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105 results on '"Tzalenchuk, A. Ya."'

1. Quantum bath suppression in a superconducting circuit by immersion cooling

Author

Lucas, M., Danilov, A. V., Levitin, L. V., Jayaraman, A., Casey, A. J., Faoro, L., Tzalenchuk, A. Ya., Kubatkin, S. E., Saunders, J., and de Graaf, S. E.

Subjects
Quantum Physics, Condensed Matter - Materials Science
Abstract

Quantum circuits interact with the environment via several temperature-dependent degrees of freedom. Yet, multiple experiments to-date have shown that most properties of superconducting devices appear to plateau out at $T\approx 50$ mK -- far above the refrigerator base temperature. This is for example reflected in the thermal state population of qubits, in excess numbers of quasiparticles, and polarisation of surface spins -- factors contributing to reduced coherence. We demonstrate how to remove this thermal constraint by operating a circuit immersed in liquid $^3$He. This allows to efficiently cool the decohering environment of a superconducting resonator, and we see a continuous change in measured physical quantities down to previously unexplored sub-mK temperatures. The $^3$He acts as a heat sink which increases the energy relaxation rate of the quantum bath coupled to the circuit a thousand times, yet the suppressed bath does not introduce additional circuit losses or noise. Such quantum bath suppression can reduce decoherence in quantum circuits and opens a route for both thermal and coherence management in quantum processors.

Published
2022
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2. Two-level systems in superconducting quantum devices due to trapped quasiparticles

Author

de Graaf, S. E., Faoro, L., Ioffe, L. B., Mahashabde, S., Burnett, J. J., Lindström, T., Kubatkin, S. E., Danilov, A. V., and Tzalenchuk, A. Ya.

Subjects
Condensed Matter - Superconductivity, Quantum Physics
Abstract

A major issue for the implementation of large scale superconducting quantum circuits is the interaction with interfacial two-level system defects (TLS) that leads to qubit relaxation and impedes qubit operation in certain frequency ranges that also drift in time. Another major challenge comes from non-equilibrium quasiparticles (QPs) that result in qubit dephasing and relaxation. In this work we show that such QPs can also serve as a source of TLS. Using spectral and temporal mapping of TLS-induced fluctuations in frequency tunable resonators, we identify a subset of the general TLS population that are highly coherent TLS with a low reconfiguration temperature $\sim$ 300 mK, and a non-uniform density of states. These properties can be understood if these TLS are formed by QPs trapped in shallow subgap states formed by spatial fluctutations of the superconducting order parameter $\Delta$. Magnetic field measurements of one such TLS reveals a link to superconductivity. Our results imply that trapped QPs can induce qubit relaxation., Comment: 7 pages, 4 figures, plus 18 pages, 13 figures supplemental

Published
2020
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3. Suppression of 1/f noise in solid state quantum devices by surface spin desorption

Author

de Graaf, S. E., Faoro, L., Burnett, J., Adamyan, A. A., Tzalenchuk, A. Ya., Kubatkin, S. E., Lindström, T., and Danilov, A. V.

Subjects
Condensed Matter - Materials Science, Quantum Physics
Abstract

Noise and decoherence due to spurious two-level systems (TLS) located at material interfaces is a long-standing issue in solid state quantum technologies. Efforts to mitigate the effects of TLS have been hampered by a lack of surface analysis tools sensitive enough to identify their chemical and physical nature. Here we measure the dielectric loss, frequency noise and electron spin resonance (ESR) spectrum in superconducting resonators and demonstrate that desorption of surface spins is accompanied by an almost tenfold reduction in the frequency noise. We provide experimental evidence that simultaneously reveals the chemical signatures of adsorbed magnetic moments and demonstrates their coupling via the electric-field degree of freedom to the resonator, causing dielectric (charge) noise in solid state quantum devices., Comment: 13 pages, 11 figures

Published
2017
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4. Direct identification of dilute surface spins on Al$_2$O$_3$: Origin of flux noise in quantum circuits

Author

de Graaf, S. E., Adamyan, A. A., Lindström, T., Erts, D., Kubatkin, S. E., Tzalenchuk, A. Ya., and Danilov, A. V.

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

It is universally accepted that noise and decoherence affecting the performance of superconducting quantum circuits are consistent with the presence of spurious two-level systems (TLS). In recent years bulk defects have been generally ruled out as the dominant source, and the search has focused on surfaces and interfaces. Despite a wide range of theoretical models and experimental efforts, the origin of these surface TLS still remains largely unknown, making further mitigation of TLS induced decoherence extremely challenging. Here we use a recently developed on-chip electron spin resonance (ESR) technique that allows us to detect spins with a very low surface coverage. We combine this technique with various surface treatments specifically to reveal the nature of native surface spins on Al$_2$O$_3$ -- the mainstay of almost all solid state quantum devices. On a large number of samples we resolve three ESR peaks with the measured total paramagnetic spin density $n=2.2\times 10^{17}$m$^{-2}$, which matches the density inferred from the flux noise in SQUIDs. We show that two of these peaks originate from physisorbed atomic hydrogen which appears on the surface as a by-product of water dissociation. We suggest that the third peak is due to molecular oxygen on the Al$_2$O$_3$ surface captured at strong Lewis base defect sites, producing charged O$_2^-$. These results provide important information towards the origin of charge and flux noise in quantum circuits. Our findings open up a whole new approach to identification and controlled reduction of paramagnetic sources of noise in solid state quantum devices., Comment: 6 pages, 2 figures (supplementary material 6 pages, 6 figures)

Published
2016
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5. Angular dependent micro-ESR characterization of a locally doped Gd3+:Al2O3 system

Author

Wisby, I. S., de Graaf, S. E., Gwilliam, R., Adamyan, A., Kubatkin, S. E., Meeson, P. J., Tzalenchuk, A. Ya., and Lindström, T.

Subjects
Quantum Physics, Condensed Matter - Materials Science, Condensed Matter - Superconductivity
Abstract

Interfacing rare-earth doped crystals with superconducting circuit architectures provides an attractive platform for quantum memory and transducer devices. Here we present the detailed characterization of such a hybrid system: a locally implanted rare-earth Gd$^{3+}$ in Al$_2$O$_3$ spin system coupled to a superconducting micro-resonator. We investigate the properties of the implanted spin system through angular dependent micro-resonator electron spin resonance (micro-ESR) spectroscopy. We find, despite the high energy near-surface implantation, the resulting micro-ESR spectra to be in excellent agreement with the modelled Hamiltonian, supporting the integration of dopant ions into their relevant lattice sites whilst maintaining crystalline symmetries. Furthermore, we observe clear contributions from individual microwave field components of our micro-resonator, emphasising the need for controllable local implantation., Comment: 6 pages, 3 figures

Published
2015
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6. Coupling of a locally implanted rare-earth ion ensemble to a superconducting micro-resonator

Author

Wisby, I., de Graaf, S. E., Gwilliam, R., Adamyan, A., Kubatkin, S., Meeson, P. J., Tzalenchuk, A. Ya., and Lindström, T.

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

We demonstrate the coupling of rare-earth ions locally implanted in a substrate (Gd$^{3+}$ in Al$_{2}$O$_{3}$) to a superconducting NbN lumped-element micro-resonator. The hybrid device is fabricated by a controlled ion implantation of rare-earth ions in well-defined micron-sized areas, aligned to lithographically defined micro-resonators. The technique does not degrade the internal quality factor of the resonators which remain above $10^{5}$. Using microwave absorption spectroscopy we observe electron-spin resonances in good agreement with numerical modelling and extract corresponding coupling rates of the order of $1$ MHz and spin linewidths of $50 - 65$ MHz., Comment: 4 pages, 2 Figures

Published
2014
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7. Quantum Hall Effect and Quantum Point Contact in Bilayer-Patched Epitaxial Graphene

Author

Chua, C. J., Connolly, M. R., Lartsev, A., Yager, T., Lara-Avila, S., Kubatkin, S., Kopylov, S., Fal'ko, V. I., Yakimova, R., Pearce, R., Janssen, T. J. B. M., Tzalenchuk, A. Ya., and Smith, C. G.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study an epitaxial graphene monolayer with bilayer inclusions via magnetotransport measurements and scanning gate microscopy at low temperatures. We find that bilayer inclusions can be metallic or insulating depending on the initial and gated carrier density. The metallic bilayers act as equipotential shorts for edge currents, while closely spaced insulating bilayers guide the flow of electrons in the monolayer constriction, which was locally gated using a scanning gate probe., Comment: 5 pages, 5 figures

Published
2014
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8. Evidence for interacting two-level systems from the 1/f noise of a superconducting resonator

Author

Burnett, J., Faoro, L., Wisby, I., Gurtovoi, V. L., Chernykh, A. V., Mikhailov, G. M., Tulin, V. A., Shaikhaidarov, R., Antonov, V., Meeson, P. J., Tzalenchuk, A. Ya., and Lindstrom, T.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Here we find the increase in 1/f noise of superconducting resonators at low temperatures to be completely incompatible with the standard tunneling model (STM) of Two Level Systems (TLS), which has been used to describe low-frequency noise for over three decades. We revise the STM to include a significant TLS - TLS interaction. The new model is able to explain the temperature and power dependence of noise in our measurements, as well as recent studies of individual TLS lifetimes using superconducting qubits. The measurements were made possible by implementing an ultra-stable frequency-tracking technique used in atomic clocks and by producing a superconducting resonator insensitive to temperature fluctuations. The latter required an epitaxially grown Nb film with a Pt capping layer to minimize detrimental oxides at all interfaces., Comment: 7 pages, 3 figures

Published
2013
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9. Slow noise processes in superconducting resonators

Author

Burnett, Jonathan, Lindström, Tobias, Oxborrow, Mark, Harada, Yuichi, Sekine, Yoshiaki, Meeson, Phil, and Tzalenchuk, Alexander Ya.

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

Slow noise processes, with characteristic timescales ~1s, have been studied in planar superconducting resonators. A frequency locked loop is employed to track deviations of the resonator centre frequency with high precision and bandwidth. Comparative measurements are made in varying microwave drive, temperature and between bare resonators and those with an additional dielectric layer. All resonators are found to exhibit flicker frequency noise which increases with decreasing microwave drive. We also show that an increase in temperature results in a saturation of flicker noise in resonators with an additional dielectric layer, while bare resonators stop exhibiting flicker noise instead showing a random frequency walk process., Comment: 4 pages, 2 figures, version 4 http://prb.aps.org/abstract/PRB/v87/i14/e140501

Published
2012
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10. Pound-locking for characterization of superconducting microresonators

Author

Lindström, Tobias, Burnett, Jonathan, Oxborrow, Mark, and Tzalenchuk, Alexander Ya.

Subjects
Physics - Instrumentation and Detectors
Abstract

We present a new application and implementation of the so-called Pound locking technique for the interrogation of superconducting microresonators. We discuss how by comparing against stable frequency sources this technique can be used to characterize properties of resonators that can not be accessed using traditional methods. Specifically, by analyzing the noise spectra and the Allan deviation we obtain valuable information about the nature of the noise in superconducting planar resonators. This technique also greatly improves the read-out accuracy and measurement throughput compared to conventional methods., Comment: 5 pages

Published
2011
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11. On the properties of superconducting planar resonators at mK temperatures

Author

Lindstrom, T., Healey, J. E., Colclough, M. S., Muirhead, C. M., and Tzalenchuk, A. Ya.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science
Abstract

Planar superconducting resonators are now being increasingly used at mK temperatures in a number of novel applications. They are also interesting devices in their own right since they allow us to probe the properties of both the superconductor and its environment. We have experimentally investigated three types of niobium resonators - including a lumped element design - fabricated on sapphire and SiO_2/Si substrates. They all exhibit a non-trivial temperature dependence of their centre frequency and quality factor. Our results shed new light on the interaction between the electromagnetic waves in the resonator and two-level fluctuators in the substrate., Comment: V2 includes some minor corrections/changes. Submitted to PRB

Published
2009
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12. Magnetic field tuning of coplanar waveguide resonators

Author

Healey, J. E., Lindstrom, T., Colclough, M. S., Muirhead, C. M., and Tzalenchuk, A. Ya

Subjects
Condensed Matter - Superconductivity
Abstract

We describe measurements on microwave coplanar resonators designed for quantum bit experiments. Resonators have been patterned onto sapphire and silicon substrates, and quality factors in excess of a million have been observed. The resonant frequency shows a high sensitivity to magnetic field applied perpendicular to the plane of the film, with a quadratic dependence for the fundamental, second and third harmonics. Frequency shift of hundreds of linewidths can be obtained., Comment: Accepted for publication in APL

Published
2008
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13. Circuit QED with a Flux Qubit Strongly Coupled to a Coplanar Transmission Line Resonator

Author

Lindstrom, T., Webster, C. H., Tzalenchuk, A. Ya., Healey, J. E., Colclough, M. S., and Muirhead, C. M.

Subjects
Condensed Matter - Superconductivity
Abstract

We propose a scheme for circuit quantum electrodynamics with a superconducting flux-qubit coupled to a high-Q coplanar resonator. Assuming realistic circuit parameters we predict that it is possible to reach the strong coupling regime. Routes to metrological applications, such as single photon generation and quantum non-demolition measurements are discussed., Comment: 8 pages, 5 figures

Published
2007
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14. Influence of thermal coupling on spin avalanches in Mn12-acetate

Author

Webster, C. H., Kazakova, O., Gallop, J. C., Josephs-Franks, P. W., Hernandez-Minguez, A., and Tzalenchuk, A. Ya.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

The effect of thermal coupling on spin avalanches in Mn12-acetate has been probed using a single crystal assembly. Time-resolved, synchronized measurements of magnetization and temperature are reported. Unusually low avalanche trigger fields occur when thermal coupling to the bath is weak. A temperature rise observed at zero magnetic field is attributed to a change in magnetostatic energy., Comment: 5 pages, 3 figures; v2 shortened for publication

Published
2006
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15. Degenerate ground state and anomalous flux hysteresis in an YBa2Cu3O7 grain boundary r.f. SQUID

Author

Gardiner, C. H., Lee, R. A. M., Gallop, J. C., Tzalenchuk, A. Ya., Macfarlane, J. C., and Hao, L.

Subjects
Condensed Matter - Superconductivity
Abstract

We report measurements of the flux hysteresis curves and trapped flux distribution in an YBa2Cu3O7 r.f. SQUID containing two closely spaced grain boundary Josephson junctions in parallel. Broadening of the flux distribution from T = 15 K to 30 K is followed by a bifurcation at T = 35 K which corresponds to a degenerate ground state. Above T ~ 40 K the bifurcation disappears, the flux distribution narrows significantly and small secondary loops appear in the hysteresis curves. This behaviour can be modelled qualitatively if we assume a temperature dependent second harmonic term in the current-phase relationship of the junctions., Comment: 10 pages, 7 figures

Published
2004
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16. Silent Phase Qubit Based on d-Wave Josephson Junctions

Author

Amin, M. H. S., Smirnov, A. Yu., Zagoskin, A. M., Lindstrom, T., Charlebois, S., Claeson, T., and Tzalenchuk, A. Ya.

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

We report on design and fabrication of a new type of flux qubit that capitalizes on intrinsic properties of submicron YBCO grain boundary junctions. The operating point is protected from the fluctuations of the external fields, already on the classical level; the effects of external perturbations are absent, to the second or third order, depending on the character of the coupling. We propose an experiment to observe quantum tunneling and Rabi oscillations in the qubit. Estimate of the decoherence due to fluctuations of the external flux is presented., Comment: 3 pages, 3 figures

Published
2003
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17. Dynamical effects of an unconventional current-phase relation in YBCO dc-SQUIDs

Author

Lindstrom, T., Charlebois, S. A., Tzalenchuk, A. Ya., Ivanov, Z., Amin, M. H. S., and Zagoskin, A. M.

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

The predominant d-wave pairing symmetry in high temperature superconductors allows for a variety of current-phase relations in Josephson junctions, which is to a certain degree fabrication controlled. In this letter we report on direct experimental observations of the effects of a non-sinusoidal current-phase dependence in YBCO dc-SQUIDs, which agree with the theoretical description of the system., Comment: 4 pages, 4 ps figures, to apprear in Phys. Rev. Lett

Published
2003
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19. Quantum bath suppression in a superconducting circuit by immersion cooling

Author

Lucas, M., Danilov, A. V., Levitin, L. V., Jayaraman, A., Casey, A. J., Faoro, L., Tzalenchuk, A. Ya., Kubatkin, S. E., Saunders, J., and de Graaf, S. E.

Subjects
Quantum Physics, Condensed Matter - Materials Science, Atom and Molecular Physics and Optics, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, Quantum Physics (quant-ph), Theoretical Chemistry, Condensed Matter Physics
Abstract

Quantum circuits interact with the environment via several temperature-dependent degrees of freedom. Yet, multiple experiments to-date have shown that most properties of superconducting devices appear to plateau out at $T\approx 50$ mK -- far above the refrigerator base temperature. This is for example reflected in the thermal state population of qubits, in excess numbers of quasiparticles, and polarisation of surface spins -- factors contributing to reduced coherence. We demonstrate how to remove this thermal constraint by operating a circuit immersed in liquid $^3$He. This allows to efficiently cool the decohering environment of a superconducting resonator, and we see a continuous change in measured physical quantities down to previously unexplored sub-mK temperatures. The $^3$He acts as a heat sink which increases the energy relaxation rate of the quantum bath coupled to the circuit a thousand times, yet the suppressed bath does not introduce additional circuit losses or noise. Such quantum bath suppression can reduce decoherence in quantum circuits and opens a route for both thermal and coherence management in quantum processors.

Published
2023

22. Feasibility studies of ultra-small Josephson junctions for qubits

Author

Tzalenchuk, Alexander Ya., Lindstrom, Tobias, Charlebois, Serge A., Stepantsov, Evgueni A., Zagoskin, Alexandre M., Ivanov, Zdravko, and Claeson, Tord

Subjects
Superconductive devices -- Research, Quantum electronics -- Research, Josephson junction -- Research, Business, Electronics, Electronics and electrical industries
Abstract

A technique is described for using bicrystal technology to produce high-quality sub-micrometer junctions.

Published
2003

23. Transport properties of submicron YBa2Cu3O7-dstep-edge Jospehson junctions

Author

Larsson, Peter, Tzalenchuk, Alexander Ya., and Ivanov, Zdravko, G.

Subjects
Magnetism -- Research, Thin films -- Research, Physics
Abstract

Research on step-edge Josephson junctions in thin films, and their transport properties is examined in detail. The films' microstructure and transport are correlated.

Published
2001

25. A variable temperature scanning SQUID microscope

Author

Tzalenchuk, Alexander Ya., Ivanov, Zdravko G., Pehrson, Staffan, and Claeson, Tord

Subjects
Measuring microscopes -- Design and construction, Superconducting quantum interference devices -- Design and construction, Business, Electronics, Electronics and electrical industries
Abstract

The design of a scanning superconducting quantum interference device (SQUID) microscope, which permits the investigation of magnetic related phenomena in a wide temperature range, is discussed. The scanning SQUID microscope worked in a temperature range of 5-100 K. For the accurate determination of vertical displacement of the cantilever, a simple capacitive sensor was used. The submicron SQUID sensors developed revealed good reproducibility but a thorough investigation of their noise properties is needed.

Published
1999

28. YBa2Cu3Ox DC-SQUIDs on Y-ZrO2 Bicrystals

Author

Ivanov, Z. G., primary, Nilsson, P. A., additional, Winkler, D., additional, Brorsson, G., additional, Claeson, T., additional, Stepantsov, E. A., additional, and Tzalenchuk, A. Ya., additional

Published
1992
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30. A high T[subscript c] SQUID-based magnetophysiology system

Author

Magnelind, P.E., Ivanov, Z., Tarte, E.J., Tzalenchuk, A. Ya., and Lohmus, A.

Subjects
Superconductive devices -- Research, Biomagnetism -- Research, Diagnostic equipment (Medical) -- Research, Business, Electronics, Electronics and electrical industries
Abstract

A SQUID-based magnetophysiology system is reported.

Published
2003

32. Charge quantum interference device

Author

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

Published
2018
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34. Transport properties of submicron YBa[sub 2]Cu[sub 3]O[sub 7-δ] step-edge Josephson junctions.

Author

Larsson, Peter, Tzalenchuk, Alexander Ya., and Ivanov, Zdravko G.

Subjects
*JOSEPHSON junctions, *SEMICONDUCTOR films, *THIN films
Abstract

Submicron step-edge Josephson junctions in YBa[sub 2]Cu[sub 3]O[sub 7-δ] (YBCO) thin films were fabricated and studied. All measured junctions fall into three categories: low critical current resistively shunted Josephson junctions, intrinsic Josephson junctions, and quasiparticle tunnel junctions. The transport in the junctions is correlated with the microstructure of YBCO films grown on the step edge. We argue that the properties of conventional step-edge junctions can be understood as a superposition of those types. © 2001 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published
2001
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37. Bicrystal junctions and superconducting quantum interference devices in YBa2Cu3O7 thin films.

Author

Nilsson, P. Å., Ivanov, Z. G., Olsson, H. K., Winkler, D., Claeson, T., Stepantsov, E. A., and Tzalenchuk, A. Ya.

Subjects
JOSEPHSON junctions, SUPERCONDUCTING quantum interference devices, THIN films
Abstract

Presents a study which investigated the formation of Josephson junctions and superconducting quantum interference devices by deposition of thin films of YBa[sub2]Cu[sub3]O[sub7]. Details on the experiment; Critical current density of a junction; Information on the voltage modulation and noise properties of SQUID.

Published
1994
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39. Transport properties of Tl2Ba2CaCu2O8 weak links on LaAlO3 bicrystal substrates.

Author

Chen, Y. F., Ivanov, Z. G., Stepantsov, E. A., Tzalenchuk, A. Ya., Zarembinski, S., Claeson, T., and Johansson, L.-G.

Subjects
JOSEPHSON junctions, SUPERCONDUCTING quantum interference devices, CRYSTALS
Abstract

Discusses results obtained on TI-2212 Josephson junctions and direct current superconducting quantum interference devices on LaAlO[sub3] bicrystal substrates. Role of the grain boundaries in high-T[subc] superconductors in the formation of Josephson junctions; Description of the temperature dependence of the normalized critical current for the three junctions; Characteristics of a TI-2212 bicrystal junction.

Published
1996
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44. Submicron YBa2Cu3Ox ramp Josephsson junctions

Author

Komissinski, Philippe V., Högberg, Björn, Tzalenchuk, Alexander Ya, Ivanov, Zdravko, Komissinski, Philippe V., Högberg, Björn, Tzalenchuk, Alexander Ya, and Ivanov, Zdravko

Abstract

Submicron YBa2Cu3Ox /PrBa2Cu2.6Ga0.4Ox /YBa2Cu3Ox ramp-type Josephson junctions were fabricated and tested. The submicron bridges in the top electrode were patterned by e-beam lithography and Ar ion milling through an amorphous carbon (a-C) mask. Junctions with width ranging from 0.2 to 8 mm and oriented along different crystal directions of YBa2Cu3Ox have been produced. Current–voltage characteristics show a behavior consistent with the resistively shuntedjunction model with small excess current. Junction critical current densities of about 10 kA/cm2 and characteristic voltages up to 6 mV were measured at 4.2 K for the submicron junctions. Junctions along different crystal orientations showed different characteristics suggesting an influence from the d-wave order parameter.

Published
2002
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