Your search keyword '"Meeson PJ"' showing total 5 results

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

Author

Burnett J, Faoro L, Wisby I, Gurtovoi VL, Chernykh AV, Mikhailov GM, Tulin VA, Shaikhaidarov R, Antonov V, Meeson PJ, Tzalenchuk AY, and Lindström T

Abstract

The performance of a great variety of electronic devices--ranging from semiconductor transistors to superconducting qubits--is hampered by low-frequency noise with spectra proportional to 1/f. The ubiquity and negative impact of 1/f noise has motivated intensive research into its cause, and it is now believed to originate from a bath of fluctuating two-level defect states (TLSs) embedded in the material. This phenomenon is commonly described by the long-established standard tunnelling model (STM) of independent TLS. A key prediction of STM is that the noise should vanish at low temperatures. Here we report measurements on superconducting microresonators over previously unattainable, very long time scales that show an increase in 1/f noise at low temperatures and low microwave power, contrary to the STM. We propose a new generalised tunnelling model that includes significant interaction between multiple TLSs, which fully describes these observations, as well as recent studies of individual TLS lifetimes in superconducting qubits.

Published

2014

2. Note: cryogenic coaxial microwave filters.

Author

Tancredi G, Schmidlin S, and Meeson PJ

Abstract

The careful filtering of microwave electromagnetic radiation is critical for controlling the electromagnetic environment for experiments in solid-state quantum information processing and quantum metrology at millikelvin temperatures. We describe the design and fabrication of a coaxial filter assembly and demonstrate that its performance is in excellent agreement with theoretical modelling. We further perform an indicative test of the operation of the filters by making current-voltage measurements of small, underdamped Josephson junctions at 15 mK.

Published

2014

3. Determination of the Fermi surface of MgB2 by the de Haas-van Alphen effect.

Author

Carrington A, Meeson PJ, Cooper JR, Balicas L, Hussey NE, Yelland EA, Lee S, Yamamoto A, Tajima S, Kazakov SM, and Karpinski J

Abstract

We report measurements of the de Haas-van Alphen (dHvA) effect for single crystals of MgB2, in magnetic fields up to 32 T. In contrast to our earlier work, dHvA orbits from all four sheets of the Fermi surface were detected. Our results are in good overall agreement with calculations of the electronic structure and the electron-phonon mass enhancements of the various orbits, but there are some small quantitative discrepancies. In particular, systematic differences in the relative volumes of the Fermi-surface sheets and the magnitudes of the electron-phonon coupling constants could be large enough to affect detailed calculations of T(c) and other superconducting properties.

Published

2003

4. Heavy quasiparticles in the ferromagnetic superconductor ZrZn2.

Author

Yates SJ, Santi G, Hayden SM, Meeson PJ, and Dugdale SB

Abstract

We report a study of the de Haas-van Alphen effect in the normal state of the ferromagnetic superconductor ZrZn2. Our results are generally consistent with a linear muffin-tin orbital band structure which predicts four exchange-split Fermi surface sheets. Quasiparticle effective masses are enhanced by a factor of 4.9 implying a strong coupling to magnetic excitations or phonons. ZrZn2 is unique among metallic ferromagnets in that it has a very large density of states in the ferromagnetic phase.

Published

2003

5. de Haas-van Alphen effect in single crystal MgB2.

Author

Yelland EA, Cooper JR, Carrington A, Hussey NE, Meeson PJ, Lee S, Yamamoto A, and Tajima S

Abstract

We report observations of quantum oscillations in single crystals of the high temperature superconductor MgB2. Three de Haas-van Alphen frequencies are clearly resolved. Comparison with band structure calculations strongly suggests that two of these come from a single warped Fermi surface tube along the c direction, and that the third arises from cylindrical sections of an in-plane honeycomb network. The measured values of the effective mass range from (0.44-0.68)m(e). By comparing these to calculated band masses, we find that the electron-phonon coupling strength lambda is a factor of approximately 3 larger for the c-axis tube orbits than for the in-plane network orbit, in accord with recent microscopic calculations.

Published

2002