Summary citation metrics (Web
of Science, last
updated December 2023)
h-index: 37 Total citations: 4522 More than 2000
citations in the last eight years. Total
number of refereed journal articles: 90
For full citation metrics and a listing of all my
publications, see my page at publons.com
Google
Scholar records my h-index as 43, with 7631
citations.
Book (edited)
Quantum Gases: Finite
Temperature and Non-Equilibrium Dynamics
Edited by: Nick Proukakis, Simon Gardiner,
Matthew Davis, Marzena Szymańska. World
Scientific Amazon.com
"This book should be the first reference
point for learning about various theoretical
approaches to describing quantum gases. The
editors and contributors have created a
unique book with well-written articles,
meaningful comparisons of various
approximation schemes, a uniform notation
and more than one thousand references. In
addition, the book features introductory
chapters and up-to-date review articles of
experimental methods and current frontiers.
The completeness and depth of the
presentation are impressive." --Wolfgang
Ketterle, MIT-Harvard Center for Ultracold
Atoms & Nobel Laureate
Preprints
Efficient
State Preparation for Metrology and Quantum Error
Correction with Global Control
Liam J. Bond, Matthew J. Davis, Jiří Minář, Rene
Gerritsma, Gavin K. Brennen, Arghavan Safavi-Naini arXiv:2312.05060
Nonequilibrium
Transport in a Superfluid Josephson Junction
Chain: Is There Negative Differential
Conductivity?
Samuel E. Begg, Matthew J. Davis, Matthew T.
Reeves arXiv:2307.14590
Many-body
enhancement in a spin-chain quantum heat engine
L. A. Williamson, Matthew J. Davis arXiv:2302.01590
Superfluid critical velocity of an elongated
harmonically trapped Bose-Einstein condensate
Chao Feng, Matthew J. Davis arXiv:1909.13657
2023
90.
Bistability and nonequilibrium condensation in a
driven-dissipative Josephson array: a c-field
model
Matthew T. Reeves, Matthew J. Davis SciPost
Phys. 15, 068 (2023). arXiv:2102.02949
89.
Viability of rotation sensing using phonon
interferometry in Bose-Einstein condensates
Charles W. Woffinden, Andrew J. Groszek, Guillaume
Gauthier, Bradley J. Mommers, Michael. W. J.
Bromley, Simon A. Haine, Halina
Rubinsztein-Dunlop, Matthew J. Davis, Tyler W.
Neely, Mark Baker SciPost
Phys. 15, 128 (2023).
arXiv:2212.11617
2022
88.
Turbulent relaxation to equilibrium in a
two-dimensional quantum vortex gas
Matthew T. Reeves, Kwan Goddard-Lee, Guillaume
Gauthier, Oliver R. Stockdale, Hayder Salman,
Timothy Edmonds, Xiaoquan Yu, Ashton S. Bradley,
Mark Baker, Halina Rubinsztein-Dunlop, Matthew J.
Davis, Tyler W. Neely Physical
Review X12,011031 (2022). arXiv:2010.10049
86.
Thermalization of a quantum Newton's cradle in a
one-dimensional quasicondensate,
Kieran F. Thomas, Matthew J. Davis, Karen.
V. Kheruntsyan Physical
Review A 101, 033615
(2021).
arXiv:1812.01585
2020
85.
Universal expansion of vortex clusters in a
dissipative two-dimensional superfluid
Oliver R. Stockdale, Matthew T. Reeves, Xiaoquan Yu,
Guillaume Gauthier, Kwan Goddard-Lee, Warwick P.
Bowen, Tyler W. Neely, Matthew J. Davis Phys.
Rev. Research 2, 033138 (2020). arXiv:1912.09535
81.
Decaying quantum turbulence in a two-dimensional
Bose-Einstein condensate at finite temperature
Andrew J. Groszek, Matthew J. Davis, Tapio
P. Simul
a SciPost
Phys. 8,
039 (2020). arXiv:1903.05528
2019
80.
Quantitative acoustic models for superfluid circuits
Guillaume Gauthier, Stuart S. Szigeti, Matthew T.
Reeves, Mark Baker, Thomas A. Bell, Halina
Rubinsztein-Dunlop, Matthew J. Davis, Tyler
W. Neely Physical
Review Letters. 123, 260402 (2019). arXiv:1903.04086
79.
Coherent vortex dynamics in a strongly-interacting
superfluid on a silicon chip
Yauhen P. Sachkou, Christopher G. Baker, Glen I.
Harris, Oliver R. Stockdale, Stefan Forstner,
Matthew T. Reeves, Xin He, David L. McAuslan,
Ashton S. Bradley, Matthew J. Davis,
Warwick P. Bowen Science
366, 1480 (2019). arXiv:1902.04409
77. Giant Vortex Clusters in a
Two-Dimensional Quantum Fluid
G. Gauthier, M. T. Reeves, X. Yu, A. S. Bradley,
M. Baker, T. A. Bell, H. Rubinsztein-Dunlop, M.
J. Davis, T. W. Neely Science
364, 1264 (2019). arXiv:1801.06951
2018
76.
Phase
and micromotion of Bose-Einstein condensates
in a time-averaged ring trap,
Thomas A. Bell, Guillaume Gauthier,
Tyler W. Neely, Halina Rubinsztein-Dunlop, Matthew
J. Davis, Mark A. Baker Physical
Review A 98, 013604 (2018). arXiv:1802.05488
74. Quantum quench dynamics of the attractive
one-dimensional Bose gas via the coordinate Bethe
ansatz
J. C. Zill, T. M. Wright, K. V. Kheruntsyan, T.
Gasenzer, M. J. Davis, SciPost
Physics 4, 011 (2018). arXiv:1705.09168
72.
Collapse and revival of the monopole mode of a
degenerate Bose gas in an isotropic harmonic trap
C. J. E. Straatsma, V. E. Colussi, M. J. Davis,
D. S. Lobser, M. J. Holland, D. Z. Anderson, H. J.
Lewandowski, E. A. Cornell, Physical
Review A 94, 043640
(2016). arXiv:1608.07248
71.
Finite-temperature hydrodynamics for
one-dimensional Bose gases: Breathing mode
oscillations as a case study,
I. Bouchoule, S. S. Szigeti, M. J. Davis,
K. V. Kheruntsyan Physical
Review A 94, 051602(R)
(2016). arXiv:1602.07889
70.
Direct imaging of a digital-micromirror device
for configurable microscopic optical potentials,
G. Gauthier, I. Lenton, N. McKay Parry, M.
Baker, M. J. Davis, H. Rubinsztein-Dunlop
and T. W. Neely, Optica
3, 1136 (2016). arXiv:1605.04928
69.
A coordinate Bethe ansatz approach to
the calculation of equilibrium and nonequilibrium
correlations of the one-dimensional Bose gas,
J. C. Zill, T. M. Wright, K. V. Kheruntsyan,
T. Gasenzer, and M. J. Davis, New
Journal of Physics 18, 045010 (2016). arXiv:1601.00434
68.
Bose-Einstein condensation in large time-averaged
optical ring potentials
T. A. Bell, J. A. P. Glidden, L. Humbert, M. W. J.
Bromley, S. A. Haine, M. J. Davis, T. W.
Neely, M. A. Baker, H. Rubinsztein-Dunlop, New
Journal of Physics 18, 035003 (2016). arXiv:1512.05079
67.
Quantum Enhanced Measurement of Rotations with a
Spin-1 Bose-Einstein Condensate in a Ring Trap,
S. P. Nolan, J. Sabbatini, M. W. J. Bromley,
M. J. Davis, and S. A. Haine, Phys.
Rev. A 93, 023616 (2016). arXiv:1511.03364
Growth
of Bose-Einstein condensates, M. J. Davis, T. M. Wright, T.
Gasenzer, S. A. Gardiner, N. P. Proukakis,
Chapter in "Universal Themes of Bose-Einstein
Condensation",
edited by D. W. Snoke, N. P. Proukakis and P. B.
Littlewood (Cambridge University Press, 2016).
arXiv:1601.06197
2015
66.
Coherence and linewidth of a
continuously pumped atom laser at finite
temperature,
G. M. Lee, S. A. Haine, A. S. Bradley, and M.
J. Davis, Phys.
Rev. A 92, 013605 (2015). arXiv:1506.00321
65. Spin-orbit coupled Bose-Einstein
condensates in a one-dimensional optical lattice,
C. Hamner, Yongping Zhang, M. A. Khamehchi, Matthew
J. Davis, and P. Engels Phys.
Rev. Lett. 114, 070401 (2015). arXiv:1405.4048
64. Relaxation dynamics of the
Lieb-Liniger gas following an interaction quench: A
coordinate Bethe-ansatz analysis
Jan C. Zill, Tod M. Wright, Karen V. Kheruntsyan,
Thomas Gasenzer, and Matthew J. Davis, Phys.
Rev. A 91, 023611 (2015). arXiv:1407.4998
62.
The miscible-immiscible quantum phase transition in
coupled two-component Bose-Einstein
condensates in 1D optical lattices,
Fei Zhan, Jacopo Sabbatini, Matthew J. Davis,
Ian P. McCulloch Phys. Rev. A 90, 023630
(2014). arXiv:1403.4823
61. Nonequilibrium
dynamics of one-dimensional hard-core anyons
following a quench: Complete relaxation of
one-body observables Tod M. Wright,
Marcos Rigol, Matthew J. Davis, Karen V.
Kheruntsyan
60. Characteristics of
Two-Dimensional Quantum Turbulence in a Compressible
Superfluid
T. W. Neely, A. S. Bradley, E. C. Samson, S. J.
Rooney, E. M. Wright, K. J. H. Law, R.
Carretero-González, P. G. Kevrekidis, M. J.
Davis, and B. P. Anderson
Phys. Rev. Lett. 111, 235301, (2013). arXiv:1204.1102
59. Dynamical
tunnelling with ultracold atoms in magnetic
microtraps
M. Lenz, S. Wüster,
C. J. Vale, N. R. Heckenberg, H.
Rubinsztein-Dunlop, C. A. Holmes, G. J. Milburn and
M. J. Davis, Phys.
Rev. A 88,
013535 (2013). arXiv:1011.0242
58. Condensation and
quasicondensation in an elongated
three-dimensional Bose gas,
Michael C. Garrett, Tod M. Wright, and Matthew
J. Davis, Phys.
Rev. A 87,
063611 (2013). arXiv:1209.3297
Reconciling
the Classical-Field Method with the Beliaev Broken
Symmetry Approach
Tod M. Wright, Matthew J. Davis, Nick P.
Proukakis arXiv:1206.5472
Chapter in Quantum
Gases: Finite Temperature and Non-Equilibrium
Dynamics (Vol. 1 Cold Atoms Series). N.P.
Proukakis, S.A. Gardiner, M.J. Davis and M.H.
Szymanska, eds. Imperial College Press, London (2013)
C-Field Methods for Non-Equilibrium Bose Gases Matthew J. Davis, Tod M. Wright, P. Blair
Blakie, Ashton S. Bradley, Rob J. Ballagh, Crispin W.
Gardiner arXiv:1206.5470
Chapter in Quantum
Gases: Finite Temperature and Non-Equilibrium
Dynamics (Vol. 1 Cold Atoms Series). N.P.
Proukakis, S.A. Gardiner, M.J. Davis and M.H.
Szymanska, eds. Imperial College Press, London (2013).
2012
57. Causality and defect formation in the dynamics of
an engineered quantum phase transition in a coupled
binary Bose–Einstein condensate,
J. Sabbatini, W. H. Zurek, and
M. J. Davis, New
Journal of Physics, 14, 095030 (2012). arXiv:1208.5295
54. Yang-Yang thermometry and momentum distribution of
a trapped one-dimensional Bose gas, M. J. Davis, P. B. Blakie, A. H. van Amerongen,
N. J. van Druten, K. V. Kheruntsyan, Phys.
Rev. A 85,
031604(R) (2012). arXiv:1108.3608
51. Growth dynamics of a Bose-Einstein condensate in a
dimple trap without cooling,
M. C. Garrett, A. Ratnapala, E. D. van Ooijen, C. J.
Vale, K. Weegink, S. K. Schnelle, O. Vanio, N. R.
Heckenberg, H. Rubinsztein-Dunlop and M. J. Davis, Phys.
Rev. A 83, 013630 (2011). arXiv:1011.0296
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
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. A79,
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
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
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. A77,
033616 (2008) arXiv:0712.3436
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. A77,
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. A77,
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
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
Unpublished:
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
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
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 (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, 5266 (1998). cond-mat/S9806295
