Peter Krüger
Peter Krüger
Professor of Physics, University of Sussex
Verified email at - Homepage
Cited by
Cited by
Berezinskii–Kosterlitz–Thouless crossover in a trapped atomic gas
Z Hadzibabic, P Krüger, M Cheneau, B Battelier, J Dalibard
Nature 441 (7097), 1118-1121, 2006
Matter-wave interferometry in a double well on an atom chip
T Schumm, S Hofferberth, LM Andersson, S Wildermuth, S Groth, ...
Nature physics 1 (1), 57-62, 2005
Microscopic atom optics: From wires to an atom chip
R Folman, P Kruger, J Schmiedmayer, J Denschlag, C Henkel
Advances in Atomic, Molecular, and Optical Physics 48, 263-356, 2002
Controlling cold atoms using nanofabricated surfaces: Atom chips
R Folman, P Krüger, D Cassettari, B Hessmo, T Maier, J Schmiedmayer
Physical Review Letters 84 (20), 4749, 2000
A new generation of magnetoencephalography: Room temperature measurements using optically-pumped magnetometers
E Boto, SS Meyer, V Shah, O Alem, S Knappe, P Kruger, TM Fromhold, ...
NeuroImage 149, 404-414, 2017
Microscopic magnetic-field imaging
S Wildermuth, S Hofferberth, I Lesanovsky, E Haller, LM Andersson, ...
Nature 435 (7041), 440-440, 2005
Adiabatic radio-frequency potentials for the coherent manipulation of matter waves
I Lesanovsky, T Schumm, S Hofferberth, LM Andersson, P Krüger, ...
Physical Review A 73 (3), 033619, 2006
Critical point of an interacting two-dimensional atomic Bose gas
P Krüger, Z Hadzibabic, J Dalibard
Physical Review Letters 99 (4), 040402, 2007
Atom chips: Fabrication and thermal properties
S Groth, P Krüger, S Wildermuth, R Folman, T Fernholz, J Schmiedmayer, ...
Applied Physics Letters 85 (14), 2980-2982, 2004
Optimized magneto-optical trap for experiments with ultracold atoms near surfaces
S Wildermuth, P Krüger, C Becker, M Brajdic, S Haupt, A Kasper, ...
Physical Review A 69 (3), 030901, 2004
On the potential of a new generation of magnetometers for MEG: a beamformer simulation study
E Boto, R Bowtell, P Krüger, TM Fromhold, PG Morris, SS Meyer, ...
PloS one 11 (8), e0157655, 2016
The trapped two-dimensional Bose gas: from Bose–Einstein condensation to Berezinskii–Kosterlitz–Thouless physics
Z Hadzibabic, P Krüger, M Cheneau, SP Rath, J Dalibard
New Journal of Physics 10 (4), 045006, 2008
Sensing electric and magnetic fields with Bose-Einstein condensates
S Wildermuth, S Hofferberth, I Lesanovsky, S Groth, P Krüger, ...
Applied physics letters 88 (26), 2006
Trapping and manipulating neutral atoms with electrostatic fields
P Krüger, X Luo, MW Klein, K Brugger, A Haase, S Wildermuth, S Groth, ...
Physical review letters 91 (23), 233201, 2003
Fundamental limits for coherent manipulation on atom chips
C Henkel, P Krüger, R Folman, J Schmiedmayer
Applied Physics B 76, 173-182, 2003
Potential roughness near lithographically fabricated atom chips
P Krüger, LM Andersson, S Wildermuth, S Hofferberth, E Haller, S Aigner, ...
Physical Review A 76 (6), 063621, 2007
Dynamically controlled toroidal and ring-shaped magnetic traps
T Fernholz, R Gerritsma, P Krüger, RJC Spreeuw
Physical Review A 75 (6), 063406, 2007
Absorption imaging of ultracold atoms on atom chips
Smith, Aigner, Hofferberth
Optics Express, 2011
Micromanipulation of neutral atoms with nanofabricated structures
D Cassettari, A Chenet, R Folman, A Haase, B Hessmo, P Krüger, T Maier, ...
Applied Physics B 70, 721-730, 2000
Weakly interacting Bose gas in the one-dimensional limit
P Krüger, S Hofferberth, IE Mazets, I Lesanovsky, J Schmiedmayer
Physical review letters 105 (26), 265302, 2010
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