Research outputs: Dr. Will Hossack

  1. P-142L: Late-News Poster: Time of Flight Based 3D Image Sensing Using Holographically Projected Structured Illumination DOI
    Krzysztof Nguyen, David Tyndall, Richard Walker, Robert Henderson, William Hossack and Ian Underwood, SID Symposium Digest of Technical Papers, 43, 1 , p. 1151-1154 (2012)
  2. Changes to lipid droplet configuration in mCMV-infected fibroblasts: live cell imaging with simultaneous CARS and two-photon fluorescence microscopy DOI
    Christine S. Y. Wong, Iain Robinson, Michael A. Ochsenkuehn, Jochen Arlt, William J. Hossack and Jason Crain, Biomedical Optics Express, 2, 9 , p. 2504-2516 (2011)
  3. Intracellular imaging of host-pathogen interactions using combined CARS and two-photon fluorescence microscopies DOI
    Iain Robinson, Michael Andreas Ochsenkuhn, Colin J. Campbell, Gerard Giraud, William J. Hossack, Jochen Arlt and Jason Crain, Journal of biophotonics, 3, 3 , p. 138-146 (2010)
  4. Time-Multiplexed Laguerre-Gaussian holographic optical tweezers for biological applications. DOI
    A Lafong, William J Hossack, Jochen Arlt, T J Nowakowski and N D Read, Optics Express, 14, 7 , p. 3065-3072 (2006)
  5. Multiple trap Laguerre--Gaussian holographic optical tweezers using a multiplexed ferroelectric SLM DOI
    A Lafong, William J Hossack, Jochen Arlt, T J Nowakowski and N D Read (2006)
  6. Spherical aberration correction for optical tweezers DOI
    Eirini Theofanidou, Laurence G Wilson, William J Hossack and Jochen Arlt, Optics Communications, 236, 1-3 , p. 145-150 (2004)
  7. Spherical aberration correction for optical tweezers DOI
    Jochen Arlt, Laurence G Wilson, E Theofanidou, William J Hossack, K Dholakia (Editor) and G C Spalding (Editor), p. 410-418 (2004)
  8. SPICE modelling of ferroelectric liquid crystal on silicon microdisplays
    Stewart Smith, Anthony Walton, I Underwood, C Miremont, David Vass, William Hossack, M Birch, A Macartney and R Nicol, 5181, p. 144-153 (2003)
  9. An improved SPICE model for Ferroelectric Liquid Crystal microdisplays
    Stewart Smith, Anthony Walton, I Underwood, C Miremont, David Vass, William Hossack, M Birch, A Macartney and R Nicol, p. 148-152 (2003)
  10. Antiferroelectric liquid crystal on silicon DOI
    I. Underwood, D. G. Vass, M. I. Newsam, W. J. Hossack, G. K. H. Bodammer, V. K. Nilsen, J. T. M. Stevenson, A. M. Gundlach, W. Parkes, J. M. Oton et al., p. 196-205 (2000)
  11. The successful application of micromachining techniques to microdisplays
    I. Underwood, D. G. Vass, A. M. Gundlach, J. T. M. Stevenson, A. J. Walton, D. W. Calton, K. Seunarine, G. Bodammer, A. O'Hara, W. J. Hossack et al., p. 9 (2000)
  12. MINDIS: Miniature Information Display System
    L. K. M. Chan, P. Surguy, N. Flannigan, J. Seaver, I. Underwood, D. G. Vass, W. J. Hossack, M. I. Newsam, R. J. Woodburn, J. M. Oton et al. (1999)
  13. Miniature Information Display System (MINDIS)
    L. Chan, P. Surguy, M. Moore, J. Seaver, I. Underwood, D. G. Vass, W. J. Hossack, M. I. Newsam, R. J. Woodburn, J. M. Oton et al. (1999)
  14. A high resolution, high frame rate spatial light modulator
    I. Underwood, D. G. Vass, W. J. Hossack, M. W. G. Snook, S. Nath, I. D. Rankin, M. R. Worboys, M. S. Griffith, S. N. Radcliffe, D. MacIntosh et al., p. 2 (1998)
  15. Fourier processing with binary spatial light modulators
    W. J. Hossack, D. G. Vass and I. Underwood, p. 6 (1991)
  16. The optics of spatial light modulator pixels
    R. M. Sillitto, D. G. Vass, I. Underwood, D. J. McKnight, W. J. Hossack and M. W. G. Snook (1990)