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Summary citation
metrics (updated 04/01/2010):
Total citations: 782
Citations in 2009: 209
Total number of published
articles: 47
h-index: 16
For full citation metrics and a listing of all my publications, see my
page at www.researcherid.com
Preprints
Observation of vortex
dipoles in an oblate Bose-Einstein condensate
T. W. Neely, E. C. Samson, A. S. Bradley, M. J. Davis, and B. P. Anderson
arXiv:0912.3773
Vortex pairing in 2D
Bose gases
C. J. Foster, P. B. Blakie, and M. J.
Davis
arXiv:0912.1675
Quantum effects in the
dynamical localization of Bose-Einstein
condensates in optical lattices
B. J. Dąbrowska-Wüster, S. Wüster, A. S. Bradley, M. J. Davis and E. A. Ostrovskaya,
cond-mat/0607332
2009
47.
Observation of shock waves in a large Bose-Einstein condensate
R. Meppelink, S. B. Koller, J. M. Vogels, P. van der Straten, E. D. van
Ooijen, N. R. Heckenberg, H. Rubinsztein-Dunlop, S. A. Haine and M. J. Davis
Phys.
Rev. A 80, 043606 (2009).
arXiv:0907.3989
46. Quantum-limited metrology and Bose-Einstein condensates
S. Boixo, A. Datta, M. J. Davis,
A. Shaji, A. B. Tacla and C. M. Caves,
Phys.
Rev. A 80, 032103 (2009).
arxiv:0906.0962
45. Numerical
method for evolving the dipolar projected Gross-Pitaevskii equation
P. B. Blakie, C. Ticknor, A. S. Bradley, A. M. Martin, M. J. Davis and
Y. Kawaguchi
Phys. Rev. E
80, 016703 (2009).
arXiv:0904.3440
44. Drag force on an impurity below the superfluid critical velocity in
a
quasi-one-dimensional Bose-Einstein condensate
A. G. Sykes, M. J. Davis and
D. C. Roberts
Phys.
Rev. Lett. 103, 085302 (2009).
arXiv:0904.0995
43.
Dynamical formation and interaction of bright solitary waves and
soliton in the collapse of a Bose-Einstein condensate with attractive
interactions
B. J. Dąbrowska-Wüster, S. Wüster, and M. J. Davis
New J. Phys. 11, 053017 (2009).
arXiv:0812.0493
42.
A comparative study of dynamical simulation methods for the
dissociation of molecular Bose-Einstein condensates
S. L. W. Midgley, S. Wüster, M. K.
Olsen, M. J. Davis and K. V.
Kheruntsyan
Phys. Rev. A
79, 053632 (2009).
arXiv:0811.2030
41.
Atomic entanglement generation and detection via degenerate
four-wave-mixing of a Bose-Einstien condensate in an optical lattice
A.
J. Ferris, M. K. Olsen and M. J. Davis
Phys. Rev. A
79, 043634 (2009).
arXiv:0902.1793
40.
Non-local
pair correlations in the 1D Bose gas at finite temperature
P. Deuar, A. G. Sykes, D. M. Gangardt, M.
J. Davis, P. D. Drummond, and K. V. Kheruntsyan
Phys. Rev. A
79, 043619 (2009).
arXiv:0812.4447
39.
Quasi-condensation and coherence in the quasi-two-dimensional
trapped Bose gas
R.N. Bisset, M.J. Davis, T.P.
Simula and P.B. Blakie,
Phys.
Rev. A 79, 033626 (2009)
arXiv:0804.0286
2008
38.
Detection of continuous variable entanglement without coherent local
oscillators
A.
J. Ferris, M. K. Olsen, E. G. Cavalcanti and M. J. Davis
Phys. Rev. A
78, 060104(R) (2008). (Rapid
Communication)
arXiv:0806.3120
Virtual
Journal of Nanoscale Science and Technology
37. Dynamics and statistical mechanics of ultra-cold Bose gases using
c-field techniques
P. B. Blakie, A. S. Bradley, M. J.
Davis, R. J. Ballagh and C. W. Gardiner
Advances
in Physics 57, 363 (2008).
arXiv:0809.1487
36.
Spontaneous vortices in the
formation of Bose-Einstein condensates
C. N. Weiler, T. W. Neely, D. R. Scherer, A. S. Bradley, M. J. Davis, and B. P. Anderson
Nature
455, 948 (2008).
arXiv:0807.3323
News and Views article by Kris Helmerson: Surviving
the transition
Full listing of online news
items about this paper
35. Quantum Metrology: Dynamics vs. Entanglement
S. Boixo, A. Datta, M. J. Davis,
S. T. Flammia, A. Shaji and C. M. Caves
Phys.
Rev. Lett. 101, 040403 (2008).
arXiv:0805.2180
34. Spatial Nonlocal Pair Correlations in a Repulsive 1D Bose Gas
A. G. Sykes, D. M. Gangardt, M. J.
Davis, K. Viering, M. G. Raizen, and K. V. Kheruntsyan
Phys.
Rev. Lett. 100, 160406 (2008).
arXiv:0710.5812
33. Bose-Einstein Condensation from a Rotating Thermal Cloud: Vortex
Nucleation and Lattice Formation
A. S. Bradley, C. W. Gardiner and M.
J. Davis,
Phys. Rev. A 77, 033616
(2008)
arXiv:0712.3436
32. Superfluidity of an
interacting trapped quasi-2D Bose gas
T. P. Simula, M. J. Davis, and
P. B. Blakie
Phys.
Rev. A 77,
023618 (2008)
arXiv:0711.1423
31.
Pairing mean-field
theory for the dynamics of dissociation of molecular Bose-Einstein
condensates
M. J. Davis, S. J.
Thwaite, M. K. Olsen and K. V. Kheruntsyan
Phys. Rev. A 77, 023617
(2008)
arXiv:0710.4257
30. Versatile two-dimensional potentials for ultra-cold atoms
S. K. Schnelle, E. D. van Ooijen, M.
J. Davis, N. R. Heckenberg, and H. Rubinsztein-Dunlop
Opt.
Express 16, 1405 (2008).
arXiv:0801.2791
29.
Dynamical instabilities of Bose-Einstein condensates at the band-edge
in one-dimensional optical lattices
A. J. Ferris, M. J. Davis, R
W. Geursen, P. B. Blakie and A. C. Wilson
Phys. Rev. A 77, 012712
(2008)
arXiv:0706.2744
2007
28.
Excitation spectrum of bosons in a finite one-dimensional circular
waveguide via the Bethe ansatz
A. G. Sykes, P. D. Drummond, and M.
J. Davis
Phys. Rev. A 76, 063620 (2007).
arXiv:0707.2422
27. Calorimetry of Bose-Einstein condensates
P. B. Blakie, E. Toth, and M. J. Davis,
J.
Phys. B 40, 3273 (2007).
arXiv:0704.1735
26. Classical Region of a Trapped Bose Gas
P.
B. Blakie and M. J. Davis,
J.
Phys.
B 40, 2043-2053 (2007).
doi:10.1088/0953-4075/40/11/007
cond-mat/0508669
25.
Quantum depletion of collapsing Bose-Einstein
condensates
S.
Wüster,
B. J. Dąbrowska-Wüster, A. S. Bradley, M. J. Davis, P. B. Blakie, J. J.
Hope, and C. M Savage.
Phys.
Rev. A 75, 043611 (2007).
doi:10.1103/PhysRevA.75.043611
cond-mat/0609417
24.
Monte Carlo techniques for real-time quantum dynamics
M. R. Dowling, M. J. Davis, P. D. Drummond and J. F. Corney
J. Comp.
Phys. 220, 549 (2007).
doi:10.1016/j.jcp.2006.05.017
quant-ph/0507003
23.
Population and Phase Coherence during the Growth of an Elongated
Bose-Einstein Condensate
M.
Hugbart, J. A. Retter, A. Varòn, P. Bouyer, A. Aspect and M. J. Davis,
Phys.
Rev. A 75, 011602(R) (2007)
(Rapid Communication)
doi:10.1103/PhysRevA.75.011602
cond-mat/0602346
2006
22.
Atom counting in ultra-cold gases using photoionisation and ion
detection
T. Campey, C. J. Vale, M. J. Davis,
N.
R. Heckenberg, H.
Rubinsztein-Dunlop, S. Kraft, C. Zimmermann
and J. Fortágh,
Phys.
Rev. A 74, 043612 (2006).
cond-mat/0607170
21.
Entanglement properties of degenerate four-wave mixing of matter-waves
in a periodic potential
M. K. Olsen and M. J. Davis,
Phys.
Rev. A 73, 063618 (2006).
cond-mat/0601628
20.
Fringe spacing and phase of interfering matter waves
O.
Vainio, C. J. Vale, M. J. Davis,
N. R. Heckenberg, and H. Rubinsztein-Dunlop,
Phys.
Rev. A 73, 063613 (2006).
cond-mat/0601690
19.
Critical temperature of a trapped Bose gas: comparison of theory and
experiment
M. J. Davis and P.
B. Blakie,
Phys.
Rev. Lett. 96, 060404 (2006).
cond-mat/0508667
2005
18.
Calculation of the microcanonical temperature for the classical Bose
field
M. J. Davis and P.
B. Blakie,
J. Phys. A 38, 10259 (2005).
cond-mat/0508674
17. Projected Gross-Pitaevskii Equation for harmonically confined
Bose gases at finite temperature
P.
B. Blakie and M. J. Davis,
Phys.
Rev. A 72, 063608 (2005).
cond-mat/0410496
16.
The time-reversal test for stochastic quantum dynamics
M. R. Dowling, P. D. Drummond, M. J. Davis and P. Deuar
Phys.
Rev. Lett. 94, 130401 (2005).
quant-ph/0411185
Nature
commentary
Virtual
Journal of Biological Physics Research
2004
15. Foil-based
atom chip for Bose-Einstein condensates
C. J. Vale, B. Upcroft, M. J. Davis, N. R. Heckenberg and H. Rubinsztein-Dunlop
J. Phys. B 37,
2959-2967 (2004).
cond-mat/0406015
2003
14. The
stochastic
Gross-Pitaevskii equation II
C. W. Gardiner and M. J. Davis
J. Phys. B 36,
4731-4753 (2003).
cond-mat/0308044
13. Microcanonical temperature for a
classical field: application to Bose-Einstein condensation
M. J. Davis and S. A. Morgan
Phys.
Rev. A 68, 053615 (2003).
cond-mat/0307155
2002
12. Simulations of thermal Bose fields in the classical limit
M. J. Davis, S. A. Morgan and K. Burnett
Phys.
Rev. A 66, 053618 (2002).
cond-mat/0201571
11. Energy dependent
scattering and the Gross-Pitaevskii equation in two dimensional
Bose-Einstein condensates
M. D. Lee, S. A. Morgan, M. J. Davis, and K. Burnett
Phys.
Rev. A 65, 043617 (2002).
cond-mat/0211432
10. Growth of
Bose-Einstein condensates from thermal
vapour
M. Köhl, M. J. Davis, C. W. Gardiner, T. W. Hänsch,
and T. Esslinger
Phys.
Rev. Lett. 88, 080402 (2002).
cond-mat/0106642
9. Growth of a Bose-Einstein condensate: A detailed comparison of
theory and experiment
M. J. Davis and C. W. Gardiner
J. Phys. B 35,
733 (2002).
cond-mat/0111444
2001
8.
Dynamics of thermal Bose fields in the classical limit
M. J. Davis, R. J. Ballagh and K.
Burnett
J. Phys. B 34,
4487 (2001).
cond-mat/0107515
7. Simulations of Bose fields at finite temperature
M. J. Davis, S. A. Morgan and K. Burnett
Phys.
Rev. Lett. 87, 160402 (2001).
cond-mat/0011431
6. Interactions and entanglements in BECs
K. Burnett, S. Choi, M. J. Davis, J. A. Dunningham, S. A.
Morgan and M. Rusch,
C.
R. Acad. Sci. Paris Sér. IV, 2, 399-406 (2001).
Before 2001
5.
Quantum Kinetic Theory VII: The influence of vapor dynamics on
condensate growth
M. J. Davis, C. W. Gardiner and R. J. Ballagh
Phys.
Rev. A 62, 063608 (2000).
cond-mat/9912439
4. Effects of temperature upon the collapse of a Bose-Einstein
condensate in a gas with attractive interactions
M. J. Davis, D. A. W. Hutchinson and E. Zaremba
J. Phys. B 32,
p.3993-9 (1999).
cond-mat/9906334
3. Quantum Kinetic Theory of Condensate Growth: Comparison of
Experiment and Theory
C. W. Gardiner, M. D. Lee, R. J. Ballagh, M. J.
Davis and P. Zoller
Phys.
Rev. Lett 81, p.5266-9 (1998).
cond-mat/S9806295
2. Kinetics of Bose-Einstein Condensation in a Trap
C. W. Gardiner, P. Zoller, R. J. Ballagh, and M. J. Davis
Phys.
Rev. Lett. 79, p.1793-6 (1997).
quant-ph/9707037
1.
Temporal characteristics and dynamics of gain-switched Cr:YAG lasers
I. T. McKinnie and M. J. Davis
Pure
Appl. Opt. 6, 759-772 (1997).
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