (2), Art.Nr. 024025. doi:10.1103/PhysRevApplied.14.024025
Implementation of a Transmon Qubit Using Superconducting Granular Aluminum
Winkel, P.; Borisov, K.; Grünhaupt, L.; Rieger, D.; Spiecker, M.; Valenti, F.; Ustinov, A. V.; Wernsdorfer, W.; Pop, I. M.
2020. Physical review / X, 10 (3), Art.Nr. 031032. doi:10.1103/PhysRevX.10.031032
Amplitude and frequency sensing of microwave fields with a superconducting transmon qudit
Kristen, M.; Schneider, A.; Stehli, A.; Wolz, T.; Danilin, S.; Ku, H. S.; Long, J.; Wu, X.; Lake, R.; Pappas, D. P.; Ustinov, A. V.; Weides, M.
2020. npj Quantum information, 6 (1), 57. doi:10.1038/s41534-020-00287-w
Current-Resistance Effects Inducing Nonlinear Fluctuation Mechanisms in Granular Aluminum Oxide Nanowires
Barone, C.; Rotzinger, H.; Voss, J. N.; Mauro, C.; Schön, Y.; Ustinov, A. V.; Pagano, S.
2020. Nanomaterials, 10 (3), 524. doi:10.3390/nano10030524
Rabi oscillations in a superconducting nanowire circuit
Schön, Y.; Voss, J. N.; Wildermuth, M.; Schneider, A.; Skacel, S. T.; Weides, M. P.; Cole, J. H.; Rotzinger, H.; Ustinov, A. V.
2020. npj quantum materials, 5, Art.-Nr.: 18. doi:10.1038/s41535-020-0220-x
Resolving the positions of defects in superconducting quantum bits
Bilmes, A.; Megrant, A.; Klimov, P.; Weiss, G.; Martinis, J. M.; Ustinov, A. V.; Lisenfeld, J.
2020. Scientific reports, 10 (1), Art. Nr.: 3090. doi:10.1038/s41598-020-59749-y
Nondegenerate Parametric Amplifiers Based on Dispersion-Engineered Josephson-Junction Arrays
Winkel, P.; Takmakov, I.; Rieger, D.; Planat, L.; Hasch-Guichard, W.; Grünhaupt, L.; Maleeva, N.; Foroughi, F.; Henriques, F.; Borisov, K.; Ferrero, J.; Ustinov, A. V.; Wernsdorfer, W.; Roch, N.; Pop, I. M.
2020. Physical review applied, 13 (2), Art. Nr.: 024015. doi:10.1103/PhysRevApplied.13.024015
Introducing coherent time control to cavity magnon-polariton modes
Wolz, T.; Stehli, A.; Schneider, A.; Boventer, I.; Macêdo, R.; Ustinov, A. V.; Kläui, M.; Weides, M.
2020. Communications Physics, 3 (1), Article No.3. doi:10.1038/s42005-019-0266-x
DEMETRA: Suppression of the Relaxation Induced by Radioactivity in Superconducting Qubits
Cardani, L.; Casali, N.; Catelani, G.; Charpentier, T.; Clemenza, M.; Colantoni, I.; Cruciani, A.; Gironi, L.; Gruenhaupt, L.; Gusenkova, D.; Henriques, F.; Lagoin, M.; Martinez, M.; Pirro, S.; Pop, I. M.; Rusconi, C.; Ustinov, A.; Valenti, F.; Vignati, M.; Wernsdorfer, W.
2020. Journal of low temperature physics, 199, 475–481. doi:10.1007/s10909-019-02265-9