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Dr Jonathan C F MatthewsMSci(Bristol), PhD, MSc(Bristol), MSc(Bristol), PhD(Bristol)

Associate Professor in Quantum Technology

  1. A Homodyne Detector Integrated onto a Photonic Chip for Measuring Quantum States and Generating Random Numbers

    Raffaelli, F. (Creator), Ferranti, G. (Creator), Mahler, D. (Creator), Sibson, P. (Creator), Kennard, J. (Creator), Santamato, A. (Creator), Sinclair, G. (Creator), Bonneau, D. (Creator), Thompson, M. G. (Creator), Matthews, J. C. F. (Creator), University of Bristol, 5 Jan 2018

    Dataset

  2. Generation of random numbers by measuring on a silicon-on-insulator chip phase fluctuations from a laser diode

    Raffaelli, F. (Creator), Sibson, P. (Creator), Kennard, J. E. (Creator), Mahler, D. H. (Creator), Thompson, M. G. (Creator), Matthews, J. C. F. (Creator), University of Bristol, 13 Jun 2018

    Dataset

  3. Large-scale silicon quantum photonics implementing arbitrary two-qubit processing

    Qiang, X. (Creator), Zhou, X. (Creator), Wang, J. (Creator), Wilkes, C. M. (Creator), O'Gara, S. (Creator), Kling, L. (Creator), Marshall, G. (Creator), Santagati, R. (Creator), Ralph, T. (Creator), Wang, J. (Creator), O'Brien, J. (Creator), Thompson, M. (Creator), Matthews, J. C. F. (Creator), University of Bristol, 2 Jul 2018

    Dataset

  4. Optical implementation of spin squeezing

    Sabines-Chesterking, J. (Creator), Matthews, J. C. F. (Creator), Matthews, J. C. F. (Creator), Cable, H. (Creator), O’Brien, J. L. (Creator), Ono, T. (Creator), University of Bristol, 28 Apr 2017

    Dataset