Research outputs: Dr. Chris Hooley

  1. Stark many-body localization DOI
    M. Schulz, C. A. Hooley, R. Moessner and F. Pollmann, Physical Review Letters, 122, 4 (2019)
  2. Energy transport in a disordered spin chain with broken U(1) symmetry DOI
    Maximilian Schulz, Scott Richard Taylor, Christopher Andrew Hooley and Antonello Scardicchio, Physical Review. B, Condensed matter and materials physics, 98, 18 (2018)
  3. Entropy as a function of magnetisation for a 2D spin-ice model exhibiting a Kasteleyn transition DOI
    Santiago Grigera and Christopher Hooley, Journal of Physics Communications, 2, 8 (2018)
  4. Can topological transitions be exploited to engineer intrinsically quench-resistant wires? DOI
    Philip Whittlesea, Jorge Quintanilla, James F. Annett, Adrian D. Hillier and Chris Hooley, IEEE Transactions on Applied Superconductivity, 28, 4 (2018)
  5. Slow relaxation and sensitivity to disorder in trapped lattice fermions after a quench DOI
    M. Schulz, C. A. Hooley and R. Moessner, Physical Review. A, Atomic, molecular, and optical physics, 94, 6 (2016)
  6. Non-Fermi-liquid behavior and anomalous suppression of Landau damping in layered metals close to ferromagnetism DOI
    Samuel Ridgway and Chris Hooley, Physical Review Letters, 114, 22 (2015)
  7. Optimization of simulations and activities for a new introductory quantum mechanics curriculum DOI
    Antje Kohnle, Charles Baily, Chris Hooley, Bruce Torrance, Paula V. Engelhardt (Editor), Alice D. Churukian (Editor) and Dyan L. Jones (Editor), : PERC Proceedings, p. 209-212 (2014)
  8. Berezinskii–Kosterlitz–Thouless-Type Transitions in d = 2 Quantum O(2) and O(2) × O(2) Nonlinear Sigma Models DOI
    Chris Hooley, Sam Carr, Jon Fellows and Joerg Schmalian, Proceedings of the International Conference on Strongly Correlated Electron Systems (SCES2013), 3 (2014)
  9. Unbinding of giant vortices in states of competing order DOI
    J. M. Fellows, S. T. Carr, C. A. Hooley and J. Schmalian, Physical Review Letters, 109, 15 (2012)
  10. Thermal versus quantum fluctuations of optical-lattice fermions DOI
    V.L. Campo Jr., K. Capelle, Chris Hooley, J. Quintanilla and V.W. Scarola, Physical Review. A, Atomic, molecular, and optical physics, 85, 3 (2012)
  11. A new multimedia resource for teaching quantum mechanics concepts DOI
    Antje Kohnle, Donatella Cassettari, Tom J Edwards, Callum Ferguson, Alastair Donald Gillies, Chris Hooley, Natalia Korolkova, Joe Llama and Bruce David Sinclair, American Journal of Physics, 80, 2 , p. 148-153 (2012)
  12. Developing and evaluating animations for teaching quantum mechanics concepts DOI
    Antje Kohnle, Margaret Marion Douglass, Tom J Edwards, Alastair Donald Gillies, Chris Hooley and Bruce David Sinclair, European Journal of Physics, 31, 6 , p. 1441-1455 (2010)
  13. Possible critical behavior driven by the confining potential in optical lattices with ultra-cold fermions DOI
    V. L. Campo, J. Quintanilla and C. Hooley, Physica B : Condensed Matter, 404, 19 , p. 3328-3331 (2009)
  14. The strong-correlations puzzle
    J. Quintanilla and Chris Hooley, Physics World, 22, 6 , p. 32-37 (2009)
  15. Pomeranchuk instability: Symmetry-breaking and experimental signatures DOI
    J. Quintanilla, C. Hooley, B. J. Powell, A. J. Schofield and M. Haque, Physica B : Condensed Matter, 403, 5-9 , p. 1279-1281 (2008)
  16. Quantitative determination of the Hubbard model phase diagram from optical lattice experiments by two-parameter scaling DOI
    V. L. Campo, K. Capelle, J. Quintanilla and C. Hooley, Physical Review Letters, 99, 24 , p. 240403 (2007)
  17. Physics - Heavy fermions in the original fermi liquid DOI
    Christopher A. Hooley and Andrew P. Mackenzie, Science, 317, 5843 , p. 1332-1333 (2007)
  18. Finite-curvature scaling in optical lattice systems DOI
    Christopher Hooley and J Quintanilla, Physica B : Condensed Matter, 378-380, p. 1035-1036 (2006)
  19. Single-atom density of states of an optical lattice DOI
    Christopher Hooley and J Quintanilla, Physical Review Letters, 93, 8 , p. 804041-804044 (2004)
  20. Spin dynamics from Majorana fermions DOI
    W Mao, P Coleman, Christopher Hooley and D Langreth, Physical Review Letters, 91, 20 , p. 2072031-2072034 (2003)
  21. Perturbative expansion of the magnetization in the out-of-equilibrium Kondo model DOI
    O Parcollet and Christopher Hooley, Physical Review. B, Condensed matter and materials physics, 66, 8 , p. 853151-8531514 (2002)
  22. Oscillatory instabilities in dc-biased quantum dots DOI
    P Coleman, Christopher Hooley, Y Avishai, Y Goldin and A F Ho, Journal of Physics: Condensed Matter, 14, 8 (2002)
  23. Is the quantum dot at large bias a weak-coupling problem? DOI
    P Coleman, Christopher Hooley and O Parcollet, Physical Review Letters, 86, p. 4088 (2001)
  24. Kagomé Lattice Antiferromagnet Stripped to Its Basics
    Patrick Azaria, Chris Hooley, Philippe Lecheminant, Claire Lhuillier and Alexei Tsvelik, Physical Review Letters, 81, p. 1694-1697 (1998)