Research outputs: Dr. Jochen Arlt

  1. Tricarbocyanine N-triazoles: The Scaffold-of-Choice for Long-Term Near-Infrared Imaging of Immune Cells in vivo DOI
    Richard Mellanby, Jamie Scott, Iris Mair, Antonio Fernandez Vargas, Louise Saul, Jochen Arlt, Monica Moral and Marc Vendrell Escobar, Chemical Science, 9, 36 , p. 7261-7270 (2018)
  2. Probing the Spatiotemporal Dynamics of Catalytic Janus Particles with Single-Particle Tracking and Differential Dynamic Microscopy DOI
    Christina Kurzthaler, Clémence Devailly, Jochen Arlt, Thomas Franosch, Wilson C. K. Poon, Vincent A. Martinez and Aidan T. Brown, Physical Review Letters, 121, 7 (2018)
  3. Bacteria as living patchy colloids: Phenotypic heterogeneity in surface adhesion DOI
    Teun Vissers, Aidan Brown, Nikolaos Koumakis, Angela Dawson, Michiel Hermes, Jana Schwarz-Linek, Andrew Schofield, Joseph French, Vasileios Koutsos, Jochen Arlt et al., Science Advances (2018)
  4. Painting with light-powered bacteria DOI
    Jochen Arlt, Vincent A. Martinez, Angela Dawson, Teuta Pilizota and Wilson C. K. Poon, Nature Communications, 9, 1 (2018)
  5. In vivo single cell analysis reveals Gata2 dynamics in cells transitioning to hematopoietic fate DOI
    Christina Eich, Jochen Arlt, Chris Vink, Parham Solaimani Kartalaei, Polynikis Kaimakis, Samanta Mariani, Reinier van der Linden, Wiggert A Van Cappellen and Elaine Dzierzak, Journal of Experimental Medicine (2017)
  6. Ureasil organic-inorganic hybrids as photoactive waveguides for conjugated polyelectrolyte luminescent solar concentrators DOI
    Ilaria Meazzini, Camille Blayo, Jochen Arlt, Ana-Teresa Marques, Ullrich Scherf, Hugh D. Burrows and Rachel C. Evans, Materials Chemistry Frontiers, 1, 11 , p. 2271-2282 (2017)
  7. Targeted design leads to tunable photoluminescence from perylene dicarboxdiimide-poly(oxyalkylene)/siloxane hybrids for luminescent solar concentrators DOI
    Ilaria Meazzini, Niamh Willis-Fox, Camille Blayo, Jochen Arlt, Sebastien Clement and Rachel C. Evans, Journal of Materials Chemistry C, 4, 18 , p. 4049-4059 (2016)
  8. Tunable White-Light Emission from Conjugated Polymer-Di-Ureasil Materials DOI
    Niamh Willis-Fox, Mario Kraft, Jochen Arlt, Ullrich Scherf and Rachel C. Evans, Advanced Functional Materials, 26, 4 , p. 532-542 (2016)
  9. Escherichia coli as a model active colloid DOI
    Jana Schwarz-Linek, Jochen Arlt, Alys Jepson, Angela Dawson, Teun Vissers, Dario Miroli, Teuta Pilizota, Vincent A. Martinez and Wilson C K Poon, Colloids and Surfaces B: Biointerfaces, 137, p. 2-16 (2016)
  10. Synergistic photoluminescence enhancement in conjugated polymer-di-ureasil organic-inorganic composites DOI
    Niamh Willis-Fox, Ana-Teresa Marques, Jochen Arlt, Ullrich Scherf, Luis D. Carlos, Hugh D. Burrows and Rachel C. Evans, Chemical Science, 6, 12 , p. 7227-7237 (2015)
  11. Filling an Emulsion Drop with Motile Bacteria DOI
    I. D. Vladescu, E. J. Marsden, J. Schwarz-Linek, V. A. Martinez, J. Arlt, A. N. Morozov, D. Marenduzzo, M. E. Cates and W. C. K. Poon, Physical Review Letters, 113, 26 (2014)
  12. Taking Two-Photon Excitation to Exceptional Path-Lengths in Photonic Crystal Fiber DOI
    Gareth O. S. Williams, Tijmen G. Euser, Jochen Arlt, Philip St. John Russell and Anita C. Jones, ACS Photonics, 1, 9 , p. 790-793 (2014)
  13. Switching of Swimming Modes in Magnetospirillium gryphiswaldense DOI
    M. Reufer, R. Besseling, J. Schwarz-Linek, V.A. Martinez, A.N. Morozov, J. Arlt, D. Trubitsyn, F.B. Ward and W.C.K. Poon, Biophysical Journal, 106, 1 , p. 37-46 (2014)
  14. A study of pile-up in integrated time-correlated single photon counting systems DOI
    Jochen Arlt, David Tyndall, Bruce R. Rae, David D.-U. Li, Justin A. Richardson and Robert K. Henderson, Review of Scientific Instruments, 84, 10 (2013)
  15. A high-throughput time-resolved mini-silicon photomultiplier with embedded fluorescence lifetime estimation in 0.13 μm CMOS DOI
    David Tyndall, Bruce R Rae, David Day-Uei Li, Jochen Arlt, Abigail Johnston, Justin A Richardson and Robert K Henderson, IEEE Transactions on Biomedical Circuits and Systems, 6, 6 , p. 562-570 (2012)
  16. Time-Domain Fluorescence Lifetime Imaging Techniques Suitable for Solid-State Imaging Sensor Arrays DOI
    Day-Uei Li, Simon Ameer-Beg, Jochen Arlt, David Tyndall, Richard Walker, Daniel Matthews, Viput Visitkul, J. Richardson and Robert Henderson, Sensors, 12, 5 , p. 5650-5659 (2012)
  17. A 100Mphoton/s time-resolved mini-silicon photomultiplier with onchip fluorescence lifetime estimation in 0.13μm CMOS imaging technology DOI
    David Tyndall, Bruce R. Rae, Day-Uei Li, J. Richardson, Jochen Arlt and Robert Henderson (2012)
  18. Optically trapped microsensors for microfluidic temperature measurement by fluorescence lifetime imaging microscopy DOI
    Mathieu A. Bennet, Patricia R. Richardson, Jochen Arlt, Aongus McCarthy, Gerald S. Buller and Anita C. Jones, Lab on a Chip, 11, 22 , p. 3821-3828 (2011)
  19. 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)
  20. Video-rate fluorescence lifetime imaging camera with CMOS single-photon avalanche diode arrays and high-speed imaging algorithm DOI
    David D.-U. Li, Jochen Arlt, David Tyndall, Richard Walker, Justin Richardson, David Stoppa, Edoardo Charbon and Robert K. Henderson, Journal of Biomedical Optics, 16, 9 (2011)
  21. Colloids in a bacterial bath: simulations and experiments DOI
    Chantal Valeriani, Martin Li, John Novosel, Jochen Arlt and Davide Marenduzzo, Soft Matter, 7, 11 , p. 5228-5238 (2011)
  22. Fluorescence lifetime biosensing with DNA microarrays and a CMOS-SPAD imager DOI
    Gerard Giraud, Holger Schulze, Day-Uei Li, Till T. Bachmann, Jason Crain, David Tyndall, Justin Richardson, Richard Walker, David Stoppa, Edoardo Charbon et al., Biomedical Optics Express, 1, 5 , p. 1302-1308 (2010)
  23. Real-time fluorescence lifetime imaging system with a 32 x 32 0.13 μm CMOS low dark-count single-photon avalanche diode array DOI
    Day-Uei Li, Jochen Arlt, Justin Richardson, Richard Walker, Alex Buts, David Stoppa, Edoardo Charbon and Robert Henderson, Optics Express, 18, 10 , p. 10257-10269 (2010)
  24. 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)
  25. Hardware implementation algorithm and error analysis of high-speed fluorescence lifetime sensing systems using center-of-mass method DOI
    Day-Uei Li, Bruce Rae, Robin Andrews, Jochen Arlt and Robert Henderson, Journal of Biomedical Optics, 15, 1 (2010)
  26. Passive and Active Microrheology of Hard-sphere Colloids DOI
    L. G. Wilson, A. W. Harrison, Andrew B Schofield, J. Arlt and Wilson Poon, Journal of Physical Chemistry B, 113, 12 , p. 3806-3812 (2009)
  27. Trapping multiple particles in single optical tweezers DOI
    Martin Li and Jochen Arlt, Optics Communications, 281, 1 , p. 135-140 (2008)
  28. Experimentally manipulating fungi with optical tweezers DOI
    Graham D Wright, Jochen Arlt, Wilson C K Poon and Nick D Read, Mycoscience, 48, 1 , p. 15-19 (2007)
  29. Optical tweezer micromanipulation of filamentous fungi DOI
    Graham D. Wright, Jochen Arlt, Wilson C. K. Poon and Nick D. Read, Fungal Genetics and Biology, 44, 1 , p. 113 (2007)
  30. 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)
  31. Linear and nonlinear microrheology of dense colloidal suspensions DOI
    Laurence Wilson, Rut Besseling, Jochen Arlt and Wilson C. K. Poon (2006)
  32. 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)
  33. Cell Biology of Conidial Anastomosis Tubes in Neurospora crassa DOI
    M Gabriela Roca, Jochen Arlt, Chris E Jeffree and Nick D Read, Eukaryotic Cell, 4, 5 , p. 911-919 (2005)
  34. Force measurements in colloidal glasses using optical tweezers DOI
    Laurence G Wilson, Rut Besseling, Jochen Arlt, Wilson C K Poon, K Dholakia (Editor) and G C Spalding (Editor), p. 593016 (2005)
  35. Hydrodynamics of bacterial suspensions
    Jochen Arlt, William J Duncan, Wilson C K Poon, K Dholakia (Editor) and G C Spalding (Editor) (2005)
  36. Measuring Fungal Growth Forces with Optical Tweezers DOI
    Graham D Wright, Jochen Arlt, Wilson C K Poon, Nick D Read, K Dholakia (Editor) and G C Spalding (Editor) (2005)
  37. Spectral imaging in a snapshot DOI
    A R Harvey, D W Fletcher-Holmes, A Gorman, K Altenbach, Jochen Arlt, N D Read and R M Levenson (Editor), p. 110-119 (2005)
  38. 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)
  39. Condensation of hydrodynamically stretched DNA using single molecule fluorescence imaging and optical tweezers
    E Theofanidou, T J Su, J Arlt, D T F Dryden, W J Hossack, J Crain and Wilson Poon, p. 225-233 (2004)
  40. Single molecule fluorescence imaging and its application to the study of DNA condensation
    T J Su, E Theofanidou, J Arlt, D T F Dryden and J Crain, Journal of fluorescence, 14, 1 , p. 65-69 (2004)
  41. 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)
  42. Study of DNA deformation under flow using optical tweezers
    E Theofanidou, T J Su, J Arlt, D T F Dryden, W J Hossack, J Crain and Wilson Poon, p. 712-723 (2004)
  43. Controlled simultaneous rotation of multiple optically trapped particles DOI
    L Paterson, MP MacDonald, Jochen Arlt, W Dultz, H Schmitzer, W Sibbett and K Dholakia, Journal of modern optics, 50, 10 , p. 1591-1599 (2003)
  44. Handedness and azimuthal energy flow of optical vortex beams DOI
    Jochen Arlt, Journal of modern optics, 50, 10 , p. 1573-1580 (2003)
  45. Laguerre-Gaussian laser modes for biophotonics and micromanipulation DOI
    M P MacDonald, L Paterson, G Armstrong, Jochen Arlt, P Bryant, Wilson Sibbett and Kishan Dholakia, p. 48-59 (2003)
  46. Guiding a cold atomic beam along a co-propagating and oblique hollow light guide DOI
    D Rhodes, G P T Lancaster, J Livesey, D McGloin, Jochen Arlt and K Dholakia, Optics Communications, 214, 1-6 , p. 247-254 (2002)
  47. Moving interference patterns created using the angular Doppler-effect. DOI
    Jochen Arlt, Michael Macdonald, L Paterson, W Sibbett, K Dholakia and K Volke-Sepulveda, Optics Express, 10, 16 , p. 844-852 (2002)
  48. Creation and manipulation of three-dimensional optically trapped structures. DOI
    M P MacDonald, L Paterson, K Volke-Sepulveda, Jochen Arlt, W Sibbett and K Dholakia, Science, 296, 5570 , p. 1101-1103 (2002)
  49. Continuous motion of interference patterns using the angular Doppler effect DOI
    L Paterson, M P MacDonald, Jochen Arlt, Wilson Sibbett, Kishan Dholakia and K Volke-Sepulveda, p. 98-102 (2002)
  50. Orbital angular momentum of a high order Bessel light beam DOI
    V Garces-Chavez, Jochen Arlt, K Dholakia, K Volke-Sepulveda and S Chavez-Cerda, p. 223-224 (2002)
  51. Revolving interference patterns for the rotation of optically trapped particles DOI
    M P MacDonald, K Volke-Sepulveda, L Paterson, Jochen Arlt, W Sibbett and K Dholakia, Optics Communications, 201, 1-3 , p. 21-28 (2002)
  52. Optical micromanipulation using a Bessel light beam DOI
    Jochen Arlt, V Garces-Chavez, W Sibbett and K Dholakia, Optics Communications, 197, 4-6 , p. 239-245 (2001)
  53. Controlled rotation of optically trapped microscopic particles. DOI
    L Paterson, M P MacDonald, Jochen Arlt, W Sibbett, P E Bryant and K Dholakia, Science, 292, 5518 , p. 912-914 (2001)
  54. Optical dipole traps and atomic waveguides based on Bessel light beams DOI
    Jochen Arlt, Kishan Dholakia, Josh Soneson and Ewan Wright, Physical Review A, 63, 6 , p. 1-8 (2001)
  55. Spatial transformation of Laguerre-Gaussian laser modes DOI
    Jochen Arlt, R Kuhn and K Dholakia, Journal of modern optics, 48, 5 , p. 783-787 (2001)
  56. Toroidal optical dipole traps for atomic Bose-Einstein condensates using Laguerre-Gaussian beams DOI
    E Wright, Jochen Arlt and K Dholakia, Physical Review A, 63, 1 , p. 1-7 (2000)
  57. Generation of high-order Bessel beams by use of an axicon DOI
    Jochen Arlt and K Dholakia, Optics Communications, 177, 1-6 , p. 297-301 (2000)
  58. Generation of a beam with a dark focus surrounded by regions of higher intensity: the optical bottle beam. DOI
    Jochen Arlt and Miles J Padgett, Optics Letters, 25, 4 , p. 191-193 (2000)