Chris Wade
Chris Wade
Verified email at physics.ox.ac.uk
Title
Cited by
Cited by
Year
Nonequilibrium Phase Transition in a Dilute Rydberg Ensemble
C Carr, R Ritter, CG Wade, CS Adams, KJ Weatherill
Physical review letters 111 (11), 113901, 2013
1972013
Real-time, near-field terahertz imaging with atomic optical fluorescence
CG Wade, N Sibalic, NR de Melo, JM Kondo, KJ Weatherill, CS Adams
Nature Photonics, doi:10.1038/nphoton.2016.214, 2016
1392016
Driven-dissipative many-body systems with mixed power-law interactions: Bistabilities and temperature-driven nonequilibrium phase transitions
N Šibalić, CG Wade, CS Adams, KJ Weatherill, T Pohl
Physical Review A 94 (1), 011401, 2016
462016
Intrinsic optical bistability in a strongly driven Rydberg ensemble
NR de Melo, CG Wade, N Šibalić, JM Kondo, CS Adams, KJ Weatherill
Physics Review A 93 (6), 063863, 2016
342016
A terahertz-driven non-equilibrium phase transition in a room temperature atomic vapour
CG Wade, M Marcuzzi, E Levi, JM Kondo, I Lesanovsky, CS Adams, ...
Nature Communications 9 (1), 3567, 2018
28*2018
Observation of interference effects via four-photon excitation of highly excited Rydberg states in thermal cesium vapor
JM Kondo, N Šibalić, A Guttridge, CG Wade, NR De Melo, CS Adams, ...
Optics Letters 40 (23), 5570-5573, 2015
122015
Piezoelectrically actuated time-averaged atomic microtraps
AD West, CG Wade, KJ Weatherill, IG Hughes
Applied Physics Letters 101 (2), 023115, 2012
102012
Probing an excited-state atomic transition using hyperfine quantum-beat spectroscopy
CG Wade, N Šibalić, J Keaveney, CS Adams, KJ Weatherill
Physical Review A 90 (3), 033424, 2014
92014
Terahertz Wave Detection and Imaging with a Hot Rydberg Vapour
CG Wade
Springer, 2018
12018
THz Detection and Imaging using Rydberg Atoms
C Wade, N Sibalic, J Kondo, N De Melo, C Adams, K Weatherill
APS Division of Atomic, Molecular and Optical Physics Meeting Abstracts, 2016
2016
Bistability in a Strongly Driven Rydberg Gas
N Šibalic, CG Wade, T Pohl, CS Adams, KJ Weatherill
Session 3P7 SC3: Strong Light-matter Coupling and Strongly Interacting …, 0
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Articles 1–11