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89 results on '"Levitin, L. V."'

1. QUEST-DMC: Background Modelling and Resulting Heat Deposit for a Superfluid Helium-3 Bolometer

Author

Autti, S., Casey, A., Eng, N., Darvishi, N., Franchini, P., Haley, R. P., Heikkinen, P. J., Kemp, A., Leason, E., Levitin, L. V., Monroe, J., March-Russel, J., Noble, M. T., Prance, J. R., Rojas, X., Salmon, T., Saunders, J., Smith, R., Thompson, M. D., Tsepelin, V., West, S. M., Whitehead, L., Zhang, K., and Zmeev, D. E.

Subjects
Condensed Matter - Other Condensed Matter, Physics - Instrumentation and Detectors
Abstract

We report the results of radioactivity assays and heat leak calculations for a range of common cryogenic materials, considered for use in the QUEST-DMC superfluid 3He dark matter detector. The bolometer, instrumented with nanomechanical resonators, will be sensitive to energy deposits from dark matter interactions. Events from radioactive decays and cosmic rays constitute a significant background and must be precisely modelled, using a combination of material screening and Monte Carlo simulations. However, the results presented here are of wider interest for experiments and quantum devices sensitive to minute heat leaks and spurious events, thus we present heat leak per unit mass or surface area for every material studied. This can inform material choices for other experiments, especially if underground operation is considered where the radiogenic backgrounds will dominate even at shallow depths.

Published
2024
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2. QUEST-DMC superfluid $^3$He detector for sub-GeV dark matter

Author

Autti, S., Casey, A., Eng, N., Darvishi, N., Franchini, P., Haley, R. P., Heikkinen, P. J., Jennings, A., Kemp, A., Leason, E., Levitin, L. V., Monroe, J., March-Russel, J., Noble, M. T., Prance, J. R., Rojas, X., Salmon, T., Saunders, J., Smith, R., Thompson, M. D., Tsepelin, V., West, S. M., Whitehead, L., Zavjalov, V. V., and Zmeev, D. E.

Subjects
High Energy Physics - Experiment, Astrophysics - Cosmology and Nongalactic Astrophysics, Condensed Matter - Other Condensed Matter, High Energy Physics - Phenomenology
Abstract

The focus of dark matter searches to date has been on Weakly Interacting Massive Particles (WIMPs) in the GeV/$c^2$-TeV/$c^2$ mass range. The direct, indirect and collider searches in this mass range have been extensive but ultimately unsuccessful, providing a strong motivation for widening the search outside this range. Here we describe a new concept for a dark matter experiment, employing superfluid $^3$He as a detector for dark matter that is close to the mass of the proton, of order 1 GeV/$c^2$. The QUEST-DMC detector concept is based on quasiparticle detection in a bolometer cell by a nanomechanical resonator. In this paper we develop the energy measurement methodology and detector response model, simulate candidate dark matter signals and expected background interactions, and calculate the sensitivity of such a detector. We project that such a detector can reach sub-eV nuclear recoil energy threshold, opening up new windows on the parameter space of both spin-dependent and spin-independent interactions of light dark matter candidates., Comment: 17 pages, 8 figures, 2 tables. Published in EPJ-C

Published
2023
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3. 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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4. Electro-nuclear transition into a spatially modulated magnetic state in YbRh$_2$Si$_2$

Author

Knapp, J., Levitin, L. V., Nyéki, J., Ho, A. F., Cowan, B., Saunders, J., Brando, M., Geibel, C., Kliemt, K., and Krellner, C.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The nature of the antiferromagnetic order in the heavy fermion metal YbRh$_2$Si$_2$, its quantum criticality, and superconductivity, which appears at low mK temperatures, remain open questions. We report measurements of the heat capacity over the wide temperature range 180 $\mu$K - 80 mK, using current sensing noise thermometry. In zero magnetic field we observe a remarkably sharp heat capacity anomaly at 1.5 mK, which we identify as an electro-nuclear transition into a state with spatially modulated electronic magnetic order of maximum amplitude 0.1$\mu_B$. We also report results of measurements in magnetic fields in the range 0 to 70 mT, applied perpendicular to the c-axis, which show eventual suppression of this order. These results demonstrate a coexistence of a large moment antiferromagnet with putative superconductivity., Comment: 12 pages, 14 figures, including the supplementary information

Published
2022
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5. QUEST-DMC superfluid 3He detector for sub-GeV dark matter

Author

Autti, S., Casey, A., Eng, N., Darvishi, N., Franchini, P., Haley, R. P., Heikkinen, P. J., Jennings, A., Kemp, A., Leason, E., Levitin, L. V., Monroe, J., March-Russel, J., Noble, M. T., Prance, J. R., Rojas, X., Salmon, T., Saunders, J., Smith, R., Thompson, M. D., Tsepelin, V., West, S. M., Whitehead, L., Zavjalov, V. V., and Zmeev, D. E.

Published
2024
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6. Fragility of surface states in topological superfluid $^3$He

Author

Heikkinen, P. J., Casey, A., Levitin, L. V., Rojas, X., Vorontsov, A., Sharma, P., Zhelev, N., Parpia, J. M., and Saunders, J.

Subjects
Condensed Matter - Superconductivity
Abstract

Topological superfluid $^3$He, with unconventional spin-triplet p-wave pairing, provides a model system for topological superconductors, which have attracted significant interest through potential applications in topologically protected quantum computing. In topological insulators and quantum Hall systems, the surface/edge states, arising from bulk-surface correspondence and the momentum space topology of the band structure, are robust. Here we demonstrate that in topological superconductors the surface Andreev bound states, which depend on the momentum space topology of the emergent order parameter, are fragile with respect to the details of surface scattering. We confine superfluid $^3$He within a cavity of height comparable to the Cooper pair diameter. We precisely determine the superfluid transition temperature $T_{\mathrm{c}}$ and the suppression of the superfluid energy gap, for different scattering conditions tuned in situ, and compare to the predictions of quasi-classical theory. We discover that surface magnetic scattering leads to unexpectedly large suppression of $T_{\mathrm{c}}$, corresponding to an increased density of low energy bound states., Comment: Main text: 10 pages + 4 figures; Supplementary information: 33 pages, 14 figures

Published
2019
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7. Fabrication of micro fluidic cavities using Si-to-glass anodic bonding

Author

Zhelev, N., Abhilash, T. S., Bennett, R. G., Smith, E. N., Ilic, B., Parpia, J. M., Levitin, L. V., Rojas, X., Casey, A., and Saunders, J.

Subjects
Physics - Applied Physics, Condensed Matter - Other Condensed Matter
Abstract

We demonstrate the fabrication of $\sim$1.08 $\mu$m deep microfluidic cavities with characteristic size as large as 7 mm $\times$ 11 mm or 11 mm diameter, using a silicon$-$glass anodic bonding technique that does not require posts to act as separators to define cavity height. Since the phase diagram of $^3$He is significantly altered under confinement, posts might act as pinning centers for phase boundaries. The previous generation of cavities relied on full wafer-bonding which is more prone to failure and requires dicing post-bonding, whereas the these cavities are made by bonding a pre-cut piece of Hoya SD-2 glass to a patterned piece of silicon in which the cavity is defined by etching. Anodic bonding was carried out at 425 $^{\circ}$C with 200 V, and we observe that pressurizing the cavity to failure ($>$ 30 bar pressure) results in glass breaking, rather than the glass-silicon bond separation. In this article, we discuss the detailed fabrication of the cavity, its edges, and details of the junction between the coin silver fill line and the silicon base of the cavity that enables a low internal-friction joint. This feature is important for mass coupling torsional oscillator experimental assays of the superfluid inertial contribution where a high quality factor ($Q$) improves frequency resolution. The surface preparation that yields well-characterized smooth surfaces to eliminate pinning sites, the use of transparent glass as a cover permitting optical access, low temperature capability and attachment of pressure-capable ports for fluid access may be features that are important in other applications., Comment: 10 figures

Published
2018
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8. QUEST-DMC: Background Modelling and Resulting Heat Deposit for a Superfluid Helium-3 Bolometer

Author

Autti, S., primary, Casey, A., additional, Eng, N., additional, Darvishi, N., additional, Franchini, P., additional, Haley, R. P., additional, Heikkinen, P. J., additional, Kemp, A., additional, Leason, E., additional, Levitin, L. V., additional, Monroe, J., additional, March-Russel, J., additional, Noble, M. T., additional, Prance, J. R., additional, Rojas, X., additional, Salmon, T., additional, Saunders, J., additional, Smith, R., additional, Thompson, M. D., additional, Tsepelin, V., additional, West, S. M., additional, Whitehead, L., additional, Zhang, K., additional, and Zmeev, D. E., additional

Published
2024
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9. The A-B transition in superfluid 3He under confinement in a thin slab geometry

Author

Zhelev, N., Abhilash, T. S., Smith, E. N., Bennett, R. G., Rojas, X., Levitin, L. V., Saunders, J., and Parpia, J. M.

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

The influence of confinement on the topological phases of superfluid 3He is studied using the torsional pendulum method. We focus on the phase transition between the chiral A-phase and the time-reversal-invariant B-phase, motivated by the prediction of a spatiallymodulated (stripe) phase at the A-B phase boundary. We confine superfluid 3He to a single 1.08 {\mu}m thick nanofluidic cavity incorporated into a high-precision torsion pendulum, and map the phase diagram between 0.1 and 5.6 bar. We observe only small supercooling of the A-phase, in comparison to bulk or when confined in aerogel. This has a non-monotonic pressure dependence, suggesting that a new intrinsic B-phase nucleation mechanism operates under confinement, mediated by the putative stripe phase. Both the phase diagram and the relative superfluid fraction of the A and B phases, show that strong coupling is present at all pressures, with implications for the stability of the stripe phase., Comment: 6 figures, 1 table + supplemental information

Published
2016
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11. A nuclear magnetic resonance spectrometer for operation around 1 MHz with a sub 10 mK noise temperature based on a two stage dc SQUID

Author

Levitin, L. V., Bennett, R. G., Casey, A., Cowan, B. P., Lusher, C. P., Saunders, J., Drung, D., and Schurig, Th.

Subjects
Condensed Matter - Superconductivity
Abstract

We have developed a nuclear magnetic resonance spectrometer with a series tuned input circuit for measurements on samples at millikelvin temperatures based on an integrated two-stage superconducting quantum interference device current sensor, with an energy sensitivty e = 26 +/-1 h when operated at 1.4K. To maximise the sensitivity both the NMR pickup coil and tuning capacitor need to be cooled, and the tank circuit parameters should be chosen to equalise the contributions from circulating current noise and voltage noise in the SQUID. A noise temperature TN = 7 +/-2 mK was measured, at a frequency of 0.884 MHz, with the circuit parameters close to optimum., Comment: 3 pages, 3 figures. The following article has been submitted to Applied Physics Letters. After it is published it will be found at http://apl.aip.org/ Typos corrected, an additional reference included

Published
2007
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12. Longitudinal NMR and Spin States in the A-like Phase of 3He in Aerogel

Author

Dmitriev, V. V., Levitin, L. V., Mulders, N., and Zmeev, D. E.

Subjects
Condensed Matter - Other Condensed Matter, Condensed Matter - Disordered Systems and Neural Networks
Abstract

It was found that two different spin states of the A-like phase can be obtained in aerogel sample. In one of these states we have observed the signal of the longitudinal NMR, while in another state no trace of such a signal was found. The states also have different properties in transverse NMR experiments. Longitudinal NMR signal was also observed in the B-like phase of 3He in aerogel., Comment: 8 pages, 7 figures

Published
2006
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16. 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

19. Microstructuring YbRh₂Si₂ for resistance and noise measurements down to ultra-low temperatures

Author

Steppke, A., Hamann, S., König, M., Mackenzie, A. P., Kliemt, K., Krellner, C., Kopp, M., Lonsky, M., Müller, J., Levitin, L. V., Saunders, J., Brando, M., Steppke, A., Hamann, S., König, M., Mackenzie, A. P., Kliemt, K., Krellner, C., Kopp, M., Lonsky, M., Müller, J., Levitin, L. V., Saunders, J., and Brando, M.

Abstract

The discovery of superconductivity in the quantum critical Kondo-lattice system YbRh₂Si₂ at an extremely low temperature of 2 mK has inspired efforts to perform high-resolution electrical resistivity measurements down to this temperature range in highly conductive materials. Here we show that control over the sample geometry by microstructuring using focused-ion-beam techniques allows to reach ultra-low temperatures and increase signal-to-noise ratios (SNRs) tenfold, without adverse effects to sample quality. In five experiments we show four-terminal sensing resistance and magnetoresistance measurements which exhibit sharp phase transitions at the Néel temperature, and Shubnikov–de-Haas (SdH) oscillations between 13 T and 18 T where we identified a new SdH frequency of 0.39 kT. The increased SNR allowed resistance fluctuation (noise) spectroscopy that would not be possible for bulk crystals, and confirmed intrinsic 1/ f -type fluctuations. Under controlled strain, two thin microstructured samples exhibited a large increase of T̀N from 67 mK up to 188 mK while still showing clear signatures of the phase transition and SdH oscillations. Superconducting quantum interference device-based thermal noise spectroscopy measurements in a nuclear demagnetization refrigerator down to 0.95 mK, show a sharp superconducting transition at T̀c = 1.2 mK. These experiments demonstrate microstructuring as a powerful tool to investigate the resistance and the noise spectrum of highly conductive correlated metals over wide temperature ranges.

Published
2022

32. New Evaluation of $$T-T_{2000}$$ T - T 2000 from 0.02 K to 1 K by Independent Thermodynamic Methods

Author

Engert, J., primary, Kirste, A., additional, Shibahara, A., additional, Casey, A., additional, Levitin, L. V., additional, Saunders, J., additional, Hahtela, O., additional, Kemppinen, A., additional, Mykkänen, E., additional, Prunnila, M., additional, Gunnarsson, D., additional, Roschier, L., additional, Meschke, M., additional, and Pekola, J., additional

Published
2016
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34. Scaling results for superfluid He-3 in 98% open aerogel

Author

Parpia, J. M., Fefferman, A. D., Porto, J. V., Dmitriev, V. V., Levitin, L. V., Zmeev, D. E., Parpia, J. M., Fefferman, A. D., Porto, J. V., Dmitriev, V. V., Levitin, L. V., and Zmeev, D. E.

Abstract

We present experimental observations of the suppressed superfluid transition temperature, T-ca, superfluid fraction, rho(s)/rho and Leggett frequency of He-3-B in aerogel, Omega(Ba). We determine T-ca from mass decoupling and the vanishing of the frequency shift away from the Larmor frequency in our different samples and different laboratories. We find that the suppressed transition temperature for He-3 in aerogel occurs at a sample dependent, but approximately pressure independent, length, X = xi(0)(P)/root 1 - T-ca/T-c,T- where T-c and xi(0)(P), are the transition temperature and the pressure dependent zero temperature coherence length for bulk He-3. T-ca also occurs at a pressure independent value of the Leggett frequency of bulk He-3-B. Further, we find that when the superfluid fraction and square of the Leggett frequency are plotted against T-ca - T (and not (T-ca - T)/T-ca), the results of each measurement nearly collapse on to a pressure independent but sample dependent plot, with no further scaling. When plotted on a log-log scale, both measurements exhibit power laws in the range 1.33-1.45.

Published
2008

36. Longitudinal NMR and spin states in the A-like phase of He-3 in aerogel

Author

Dmitriev, V. V., Levitin, L. V., Mulders, N., Zmeev, D. E., Dmitriev, V. V., Levitin, L. V., Mulders, N., and Zmeev, D. E.

Abstract

It was found that two different spin states of the A-like phase can be obtained in an aerogel sample. In one of these states, we have observed the signal of the longitudinal NMR, while, in the other state, no trace of such a signal was found. The states also have different properties in transverse NMR experiments. A longitudinal NMR signal was also observed in the B-like phase of He-3 in aerogel.

Published
2006

37. Anodically bonded submicron microfluidic chambers

Author

Dimov, S., primary, Bennett, R. G., additional, Córcoles, A., additional, Levitin, L. V., additional, Ilic, B., additional, Verbridge, S. S., additional, Saunders, J., additional, Casey, A., additional, and Parpia, J. M., additional

Published
2010
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40. Decoupling of Confined Normal 3He

Author

Dimov, S. G., primary, Bennett, R. G., additional, Ilic, B., additional, Verbridge, S. S., additional, Levitin, L. V., additional, Fefferman, A. D., additional, Casey, A., additional, Saunders, J., additional, and Parpia, J. M., additional

Published
2009
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46. Longitudinal NMR and spin states in the A-like phase of 3He in aerogel.

Author

Dmitriev, V. V., Levitin, L. V., Mulders, N., and Zmeev, D. E.

Subjects
*AEROGELS, *NUCLEAR magnetic resonance, *MAGNETIC fields, *SUPERFLUIDITY, *SILICATE fibers, *RADIO frequency, *MAGNETIC spectrometer, *HIGH spin physics
Abstract

It was found that two different spin states of the A-like phase can be obtained in an aerogel sample. In one of these states, we have observed the signal of the longitudinal NMR, while, in the other state, no trace of such a signal was found. The states also have different properties in transverse NMR experiments. A longitudinal NMR signal was also observed in the B-like phase of 3He in aerogel. [ABSTRACT FROM AUTHOR]

Published
2006
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47. A nuclear magnetic resonance spectrometer for operation around 1 MHz with a sub-10-mK noise temperature, based on a two-stage dc superconducting quantum interference device sensor.

Author

Levitin, L. V., Bennett, R. G., Casey, A., Cowan, B. P., Lusher, C. P., Saunders, J., Drung, D., and Schurig, Th.

Subjects
MAGNETIC resonance, SPECTROMETERS, SUPERCONDUCTORS, RESONANCE, RADIO frequency
Abstract

We have developed a nuclear magnetic resonance spectrometer with a series tuned input circuit for measurements on samples at millikelvin temperatures based on an integrated two-stage superconducting quantum interference device current sensor, with an energy sensitivity [variant_greek_epsilon]=26±1h when operated at 1.4 K. To maximize the sensitivity, both the nuclear magnetic resonance spectrometer pickup coil and tuning capacitor need to be cooled, and the tank circuit parameters should be chosen to equalize the contributions from circulating current noise and voltage noise in the superconducting quantum interference device. A noise temperature TN=7±2 mK was measured, at a frequency of 0.884 MHz, with the circuit parameters close to optimum. [ABSTRACT FROM AUTHOR]

Published
2007
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48. Primary current-sensing noise thermometry in the millikelvin regime.

Author

Shibahara A, Hahtela O, Engert J, van der Vliet H, Levitin LV, Casey A, Lusher CP, Saunders J, Drung D, and Schurig T

Abstract

The use of low-temperature platforms with base temperatures below 1 K is rapidly expanding, for fundamental science, sensitive instrumentation and new technologies of potentially significant commercial impact. Precise measurement of the thermodynamic temperature of these low-temperature platforms is crucial for their operation. In this paper, we describe a practical and user-friendly primary current-sensing noise thermometer (CSNT) for reliable and traceable thermometry and the dissemination of the new kelvin in this temperature regime. Design considerations of the thermometer are discussed, including the optimization of a thermometer for the temperature range to be measured, noise sources and thermalization. We show the procedure taken to make the thermometer primary and contributions to the uncertainty budget. With standard laboratory instrumentation, a relative uncertainty of 1.53% is obtainable. Initial comparison measurements between a primary CSNT and a superconducting reference device traceable to the PLTS-2000 (Provisional Low Temperature Scale of 2000) are presented between 66 and 208 mK, showing good agreement within the k=1 calculated uncertainty., (© 2016 The Author(s).)

Published
2016
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49. [The epidemiology and structure of alcoholic psychoses].

Author

Levitin LV, Ezarielev GI, and Levitin AN

Subjects
Acute Disease, Adult, Chronic Disease, Delirium, Female, Hallucinations, Humans, Male, Middle Aged, Paranoid Disorders, Recurrence, Psychoses, Alcoholic epidemiology
Published
1971

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