Quantum Gases and Collective Phenomena

2024

1. Observation of Subdiffusive Dynamic Scaling in a Driven and Disordered Bose Gas (pdf)
G. Martirosyan, C. J. Ho, J. Etrych, Y. Zhang, A. Cao, Z. Hadzibabic, and C. Eigen, Phys. Rev. Lett. 132, 113401 (2024).
See also: Cavendish press release

2. Interacting Bose-condensed gases (pdf)
C. Eigen and R. P. Smith in “Encyclopedia of Condensed Matter Physics (Second Edition)“, edited by T. Chakraborty (Academic Press 2024).

2023

1. Energy-space random walk in a driven disordered Bose gas (pdf)
Y. Zhang, G. Martirosyan, C. J. Ho, J. Etrych, C. Eigen, and Z. Hadzibabic, C. R. Phys. 24, 1 (2023).

2. Universal equation of state for wave turbulence in a quantum gas (pdf)
L. H. Dogra, G. Martirosyan, T. A. Hilker, J. A. P. Glidden, J. Etrych, A. Cao, C. Eigen, R. P. Smith, and Z. Hadzibabic, Nature 620, 521 (2023).
See also: (1) Research News in Physics
               (2) Cavendish press release
               (3) Research article in CavMag by Lena Dogra and Zoran Hadzibabic (full issue)

3. Pinpointing Feshbach resonances and testing Efimov universalities in ³⁹K (pdf)
J. Etrych, G. Martirosyan, A. Cao, J. A. P. Glidden, L. H. Dogra, J. M. Hutson, Z. Hadzibabic, and C. Eigen, Phys. Rev. Res. 5, 013174 (2023).

2022

1. Emergence of Isotropy and Dynamic Scaling in 2D Wave Turbulence in a Homogeneous Bose Gas (pdf)
M. Gałka, P. Christodoulou, M. Gazo, A. Karailiev, N. Dogra, J. Schmitt, and Z. Hadzibabic, Phys. Rev. Lett. 129, 190402 (2022).
See also: Accompanying Synopsis in Physics

2. When ultracold magnets swirl (pdf)
Z. Hadzibabic, News & Views Nat. Phys. 18, 1393 (2022).
See also: L. Klaus et al. Observation of vortices and vortex stripes in a dipolar condensate, Nat. Phys. 18, 1453 (2022)

3. First and Second Sound in a Compressible 3D Bose Fluid (pdf)
T. A. Hilker, L. H. Dogra, C. Eigen, J. A. P. Glidden, R. P. Smith, and Z. Hadzibabic, Phys. Rev. Lett. 128, 223601 (2022).
See also: Cavendish press release

2021

1. Quantum gases in optical boxes (pdf)
N. Navon, R. P. Smith, and Z. Hadzibabic, Nat. Phys. 17, 1334 (2021).
See also: Nature Physics Insight - Ultracold quantum technologies

2. Observation of first and second sound in a BKT superfluid (pdf)
P. Christodoulou, M. Galka, N. Dogra, R. Lopes, J. Schmitt, and Z. Hadzibabic, Nature 594, 191 (2021).
See also: Accompanying News and Views by Sandro Stringari in Nature Physics

3. Many-body Decay of the Gapped Lowest Excitation of a Bose-Einstein Condensate (pdf)
J. Zhang, C. Eigen, W. Zheng, J. A. P. Glidden, T. A. Hilker, S. J. Garratt, R. Lopes, N. R. Cooper, Z. Hadzibabic, and N. Navon, Phys. Rev. Lett. 126, 060402 (2021).

4. Bidirectional dynamic scaling in an isolated Bose gas far from equilibrium (pdf)
J. A. P. Glidden, C. Eigen, L. H. Dogra, T. A. Hilker, R. P. Smith, and Z. Hadzibabic, Nat. Phys. 17, 457 (2021).

2019

1. Synthetic dissipation and cascade fluxes in a turbulent quantum gas (pdf)
N. Navon, C. Eigen, J. Zhang, R. Lopes, A. L. Gaunt, K. Fujimoto, M. Tsubota, R. P. Smith, and Z. Hadzibabic, Science 366, 382 (2019).
See also: Research article in CavMag by Nir Navon and Zoran Hadzibabic (full issue)

2. Can Three-Body Recombination Purify a Quantum Gas? (pdf)
L. H. Dogra, J. A. P. Glidden, T. A. Hilker, C. Eigen, E. A. Cornell, R. P. Smith, and Z. Hadzibabic, Phys. Rev. Lett. 123, 020405 (2019).

3. From single-particle excitations to sound waves in a box-trapped atomic Bose-Einstein condensate (pdf)
S. J. Garratt, C. Eigen, J. Zhang, P. Turzák, R. Lopes, R. P. Smith, Z. Hadzibabic, and N. Navon, Phys. Rev. A 99, 021601(R) (2019).

2018

1. Universal prethermal dynamics of Bose gases quenched to unitarity (pdf)
C. Eigen, J. A. P. Glidden, R. Lopes, E. A. Cornell, R. P. Smith, and Z. Hadzibabic, Nature 563, 221 (2018).
See also: (1) Accompanying News and Views by Michael Kolodrubetz
               (2) Research update at physicsworld.com
               (3) Highlighted as one of the core-physics breakthroughs of 2018 by Physics World
               (4) Invited article by Sebastian Erne in Spektrum der Wissenschaft (in German)

2. Elliptic flow in a strongly interacting normal Bose gas (pdf)
R. J. Fletcher, J. Man, R. Lopes, P. Christodoulou, J. Schmitt, M. Sohmen, N. Navon, R. P. Smith, and Z. Hadzibabic, Phys. Rev. A 98, 011601(R) (2018).

3. Resonant-light diffusion in a disordered atomic layer (pdf)
R. Saint-Jalm, M. Aidelsburger, J. L. Ville, L. Corman, Z. Hadzibabic, D. Delande, S. Nascimbene, N. Cherroret, J. Dalibard, and J. Beugnon, Phys. Rev. A 97, 061801(R) (2018).

2017

1. Universal Scaling Laws in the Dynamics of a Homogeneous Unitary Bose Gas (pdf)
C. Eigen, J. A. P. Glidden, R. Lopes, N. Navon, Z. Hadzibabic, and R. P. Smith, Phys. Rev. Lett. 119, 250404 (2017).

2. Quantum Depletion of a Homogeneous Bose-Einstein Condensate (pdf)
R. Lopes, C. Eigen, N. Navon, D. Clément, R. P. Smith, and Z. Hadzibabic, Phys. Rev. Lett. 119, 190404 (2017).
See also: Accompanying Synopsis in Physics

3. Observation of Efimov Molecules Created from a Resonantly Interacting Bose Gas (pdf)
C. E. Klauss, X. Xie, C. Lopez-Abadia, J. P. D'Incao, Z. Hadzibabic, D. S. Jin, and E. A. Cornell, Phys. Rev. Lett. 119, 143401 (2017).

4. Quasiparticle Energy in a Strongly Interacting Homogeneous Bose-Einstein Condensate (pdf)
R. Lopes, C. Eigen, A. Barker, K. G. H. Viebahn, M. Robert-de-Saint-Vincent, N. Navon, Z. Hadzibabic, and R. P. Smith, Phys. Rev. Lett. 118, 210401 (2017).

5. Effects of Interactions on Bose-Einstein Condensation (pdf)
R. P. Smith in "Universal Themes of Bose-Einstein Condensation", edited by N. P. Proukakis, D. W. Snoke, and P. B. Littlewood (Cambridge University Press 2017).

6. Homogeneous Atomic Fermi Gases (pdf)
B. Mukherjee, Z. Yan, P. B. Patel, Z. Hadzibabic, T. Yefsah, J. Struck, and M. W. Zwierlein, Phys. Rev. Lett. 118, 123401 (2017).

7. Two- and three-body contacts in the unitary Bose gas (pdf)
R. J. Fletcher, R. Lopes, J. Man, N. Navon, R. P. Smith, M. W. Zwierlein, and Z. Hadzibabic, Science 355, 377 (2017).

8. Exploring the Kibble–Zurek mechanism with homogeneous Bose gases (pdf)
J. Beugnon, and N. Navon, J. Phys. B: At. Mol. Opt. Phys. 50, 022002 (2017).

2016

1. Observation of Weak Collapse in a Bose-Einstein Condensate (pdf)
C. Eigen, A. L. Gaunt, A. Suleymanzade, N. Navon, Z. Hadzibabic, and R. P. Smith, Phys. Rev. X 6, 041058 (2016).

2. Emergence of a turbulent cascade in a quantum gas (pdf)
N. Navon, A. L. Gaunt, R. P. Smith, and Z. Hadzibabic, Nature 539, 72 (2016).
See also: (1) Accompanying News and Views by Brian P. Anderson
               (2) News article at Phys.org

2015

1. Connecting Berezinskii-Kosterlitz-Thouless and BEC Phase Transitions by Tuning Interactions in a Trapped Gas (pdf)
R. J. Fletcher, M. Robert-de-Saint-Vincent, J. Man, N. Navon, R. P. Smith, K. G. H. Viebahn, and Z. Hadzibabic, Phys. Rev. Lett. 114, 255302 (2015).

2. Critical dynamics of spontaneous symmetry breaking in a homogeneous Bose gas (pdf)
N. Navon*, A. L. Gaunt*, R. P. Smith and Z. Hadzibabic, Science 347, 167 (2015).
See also: Perspective in Science by Gabriele Ferrari

2014

1. Observing properties of an interacting homogeneous Bose-Einstein condensate:
Heisenberg-limited momentum spread, interaction energy, and free-expansion dynamics (pdf)
I. Gotlibovych, T. F. Schmidutz, A. L. Gaunt, N. Navon, R. P. Smith, and Z. Hadzibabic , Phys. Rev. A 89, 061604(R) (2014).

2. Quantum Joule-Thomson Effect in a Saturated Homogeneous Bose Gas (pdf)
T. F. Schmidutz, I. Gotlibovych, A. L. Gaunt, R. P. Smith, N. Navon and Z. Hadzibabic, Phys. Rev. Lett. 112, 040403 (2014).
See also: Physics Update in Physics Today

2013

1. Stability of a Unitary Bose Gas (pdf)
R. J. Fletcher, A. L. Gaunt, N. Navon, R. P. Smith and Z. Hadzibabic, Phys. Rev. Lett. 111, 125303 (2013).

2. Effects of interactions on Bose-Einstein condensation of an atomic gas (pdf)
R. P. Smith and Z. Hadzibabic in "Physics of Quantum Fluids", edited by A. Bramati and M. Modugno (Springer 2013).

3. BKT Physics with Two-Dimensional Atomic Gases
Z. Hadzibabic and J. Dalibard in "40 Years of Berezinskii-Kosterlitz-Thouless Theory", edited by J.V. José (World Scientific 2013).

4. Bose-Einstein Condensation of Atoms in a Uniform Potential (pdf)
A. L. Gaunt, T. F. Schmidutz, I. Gotlibovych, R. P. Smith, and Z. Hadzibabic, Phys. Rev. Lett. 110, 200406 (2013).
See also: (1) Accompanying Synopsis in Physics
               (2) Research update in Physics World
               (3) Research highlight in Nature
               (4) Editors' choice in Science

5. A Superheated Bose-condensed Gas (pdf)
A. L. Gaunt*, R. J. Fletcher*, R. P. Smith, and Z. Hadzibabic, Nature Phys. 9, 271–274 (2013).
See also: (1) Accompanying News and Views by Jörg Schmiedmayer
               (2) News article at Phys.org

6. Persistent Currents in Spinor Condensates (pdf)
S. Beattie, S. Moulder, R. J. Fletcher, and Z. Hadzibabic, Phys. Rev. Lett. 110, 025301 (2013).

2012

1. Robust Digital Holography For Ultracold Atom Trapping (pdf)
A. L. Gaunt and Z. Hadzibabic, Sci. Rep. 2, 721 (2012).

2. Condensation Dynamics in a Quantum-Quenched Bose Gas (pdf)
R. P. Smith, S. Beattie, S. Moulder, R. L. D. Campbell, and Z. Hadzibabic, Phys. Rev. Lett. 109, 105301 (2012).

3. Spin-Injection Spectroscopy of a Spin-Orbit Coupled Fermi Gas (pdf)
L. W. Cheuk, A. T. Sommer, Z. Hadzibabic, T. Yefsah, W. S. Bakr, and M. W. Zwierlein Phys. Rev. Lett 109, 095302 (2012).
See also: accompanying Viewpoint (pdf) in Physics

4. Low-dimensional atomic Bose gases
Z. Hadzibabic and M. Köhl in "Ultracold Bosonic and Fermionic Gases" (edited by A. Fetter, K. Levin, and D. Stamper-Kurn), Contemporary Concepts of Condensed Matter Science 5, 95-120 (2012).

5. Quantized supercurrent decay in an annular Bose-Einstein condensate (pdf)
S. Moulder, S. Beattie, R. P. Smith, N. Tammuz, and Z. Hadzibabic, Phys. Rev. A 86, 013629 (2012).

2011

1. Condensed Fraction of an Atomic Bose Gas Induced by Critical Correlations (pdf)
R. P. Smith, N. Tammuz, R. L. D. Campbell, M. Holzmann, and Z. Hadzibabic , Phys. Rev. Lett. 107, 190403 (2011).

2. Effects of Interactions on the Critical Temperature of a Trapped Bose Gas (pdf)
R. P. Smith, R. L. D. Campbell, N. Tammuz, and Z. Hadzibabic, Phys. Rev. Lett. 106, 250403 (2011).
See also: accompanying Synopsis in Physics

3. Can a Bose Gas Be Saturated? (pdf)
N. Tammuz, R. P. Smith, R. L. D. Campbell, S. Beattie, S. Moulder, J. Dalibard, and Z. Hadzibabic, Phys. Rev. Lett. 106, 230401 (2011).
See also: (1) Research Highlight (pdf) in Nature Physics
               (2) Search and Discovery article (pdf) in Physics Today

4. Two-dimensional Bose fluids: An atomic physics perspective (reprint of the 2009 Varenna notes - see below) (pdf)
Z. Hadzibabic and J. Dalibard, Rivista del Nuovo Cimento 34, 389 (2011).

5. Spectroscopic method to measure the superfluid fraction of an ultracold atomic gas (pdf)
S. T. John, Z. Hadzibabic, and N. R. Cooper, Phys. Rev. A 83, 023610 (2011).

2010

1. Efficient production of large ³⁹K Bose-Einstein condensates (pdf)
R. L. D. Campbell, R. P. Smith, N. Tammuz, S. Beattie, S. Moulder, and Z. Hadzibabic, Phys. Rev. A 82, 063611 (2010).

2. Quantum gases: The cold reality of exclusion (pdf)
Z. Hadzibabic, Nature Physics 6, 643–644 (2010).

3. Measuring the Superfluid Fraction of an Ultracold Atomic Gas (pdf)
N. R. Cooper and Z. Hadzibabic, Phys. Rev. Lett. 104, 030401 (2010).
See also: accompanying Viewpoint (pdf) in Physics

2009

1. Two-dimensional Bose fluids: An atomic physics perspective (pdf)
Z. Hadzibabic and J. Dalibard, Lecture notes from the Varenna Summer School 23 June-3 July 2009. Published in Proceedings of the International School of Physics "Enrico Fermi", Course CLXXIII, "Nano optics and atomics: transport of light and matter waves", Edts R. Kaiser, D. Wiersma and L. Fallani. (IOS Press, Amsterdam and SIF, Bologna), 2011, pp. 273-322. (arXiv:0912.1490v2)

2008

1. The trapped two-dimensional Bose gas: from Bose–Einstein condensation to Berezinskii–Kosterlitz–Thouless physics (pdf)
Z. Hadzibabic, P. Krüger, M. Cheneau, S. P. Rath and J. Dalibard, New Journal of Physics 10, 045006 (2008).

2007

1. Critical Point of an Interacting Two-Dimensional Atomic Bose Gas (pdf)
P. Krüger, Z. Hadzibabic and J. Dalibard, Phys. Rev. Lett. 99, 040402 (2007).

2006

1. Berezinskii-Kosterlitz-Thouless Crossover in a Trapped Atomic Gas (pdf)
Z. Hadzibabic, P. Krüger, M. Cheneau, B. Battelier, and J. Dalibard, Nature 441, 1118 (2006).

2. Quantized Vortices in the Ideal Bose Gas: A Physical Realization of Random Polynomials (pdf)
Y. Castin, Z. Hadzibabic, S. Stock, J. Dalibard, and S. Stringari, Phys. Rev. Lett. 96, 040405 (2006).

3. The Atomic Bose Gas in Flatland (pdf)
Z. Hadzibabic, P. Kruger, M. Cheneau, B. Battelier, and J. Dalibard, Atomic Physics 20 (cond-mat/0609761).

2005

1. Observation of Phase Defects in Quasi-Two-Dimensional Bose-Einstein Condensates (pdf)
S. Stock, Z. Hadzibabic, B. Battelier, M. Cheneau, and J. Dalibard, Phys. Rev. Lett. 95, 190403 (2005).

2. Bose-Einstein Condensates in Fast Rotation (pdf)
S. Stock, B. Battelier, V. Bretin, Z. Hadzibabic, and J. Dalibard, Laser Phys. Lett. 2, 275 (2005).

2004

1. Interference of an Array of Independent Bose-Einstein Condensates (pdf)
Z. Hadzibabic, S. Stock, B. Battelier, V. Bretin, and J. Dalibard, Phys. Rev. Lett. 93, 180403 (2004).

2. Collisions in Zero Temperature Fermi Gases (pdf)
S. Gupta, Z. Hadzibabic, J.R. Anglin, and W. Ketterle, Phys. Rev. Lett. 92, 100401 (2004).

2003

1. Observation of Bose-Einstein Condensation of Molecules (pdf)
M. W. Zwierlein, C. A. Stan, C. H. Schunck, S. M. F. Raupach, S. Gupta, Z. Hadzibabic, and W. Ketterle, Phys. Rev. Lett. 91, 250401 (2003).

2.Fiftyfold Improvement in the Number of Quantum Degenerate Fermionic Atoms (pdf)
Z. Hadzibabic, S. Gupta, C. A. Stan, C. H. Schunck, M. W. Zwierlein, K. Dieckmann, and W. Ketterle, Phys. Rev. Lett. 91, 160401 (2003).

3. Radio-Frequency Spectroscopy of Ultracold Fermions (pdf)
S. Gupta, Z. Hadzibabic, M. W. Zwierlein, C. A. Stan, K. Dieckmann, C. H. Schunck, E. G. M. van Kempen, B. J. Verhaar, and W. Ketterle, Science 300, 1723 (2003).

4. Spectroscopic Insensitivity to Cold Collisions in a Two-State Mixture of Fermions (pdf)
M. W. Zwierlein, Z. Hadzibabic, S. Gupta, and W. Ketterle, Phys. Rev. Lett. 91, 250404 (2003).

2002

1. Decay of an Ultracold Fermionic Lithium Gas near a Feshbach Resonance (pdf)
K. Dieckmann, C. A. Stan, S. Gupta, Z. Hadzibabic, C. H. Schunck, and W. Ketterle, Phys. Rev. Lett. 89, 203201 (2002).

2. Contrast Interferometry using Bose-Einstein Condensates to Measure h/m and α (pdf)
S. Gupta, K. Dieckmann, Z. Hadzibabic, and D. E. Pritchard, Phys. Rev. Lett. 89, 140401 (2002).

3. Two-Species Mixture of Quantum Degenerate Bose and Fermi Gases (pdf)
Z. Hadzibabic, C. A. Stan, K. Dieckmann, S. Gupta, M. W. Zwierlein, A. Gorlitz, and W. Ketterle, Phys. Rev. Lett. 88, 160401 (2002).

1999

1. Evidence for a Critical Velocity in a Bose-Einstein Condensed Gas (pdf)
C. Raman, M. Köhl, R. Onofrio, D. S. Durfee, C. E. Kuklewicz, Z. Hadzibabic, and W. Ketterle, Phys. Rev. Lett. 83, 2502 (1999).