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2011 Journal Article High-power broadband laser source tunable from 3.0 mu m to 4.4 mu m based on a femtosecond Yb:fiber oscillatorNeely, Tyler W., Johnson, Todd A. and Diddams, Scott A. (2011). High-power broadband laser source tunable from 3.0 mu m to 4.4 mu m based on a femtosecond Yb:fiber oscillator. Optics Letters, 36 (20), 4020-4022. doi: 10.1364/OL.36.004020 |
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2010 Journal Article Observation of vortex dipoles in an oblate Bose-Einstein condensateNeely, T. W., Samson, E. C., Bradley, A. S., Davis, M. J. and Anderson, B. P. (2010). Observation of vortex dipoles in an oblate Bose-Einstein condensate. Physical Review Letters, 104 (16) 160401, 160401-1-160401-4. doi: 10.1103/PhysRevLett.104.160401 |
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Featured 2008 Journal Article Spontaneous vortices in the formation of Bose-Einstein condensatesWeiler, Chad N., Neely, Tyler W., Scherer, David R., Bradley, Ashton S, Davis, Matthew J. and Anderson, Brian P. (2008). Spontaneous vortices in the formation of Bose-Einstein condensates. Nature, 455 (7215), 948-951. doi: 10.1038/nature07334 |
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2007 Journal Article Vortex formation by merging of multiple trapped Bose-Einstein condensatesScherer, David R., Weiler, Chad N., Neely, Tyler W. and Anderson, Brian P. (2007). Vortex formation by merging of multiple trapped Bose-Einstein condensates. Physical Review Letters, 98 (11) 110402. doi: 10.1103/PhysRevLett.98.110402 |
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2025 Journal Article Shear-induced decaying turbulence in Bose-Einstein condensatesSimjanovski, S., Gauthier, G., Rubinsztein-Dunlop, H., Reeves, M. T. and Neely, T. W. (2025). Shear-induced decaying turbulence in Bose-Einstein condensates. Physical Review A, 111 (2) 023314. doi: 10.1103/physreva.111.023314 |
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2023 Journal Article Optimizing persistent currents in a ring-shaped Bose-Einstein condensate using machine learningSimjanovski, Simeon, Gauthier, Guillaume, Davis, Matthew J., Rubinsztein-Dunlop, Halina and Neely, Tyler W. (2023). Optimizing persistent currents in a ring-shaped Bose-Einstein condensate using machine learning. Physical Review A, 108 (6) 063306. doi: 10.1103/physreva.108.063306 |
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2023 Journal Article Viability of rotation sensing using phonon interferometry in Bose-Einstein condensatesWoffinden, Charles, Groszek, Andrew J., Gauthier, Guillaume, Mommers, Bradley J., Bromley, Michael W. J., Haine, Simon A., Rubinsztein-Dunlop, Halina, Davis, Matthew J., Neely, Tyler W. and Baker, Mark (2023). Viability of rotation sensing using phonon interferometry in Bose-Einstein condensates. SciPost Physics, 15 (4) 128, 1-22. doi: 10.21468/scipostphys.15.4.128 |
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2022 Journal Article Scaling dynamics of the ultracold Bose gasBradley, Ashton S., Clarke, Jordan, Neely, Tyler W. and Anderson, Brian P. (2022). Scaling dynamics of the ultracold Bose gas. Physical Review A, 106 (5) 053316. doi: 10.1103/physreva.106.053316 |
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Featured 2022 Journal Article Turbulent relaxation to equilibrium in a two-dimensional quantum vortex gasReeves, Matthew T., Goddard-Lee, Kwan, Gauthier, Guillaume, Stockdale, Oliver R., Salman, Hayder, Edmonds, Timothy, Yu, Xiaoquan, Bradley, Ashton S., Baker, Mark, Rubinsztein-Dunlop, Halina, Davis, Matthew J. and Neely, Tyler W. (2022). Turbulent relaxation to equilibrium in a two-dimensional quantum vortex gas. Physical Review X, 12 (1) 011031. doi: 10.1103/physrevx.12.011031 |
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2021 Journal Article Roadmap on atomtronics: state of the art and perspectiveAmico, L., Boshier, M., Birkl, G., Minguzzi, A., Miniatura, C., Kwek, L.-C., Aghamalyan, D., Ahufinger, V., Anderson, D., Andrei, N., Arnold, A. S., Baker, M., Bell, T. A., Bland, T., Brantut, J. P., Cassettari, D., Chetcuti, W. J., Chevy, F., Citro, R., De Palo, S., Dumke, R., Edwards, M., Folman, R., Fortagh, J., Gardiner, S. A., Garraway, B. M., Gauthier, G., Günther, A., Haug, T. ... Yakimenko, A. (2021). Roadmap on atomtronics: state of the art and perspective. AVS Quantum Science, 3 (3) 039201, 1-105. doi: 10.1116/5.0026178 |
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2021 Journal Article Dynamic high-resolution optical trapping of ultracold atomsGauthier, Guillaume, Bell, Thomas A., Stilgoe, Alexander B., Baker, Mark, Rubinsztein-Dunlop, Halina and Neely, Tyler W. (2021). Dynamic high-resolution optical trapping of ultracold atoms. Advances in Atomic, Molecular and Optical Physics, 70, 1-101. doi: 10.1016/bs.aamop.2021.04.001 |
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2020 Journal Article Universal dynamics in the expansion of vortex clusters in a dissipative two-dimensional superfluidStockdale, Oliver R., Reeves, Matthew T., Yu, Xiaoquan, Gauthier, Guillaume, Goddard-Lee, Kwan, Bowen, Warwick P., Neely, Tyler W. and Davis, Matthew J. (2020). Universal dynamics in the expansion of vortex clusters in a dissipative two-dimensional superfluid. Physical Review Research, 2 (3) 033138. doi: 10.1103/physrevresearch.2.033138 |
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2019 Journal Article Quantitative acoustic models for superfluid circuitsGauthier, Guillaume, Szigeti, Stuart S., Reeves, Matthew T., Baker, Mark, Bell, Thomas A., Rubinsztein-Dunlop, Halina, Davis, Matthew J. and Neely, Tyler W. (2019). Quantitative acoustic models for superfluid circuits. Physical Review Letters, 123 (26) 260402, 260402. doi: 10.1103/physrevlett.123.260402 |
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Featured 2019 Journal Article Giant vortex clusters in a two-dimensional quantum fluidGauthier, Guillaume, Reeves, Matthew T., Yu, Xiaoquan, Bradley, Ashton S., Baker, Mark A., Bell, Thomas A., Rubinsztein-Dunlop, Halina, Davis, Matthew J. and Neely, Tyler W. (2019). Giant vortex clusters in a two-dimensional quantum fluid. Science, 364 (6447), 1264-1267. doi: 10.1126/science.aat5718 |
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2018 Journal Article Phase and micromotion of Bose-Einstein condensates in a time-averaged ring trapBell, Thomas A., Gauthier, Guillaume, Neely, Tyler W., Rubinsztein-Dunlop, Halina, Davis, Matthew J. and Baker, Mark A. (2018). Phase and micromotion of Bose-Einstein condensates in a time-averaged ring trap. Physical Review A, 98 (1) 013604. doi: 10.1103/PhysRevA.98.013604 |
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2018 Journal Article Mesoscopic dynamical differences from quantum state preparation in a Bose-Hubbard trimerOlsen, M. K., Neely, T. W. and Bradley, A. S. (2018). Mesoscopic dynamical differences from quantum state preparation in a Bose-Hubbard trimer. Physical Review Letters, 120 (23) 230406, 230406. doi: 10.1103/PhysRevLett.120.230406 |
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2017 Journal Article Roadmap on structured lightRubinsztein-Dunlop, Halina, Forbes, Andrew, Berry, M. V., Dennis, M. R., Andrews, David L., Mansuripur, Masud, Denz, Cornelia, Alpmann, Christina, Banzer, Peter, Bauer, Thomas, Karimi, Ebrahim, Marrucci, Lorenzo, Padgett, Miles, Ritsch-Marte, Monika, Litchinitser, Natalia M., Bigelow, Nicholas P., Rosales-Guzman, C., Belmonte, A., Torres, J. P., Neely, Tyler W., Baker, Mark, Gordon, Reuven, Stilgoe, Alexander B., Romero, Jacquiline, White, Andrew G., Fickler, Robert, Willner, Alan E., Xie, Guodong, McMorran, Benjamin and Weiner, Andrew M. (2017). Roadmap on structured light. Journal of Optics, 19 (1) 013001, 013001. doi: 10.1088/2040-8978/19/1/013001 |
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2016 Journal Article Direct imaging of a digital-micromirror device for configurable microscopic optical potentialsGauthier, G., Lenton, I., McKay Parry, N., Baker, M., Davis, M. J., Rubinsztein-Dunlop, H. and Neely, T. W. (2016). Direct imaging of a digital-micromirror device for configurable microscopic optical potentials. Optica, 3 (10), 1136-1143. doi: 10.1364/OPTICA.3.001136 |
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2016 Journal Article Corrigendum: Bose–Einstein condensation in large time-averaged optical ring potentials (2016New J. Phys.18035003)Bell, Thomas A, Glidden, Jake A P, Humbert, Leif, Bromley, Michael W J, Haine, Simon A, Davis, Matthew J, Neely, Tyler W, Baker, Mark A and Rubinsztein-Dunlop, Halina (2016). Corrigendum: Bose–Einstein condensation in large time-averaged optical ring potentials (2016New J. Phys.18035003). New Journal of Physics, 18 (8), 089501. doi: 10.1088/1367-2630/18/8/089501 |
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2016 Journal Article Bose-Einstein condensation in large time-averaged optical ring potentialsBell, Thomas A., Glidden, Jake A. P., Humbert, Leif, Bromley, Michael W. J., Haine, Simon A., Davis, Matthew J., Neely, Tyler W., Baker, Mark A. and Rubinsztein-Dunlop, Halina (2016). Bose-Einstein condensation in large time-averaged optical ring potentials. New Journal of Physics, 18 (035003) 035003, 1-10. doi: 10.1088/1367-2630/18/3/035003 |
