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553 results on '"Bulmer, J"'

1. Quantum simulation of thermodynamics in an integrated quantum photonic processor

Author

Somhorst, F. H. B., van der Meer, R., Anguita, M. Correa, Schadow, R., Snijders, H. J., de Goede, M., Kassenberg, B., Venderbosch, P., Taballione, C., Epping, J. P., Vlekkert, H. H. van den, Timmerhuis, J., Bulmer, J. F. F., Lugani, J., Walmsley, I. A., Pinkse, P. W. H., Eisert, J., Walk, N., and Renema, J. J.

Subjects
Quantum Physics, Condensed Matter - Statistical Mechanics, Physics - Optics
Abstract

One of the core questions of quantum physics is how to reconcile the unitary evolution of quantum states, which is information-preserving and time-reversible, with evolution following the second law of thermodynamics, which, in general, is neither. The resolution to this paradox is to recognize that global unitary evolution of a multi-partite quantum state causes the state of local subsystems to evolve towards maximum-entropy states. In this work, we experimentally demonstrate this effect in linear quantum optics by simultaneously showing the convergence of local quantum states to a generalized Gibbs ensemble constituting a maximum-entropy state under precisely controlled conditions, while introducing an efficient certification method to demonstrate that the state retains global purity. Our quantum states are manipulated by a programmable integrated quantum photonic processor, which simulates arbitrary non-interacting Hamiltonians, demonstrating the universality of this phenomenon. Our results show the potential of photonic devices for quantum simulations involving non-Gaussian states., Comment: 9+12 pages, 12 figures, replaced with final version

Published
2021
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3. Drive-noise tolerant optical switching inspired by composite pulses

Author

Bulmer, J. F. F., Jones, J. A., and Walmsley, I. A.

Subjects
Physics - Applied Physics, Physics - Optics, Quantum Physics
Abstract

Electro-optic modulators within Mach--Zehnder interferometers are a common construction for optical switches in integrated photonics. A challenge faced when operating at high switching speeds is that noise from the electronic drive signals will effect switching performance. Inspired by the Mach--Zehnder lattice switching devices of Van Campenhout et al. [Opt. Express, 17, 23793 (2009)] and techniques from the field of Nuclear Magnetic Resonance known as composite pulses, we present switches which offer protection against drive-noise in both the on and off state of the switch for both the phase and intensity information encoded in the switched optical mode., Comment: 8 pages, 4 figures

Published
2020
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4. Tuning between photon-number and quadrature measurements with weak-field homodyne detection

Author

Thekkadath, G. S., Phillips, D. S., Bulmer, J. F. F., Clements, W. R., Eckstein, A., Bell, B. A., Lugani, J., Wolterink, T. A. W., Lita, A., Nam, S. W., Gerrits, T., Wade, C. G., and Walmsley, I. A.

Subjects
Quantum Physics
Abstract

Variable measurement operators enable the optimization of strategies for testing quantum properties and the preparation of a range of quantum states. Here, we experimentally implement a weak-field homodyne detector that can continuously tune between measuring photon numbers and field quadratures. We combine a quantum signal with a coherent state on a balanced beam splitter and detect light at both output ports using photon-number-resolving transition edge sensors. We observe that the discrete difference statistics converge to the quadrature distribution of the signal as we increase the coherent state amplitude. Moreover, in a proof-of-principle demonstration of state engineering, we show the ability to control the photon-number distribution of a state that is heralded using our weak-field homodyne detector., Comment: 12 pages, 10 figures; includes Supplemental Material

Published
2019
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5. Detector-Agnostic Phase-Space Distributions

Author

Sperling, J., Phillips, D. S., Bulmer, J. F. F., Thekkadath, G. S., Eckstein, A., Wolterink, T. A. W., Lugani, J., Nam, S. W., Lita, A., Gerrits, T., Vogel, W., Agarwal, G. S., Silberhorn, C., and Walmsley, I. A.

Subjects
Quantum Physics
Abstract

The representation of quantum states via phase-space functions constitutes an intuitive technique to characterize light. However, the reconstruction of such distributions is challenging as it demands specific types of detectors and detailed models thereof to account for their particular properties and imperfections. To overcome these obstacles, we derive and implement a measurement scheme that enables a reconstruction of phase-space distributions for arbitrary states whose functionality does not depend on the knowledge of the detectors, thus defining the notion of detector-agnostic phase-space distributions. Our theory presents a generalization of well-known phase-space quasiprobability distributions, such as the Wigner function. We implement our measurement protocol, using state-of-the-art transition-edge sensors without performing a detector characterization. Based on our approach, we reveal the characteristic features of heralded single- and two-photon states in phase space and certify their nonclassicality with high statistical significance.

Published
2019
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6. Emergence of dissipative structures in current-carrying superconducting wires

Author

Levin, G. A., Barnes, P. N., Rodriguez, J. P., Connors, J. A., and Bulmer, J. S.

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

We discuss the emergence of a spontaneous temperature and critical current spatial modulation in current-carrying high temperature superconducting wire. The modulation of the critical current along the wire on a scale of 3 - 10 mm forces a fraction of the transport current to crisscross the resistive interface between the superconducting film and normal metal stabilizer attached to it. This generates additional heat that allows such a structure to be self sustainable. Stability and the conditions for experimental observation of this phenomenon are also discussed., Comment: To be published in Phys. Rev. E (in section Chaos and Pattern Formation)

Published
2009
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7. Strongly anisotropic field emission from highly aligned carbon nanotube films.

Author

Fairchild, S. B., de Assis, Thiago A., Park, J. H., Cahay, M., Bulmer, J., Tsentalovich, D. E., Ang, Yee Sin, Ang, L. K., Ludwick, J., Back, T. C., and Pasquali, M.

Subjects
FIELD emission, ELECTRON field emission, CARBON films, ELECTRIC fields, CONTINUOUS casting
Abstract

The field electron emission properties of carbon nanotube (CNT) films composed of densely packed and highly aligned CNTs were investigated. The CNT films were produced by a continuous film casting process and are spooled into long lengths with the CNTs aligned lengthwise in the film. The anisotropic nature of the CNT film morphology was confirmed by performing specific conductivity measurements in directions both parallel and perpendicular to the aligned CNT microstructure. Field emission experiments were performed on 5 and 10 mm wide films that were mechanically cut into small samples and then vertically mounted so that the emission occurred from the film edge. The films were mounted with the aligned CNT microstructure oriented either parallel or perpendicular to the direction of the applied electric field. The highest emission currents were produced by films mounted in the parallel alignment configuration. Additional experiments were performed on films that were folded, which eliminated surface irregularities at the film edge due to the cutting process. SEM imaging performed at the ridge of the folded film before and after field emission (FE) experiments showed that films mounted in the parallel alignment configuration had minimal surface damage after FE, while films mounted in the perpendicular alignment configuration showed substantial damage. The effective emission area and field enhancement factor were extracted from the FE data using the orthodox Fowler–Nordheim theory. Folded CNT film cathodes mounted in the parallel alignment configuration produced the highest emission currents, while demonstrating a larger emission area and lower field enhancement factor. [ABSTRACT FROM AUTHOR]

Published
2021
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9. Threshold detection statistics of bosonic states br

Author

Bulmer, J. F. F., Paesani, S., Chadwick, R. S., Quesada, N., Bulmer, J. F. F., Paesani, S., Chadwick, R. S., and Quesada, N.

Abstract

In quantum photonics, threshold detectors, distinguishing between vacuum and one or more photons, such as superconducting nanowires and avalanche photodiodes, are routinely used to measure Fock and Gaussian states of light. Despite being the standard measurement scheme, there is no general closed form expression for measurement probabilities with threshold detectors, unless accepting coarse approximations or combinatorially scaling summations. Here, we present new matrix functions to fill this gap. We develop the Bristolian and the loop Torontonian functions for threshold detection of Fock and displaced Gaussian states, respectively, and connect them to each other and to existing matrix functions. By providing a unified picture of bosonic statistics for most quantum states of light, we provide novel tools for the design and analysis of photonic quantum technologies.

Published
2022

10. Quantum photo-thermodynamics on a programmable photonic quantum processor

Author

Anguita, M. Correa, primary, Somhorst, F. H. B., additional, van der Meer, R., additional, Schadow, R., additional, Snijders, H. J., additional, de Goede, M., additional, Kassenberg, B., additional, Venderbosch, P., additional, Taballione, C., additional, Epping, J. P., additional, van den Vlekkert, H. H., additional, Bulmer, J. F. F., additional, Lugani, J., additional, Walmsley, I. A., additional, Pinkse, P. W. H., additional, Eisert, J., additional, Walk, N., additional, and Renema, J. J., additional

Published
2022
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11. Pure-state certification by undoing Hamiltonian evolution leading to local thermalization

Author

Anguita, M. Correa, primary, Somhorst, F. H. B., additional, van der Meer, R., additional, Schadow, R., additional, Snijders, H. J., additional, de Goede, M., additional, Kassenberg, B., additional, Venderbosch, P., additional, Taballione, C., additional, Epping, J. P., additional, van den Vlekkert, H. H., additional, Bulmer, J. F. F., additional, Lugani, J., additional, Walmsley, I. A., additional, Pinkse, P. W. H., additional, Eisert, J., additional, Walk, N., additional, and Renema, J. J., additional

Published
2022
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14. Analysing laser machined YBCO microbridges using raman spectroscopy and transport measurements aiming to investigate process induced degradation

Author

Lange, K, Sparkes, M, Bulmer, J, Feighan, JPF, O'Neill, W, Haugan, TJ, O'Neill, William [0000-0002-7910-0455], and Apollo - University of Cambridge Repository

Subjects
Physics::Atomic Physics
Abstract

Machining high temperature superconducting (HTS) thin films is challenging due to the material’s sensitivity. Here, 200 nm thick YBCO microbridges were machined with a femtosecond laser (300 fs at 1030 nm wavelength) as a chemical free and flexible method with minimal edge damage. Transport measurements and Raman spectroscopy were used to analyse the bridges before and after laser processing. While transport and Raman measurements are commonly used separately to evaluate YBCO, our approach links both techniques to analyse laser induced damage. The link between changes in the Raman spectrum and transport measurements is investigated by identifying changes caused by repeated heat treatments while sequentially measuring the critical current density and Raman spectra. The data obtained is used to predict critical current density losses from changes in Raman peak intensities and shifts. This technique is further investigated by applying it to laser machined YBCO bridges which were exposed to highly localised heating. Results show that for bridge widths of 10 μm, a femtosecond laser can be used to repeatedly successfully machine microbridges with no loss in critical current density and that there is some correlation to critical current changes in the Raman spectra., This work was partially supported by the Air Force Research Laboratory - Aerospace Systems Directorate (AFRL/RQ), the Air Force Office of Scientific Research (AFOSR) under contract LRIR #18RQCOR100, and AFOSR/EOARD under contract FA 16I0E050 and the EPSRC (grant number: EP/L016567/1).

Published
2020
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21. Detector-Agnostic Phase-Space Distributions

Author

Sperling, J., primary, Phillips, D. S., additional, Bulmer, J. F. F, additional, Thekkadath, G. S., additional, Eckstein, A., additional, Wolterink, T. A. W., additional, Lugani, J., additional, Nam, S. W., additional, Lita, A., additional, Gerrits, T., additional, Vogel, W., additional, Agarwal, G. S., additional, Silberhorn, C., additional, and Walmsley, I. A., additional

Published
2020
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