Scientific Publications
Displaying 1 - 100 of 129
2023
An improved bound on the electron s electric dipole moment
Roussy T.S., L. Caldwell, T. Wright, W. Cairncross, Y. Shagam, K.B. Ng, N. Schlossberger, S.Y. Park, A. Wang, J. Ye, and E.A. Cornell, Science 381, 46-50 (2023).
Systematic and statistical uncertainty evaluation of the HfF+ electron electric dipole moment experiment
Caldwell L., T.S. Roussy, T. Wright, W.B. Cairncross, Y. Shagam, K.B. Ng, N. Schlossberger, S.Y. Park, A. Wang, J. Ye, and E.A. Cornell, Physical Review A 108, 012804 (2023).
2022
Spectroscopy on the electron-electric-dipole-moment–sensitive states of ThF +
Ng K.B., Y. Zhou, L. Cheng, N. Schlossberger, S.Y. Park, T.S. Roussy, L. Caldwell, Y. Shagam, A.J. Vigil, E.A. Cornell, and J. Ye, Physical Review A 105, 022823 (2022).
Highlights
Editor's Suggestion
2021
Experimental Constraint on Axion-like Particle Coupling over Seven Orders of Magnitude in Mass
Roussy T.S., D.A. Palken, W. Cairncross, B.M. Brubaker, D.N. Gresh, M. Grau, K.C. Cossel, K. Ng, Y. Shagam, Y. Zhou, and V.V. Flambaum, Phys. Rev. Lett. 126, 171301 (2021).
2020
Observation of Efimov Universality across a Nonuniversal Feshbach Resonance in K39
Xie X., M.J. Van de Graaff, R. Chapurin, M.D. Frye, J.M. Hutson, J.P. D’Incao, P.S. Julienne, J. Ye, and E.A. Cornell, Physical Review Letters 125, 243401 (2020).
Second-Scale Coherence Measured at the Quantum Projection Noise Limit with Hundreds of Molecular Ions
Zhou Y., Y. Shagam, W. Cairncross, K. Ng, T.S. Roussy, T. Grogan, K. Boyce, A. Vigil, M. Pettine, T. Zelevinsky, and J. Ye, Phys. Rev. Lett. 124, 053201 (2020).
Continuous temporal ion detection combined with time-gated imaging: Normalization over a large dynamic range
Shagam Y., W. Cairncross, T.S. Roussy, Y. Zhou, K. Ng, D.N. Gresh, T. Grogan, J. Ye, and E.A. Cornell, Journal Of Molecular Spectroscopy 368, 111257 (2020).
2019
Precision Test of the Limits to Universality in Few-Body Physics
Chapurin R., X. Xie, M.J. Van de Graaff, J. Popowski, J.P. D'Incao, P.S. Julienne, J. Ye, and E.A. Cornell, Physical Review Letters 123, 233402 (2019).
Can Three-Body Recombination Purify a Quantum Gas?
Dogra L., J.A.P. Glidden, T. Hilker, C. Eigen, E.A. Cornell, R.P. Smith, and Z. Hadzibabic, Physical Review Letters 123, 020405 (2019).
Visible and ultraviolet laser spectroscopy of ThF
Zhou Y., K. Ng, L. Cheng, D.N. Gresh, R.W. Field, J. Ye, and E.A. Cornell, Journal Of Molecular Spectroscopy 358, 1-16 (2019).
2018
Universal prethermal dynamics of Bose gases quenched to unitarity
Eigen C., J.A.P. Glidden, R. Lopes, E.A. Cornell, R.P. Smith, and Z. Hadzibabic, Nature 563, 221-224 (2018).
2017
Observation of Efimov Molecules Created from a Resonantly Interacting Bose Gas
Klauss C.E., X. Xie, C. Lopez-Abadia, J.P. D'Incao, Z. Hadzibabic, D.S. Jin, and E.A. Cornell, Physical Review Letters 119, 143401 (2017).
Precision Measurement of the Electron's Electric Dipole Moment Using Trapped Molecular Ions
Cairncross W., D.N. Gresh, M. Grau, K.C. Cossel, T.S. Roussy, Y. Ni, Y. Zhou, J. Ye, and E.A. Cornell, Physical Review Letters 119, 153001 (2017).
2016
Deborah S. Jin 1968-2016
DeMarco B., J.L. Bohn, and E.A. Cornell, Nature 538, 318 (2016).
Collapse and revival of the monopole mode of a degenerate Bose gas in an isotropic harmonic trap
Straatsma C.J.E., V.E. Colussi, M.J. Davis, D.S. Lobser, M.J. Holland, D.Z. Anderson, H.J. Lewandowski, and E.A. Cornell, Physical Review A 94, 043640 (2016).
Highlights
Editor’s Suggestion
Bose Polarons in the Strongly Interacting Regime
Hu M.-G., M.J. Van de Graaff, D. Kedar, J.P. Corson, E.A. Cornell, and D.S. Jin, Physical Review Letters 117, 055301 (2016).
Broadband velocity modulation spectroscopy of ThF+ for use in a measurement of the electron electric dipole moment
Gresh D.N., K.C. Cossel, Y. Zhou, J. Ye, and E.A. Cornell, Journal Of Molecular Spectroscopy 319, 1-9 (2016).
2015
Observation of a persistent non-equilibrium state in cold atoms
Lobser D.S., A.E.S. Barentine, E.A. Cornell, and H.J. Lewandowski, Nature Physics 11, 1009-1012 (2015).
Highlights
Highlighted in “Nature’s News & Views”
2014
State-specific detection of trapped HfF+ by photodissociation
Ni K.-K., H. Loh, M. Grau, K.C. Cossel, J. Ye, and E.A. Cornell, Journal Of Molecular Spectroscopy 300, 12-15 (2014).
Universal dynamics of a degenerate unitary Bose gas
Makotyn P., C.E. Klauss, D.L. Goldberger, E.A. Cornell, and D.S. Jin, Nature Physics 10, 116-119 (2014).
2013
Precision Spectroscopy of Polarized Molecules in an Ion Trap
Loh H., K.C. Cossel, M. Grau, K.-K. Ni, E.R. Meyer, J.L. Bohn, J. Ye, and E.A. Cornell, Science 342, 1220-1222 (2013).
2012
Broadband velocity modulation spectroscopy of HfF+: Towards a measurement of the electron electric dipole moment
Cossel K.C., D.N. Gresh, L.C. Sinclair, T. Coffey, L.V. Skripnikov, A.N. Petrov, N.S. Mosyagin, A.V. Titov, R.W. Field, E.R. Meyer, and E.A. Cornell, Chemical Physics Letters 546, 1-11 (2012).
Highlights
This is the cover of Chem. Phys. Lett.
REMPI spectroscopy of HfF
Loh H., R.P. Stutz, T.S. Yahn, H. Looser, R.W. Field, and E.A. Cornell, Journal Of Molecular Spectroscopy 276-277, 49-56 (2012).
Near-infrared LIF spectroscopy of HfF
Grau M., A.E. Leanhardt, H. Loh, L.C. Sinclair, R.P. Stutz, T.S. Yahn, and E.A. Cornell, Journal Of Molecular Spectroscopy 272, 32-35 (2012).
Measurements of Tan's Contact in an Atomic Bose-Einstein Condensate
Wild R.J., P. Makotyn, J.M. Pino, E.A. Cornell, and D.S. Jin, Physical Review Letters 108, 145305 (2012).
2011
High-resolution spectroscopy on trapped molecular ions in rotating electric fields: A new approach for measuring the electron electric dipole moment
Leanhardt A.E., J.L. Bohn, H. Loh, P. Maletinsky, E.R. Meyer, L.C. Sinclair, R.P. Stutz, and E.A. Cornell, Journal Of Molecular Spectroscopy 270, 1-25 (2011).
Laser-induced fluorescence studies of HfF+ produced by autoionization
Loh H., J. Wang, M. Grau, T.S. Yahn, R.W. Field, C.H. Greene, and E.A. Cornell, The Journal Of Chemical Physics 135, 154308 (2011).
Frequency Comb Velocity-Modulation Spectroscopy
Sinclair L.C., K.C. Cossel, T. Coffey, J. Ye, and E.A. Cornell, Physical Review Letters 107, 093002 (2011).
Photon counting for Bragg spectroscopy of quantum gases
Pino J.M., R.J. Wild, P. Makotyn, D.S. Jin, and E.A. Cornell, Physical Review A 83, 033615 (2011).
2010
Observation of the Presuperfluid Regime in a Two-Dimensional Bose Gas
Tung S., G. Lamporesi, D.S. Lobser, L. Xia, and E.A. Cornell, Physical Review Letters 105, (2010).
Revealing buried information: Statistical processing techniques for ultracold-gas image analysis
Segal S.R., Q. Diot, E.A. Cornell, A.A. Zozulya, and D.Z. Anderson, Physical Review A 81, 053601 (2010).
2009
Berry-like phases in structured atoms and molecules
Meyer E.R., A.E. Leanhardt, E.A. Cornell, and J.L. Bohn, Physical Review A 80, 062110 (2009).
When is a Quantum Gas a Quantum Liquid?
Pino J.M., R.J. Wild, S.B. Papp, S. Ronen, D.S. Jin, and E.A. Cornell, in Unknown (World Scientific Publishing Co. Pte. Ltd., Storrs, Connecticut, Usasingapore, 2009).
2008
Bragg Spectroscopy of a Strongly Interacting (85)Rb Bose-Einstein Condensate
Papp S.B., J.M. Pino, R.J. Wild, S. Ronen, C.E. Wieman, D.S. Jin, and E.A. Cornell, Physical Review Letters 101, (2008).
Probing Vortex Pair Sizes in the Berezinskii-Kosterlitz-Thouless Regime on a Two-Dimensional Lattice of Bose-Einstein Condensates
Tung S., E.A. Cornell, G. Lamporesi, and V. Schweikhard, in Unknown (World Scientific Publishing Co. Pte. Ltd., Telluride, Colorado, Usasingapore, 2008), pp. 3-10.
2007
Vortex Proliferation in the Berezinskii-Kosterlitz-Thouless Regime on a Two-Dimensional Lattice of Bose-Einstein Condensates
Schweikhard V., S. Tung, and E.A. Cornell, Physical Review Letters 99, (2007).
Measuring electric fields from surface contaminants with neutral atoms
Obrecht J.M., R.J. Wild, and E.A. Cornell, Physical Review A 75, (2007).
Measurement of the Temperature Dependence of the Casimir-Polder Force
Obrecht J.M., R.J. Wild, M. Antezza, L. Pitaevskii, S. Stringari, and E.A. Cornell, Physical Review Letters 98, (2007).
2006
Observation of Vortex Pinning in Bose-Einstein Condensates
Tung S., V. Schweikhard, and E.A. Cornell, Physical Review Letters 97, (2006).
Dispersive and classical shock waves in Bose-Einstein condensates and gas dynamics
Hoefer M., M.J. Ablowitz, I. Coddington, E.A. Cornell, P. Engels, and V. Schweikhard, Physical Review A 74, (2006).
2005
Measurement of the Casimir-Polder force through center-of-mass oscillations of a Bose-Einstein condensate
Harber D.M., J.M. Obrecht, J.M. McGuirk, and E.A. Cornell, Physical Review A 72, (2005).
Efficient loading of a magnetic waveguide on an atom chip
Schwindt P.D.D., E.A. Cornell, T. Kishimoto, Y.-J. Wang, and D.Z. Anderson, Physical Review A 72, (2005).
Atom Michelson Interferometer on a Chip Using a Bose-Einstein Condensate
Wang Y.-J., D.Z. Anderson, V.M. Bright, E.A. Cornell, Q. Diot, T. Kishimoto, M.G. Prentiss, R.A. Saravanan, S.R. Segal, and S. Wu, Physical Review Letters 94, (2005).
Observations on Sound Propagation in Rapidly Rotating Bose-Einstein Condensates
Simula T., P. Engels, I. Coddington, V. Schweikhard, E.A. Cornell, and R.J. Ballagh, Physical Review Letters 94, (2005).
Production Efficiency of Ultracold Feshbach Molecules in Bosonic and Fermionic Systems
Hodby E., S.T. Thompson, C.A. Regal, M. Greiner, A. Wilson, D.S. Jin, E.A. Cornell, and C.E. Wieman, Physical Review Letters 94, 120402 (2005).
2004
Experimental studies of equilibrium vortex properties in a Bose condensed gas
Coddington I., P.C. Haljan, P. Engels, V. Schweikhard, S. Tung, and E.A. Cornell, Phys. Rev. A 70, (2004).
Publisher's Note: Vortex-Lattice Dynamics in Rotating Spinor Bose-Einstein Condensates [Phys. Rev. Lett. 93, 210403 (2004)]
Schweikhard V., I. Coddington, P. Engels, S. Tung, and E.A. Cornell, Physical Review Letters 93, (2004).
Vortex-Lattice Dynamics in Rotating Spinor Bose-Einstein Condensates
Schweikhard V., I. Coddington, P. Engels, S. Tung, and E.A. Cornell, Physical Review Letters 93, (2004).
Alkali-metal adsorbate polarization on conducting and insulating surfaces probed with Bose-Einstein condensates
McGuirk J.M., D.M. Harber, J.M. Obrecht, and E.A. Cornell, Phys. Rev. A 69, (2004).
Rapidly rotating Bose-Einstein condensates in and near the lowest Landau level
Schweikhard V., I. Coddington, P. Engels, B.P. Mogendorff, and E.A. Cornell, Phys. Rev. Lett. 92, (2004).
Vortex Lattice Dynamics in a Dilute Gas BEC
Engels P., I. Coddington, V. Schweikhard, and E.A. Cornell, Journal Of Low Temperature Physics 134, 683-688 (2004).
2003
Decoherence-Driven Cooling of a Degenerate Spinor Bose Gas
Lewandowski H.J., J.M. McGuirk, D.M. Harber, and E.A. Cornell, Physical Review Letters 91, (2003).
Thermally Induced Losses in Ultra-Cold Atoms Magnetically Trapped Near Room-Temperature Surfaces
Harber D.M., J.M. McGuirk, J.M. Obrecht, and E.A. Cornell, Journal Of Low Temperature Physics 133, 229-238 (2003).
Normal-Superfluid Interaction Dynamics in a Spinor Bose Gas
McGuirk J.M., D.M. Harber, H.J. Lewandowski, and E.A. Cornell, Physical Review Letters 91, (2003).
Observation of Tkachenko Oscillations in Rapidly Rotating Bose-Einstein Condensates
Coddington I., P. Engels, V. Schweikhard, and E.A. Cornell, Physical Review Letters 91, (2003).
Simplified System for Creating a Bose-Einstein Condensate
Lewandowski H.J., D.M. Harber, D.L. Whitaker, and E.A. Cornell, Journal Of Low Temperature Physics 132, 309-367 (2003).
Observation of Long-Lived Vortex Aggregates in Rapidly Rotating Bose-Einstein Condensates
Engels P., I. Coddington, P.C. Haljan, V. Schweikhard, and E.A. Cornell, Physical Review Letters 90, (2003).
Using anisotropic compression to melt a vortex lattice in a Bose-Einstein condensate
Engels P., I. Coddington, P.C. Haljan, and E.A. Cornell, Physica B: Condensed Matter 329-333, 7-10 (2003).
Bose-Einstein Condensation in a Dilute Gas: The First 70 Years and Some Recent Experiments
Cornell E.A., and C.E. Wieman, in Unknown (World Scientific Publishing Co. Pte. Ltd., Tsinghua University, Beijing, Chinasingapore, 2003), pp. 183-222.
The Mystery of the Ramsey Fringe that Didn't Chirp
Harber D.M., H.J. Lewandowski, J.M. McGuirk, and E.A. Cornell, in Unknown (World Scientific Publishing Co. Pte. Ltd., Cambridge, Massachusetts, Usasingapore, 2003), pp. 3-10.
2002
Bose-Einstein Condensation in a Dilute Gas: The First 70 Years and Some Recent Experiments
Cornell E.A., and C.E. Wieman, International Journal Of Modern Physics B 16, 4503-4536 (2002).
Effect of cold collisions on spin coherence and resonance shifts in a magnetically trapped ultracold gas
Harber D.M., H.J. Lewandowski, J.M. McGuirk, and E.A. Cornell, Physical Review A 66, (2002).
Nonequilibrium Effects of Anisotropic Compression Applied to Vortex Lattices in Bose-Einstein Condensates
Engels P., I. Coddington, P.C. Haljan, and E.A. Cornell, Physical Review Letters 89, (2002).
Spatial Resolution of Spin Waves in an Ultracold Gas
McGuirk J.M., H.J. Lewandowski, D.M. Harber, T. Nikuni, J.E. Williams, and E.A. Cornell, Physical Review Letters 89, (2002).
Nobel Lecture: Bose-Einstein condensation in a dilute gas, the first 70 years and some recent experiments
Cornell E.A., and C.E. Wieman, Reviews Of Modern Physics 74, 875-893 (2002).
Nobel Lecture: Bose-Einstein condensation in a dilute gas, the first 70 years and some recent experiments
Cornell E.A., and C.E. Wieman, in Les Prix Nobel 2001 (unknown, 2002).
Observation of Anomalous Spin-State Segregation in a Trapped Ultracold Vapor
Lewandowski H.J., D.M. Harber, D.L. Whitaker, and E.A. Cornell, Physical Review Letters 88, (2002).
Bose-Einstein condensation: The cure for decoherence arising from inhomogeneity
Cornell E.A., in Experimental Quantum Computation And Information (IOS Press, 2002), pp. 121-132.
2001
Dynamics of collapsing and exploding Bose-Einstein condensates
Donley E.A., N.R. Claussen, S.L. Cornish, J.L. Roberts, E.A. Cornell, and C.E. Wieman, Nature 412, 295-299 (2001).
Driving Bose-Einstein-Condensate Vorticity with a Rotating Normal Cloud
Haljan P.C., I. Coddington, P. Engels, and E.A. Cornell, Physical Review Letters 87, (2001).
Controlled Collapse of a Bose-Einstein Condensate
Roberts J.L., N.R. Claussen, S.L. Cornish, E.A. Donley, E.A. Cornell, and C.E. Wieman, Physical Review Letters 86, 4211-4214 (2001).
Use of Surface-Wave Spectroscopy to Characterize Tilt Modes of a Vortex in a Bose-Einstein Condensate
Haljan P.C., B.P. Anderson, I. Coddington, and E.A. Cornell, Physical Review Letters 86, 2922-2925 (2001).
Watching Dark Solitons Decay into Vortex Rings in a Bose-Einstein Condensate
Anderson B.P., P.C. Haljan, C.A. Regal, D.L. Feder, L.A. Collins, C.W. Clark, and E.A. Cornell, Physical Review Letters 86, 2926-2929 (2001).
Magnetic switch for integrated atom optics
Müller D., E.A. Cornell, M. Prevedelli, P.D.D. Schwindt, Y.-J. Wang, and D.Z. Anderson, Physical Review A 63, (2001).
85Rb BEC near a Feshbach resonance
Claussen N.R., S.L. Cornish, J.L. Roberts, E.A. Cornell, and C.E. Wieman, in Unknown (AIP, Florence, Itlay, 2001).
Ultra-low temperature magnifying glass: how Bose-Einstein condensation makes quantum mechanics visible
Cornell E.A., and P.C. Haljan, in Unknown (2001).
2000
Vortex Precession in Bose-Einstein Condensates: Observations with Filled and Empty Cores
Anderson B.P., P.C. Haljan, C.E. Wieman, and E.A. Cornell, Physical Review Letters 85, 2857-2860 (2000).
Waveguide atom beam splitter for laser-cooled neutral atoms
Müller D., E.A. Cornell, M. Prevedelli, P.D.D. Schwindt, A.A. Zozulya, and D.Z. Anderson, Optics Letters 25, 1382 (2000).
Stable (85)Rb Bose-Einstein Condensates with Widely Tunable Interactions
Cornish S.L., N.R. Claussen, J.L. Roberts, E.A. Cornell, and C.E. Wieman, Physical Review Letters 85, 1795-1798 (2000).
Guiding laser-cooled atoms in hollow-core fibers
Müller D., E.A. Cornell, D.Z. Anderson, and E.R.I. Abraham, Physical Review A 61, (2000).
Excitation of a dipole topological state in a strongly coupled two-component Bose-Einstein condensate
Williams J.E., R. Walser, J. Cooper, E.A. Cornell, and M.J. Holland, Physical Review A 61, (2000).
1999
Guiding Neutral Atoms Around Curves with Lithographically Patterned Current-Carrying Wires
Müller D., D.Z. Anderson, R. Grow, P.D.D. Schwindt, and E.A. Cornell, Physical Review Letters 83, 5194-5197 (1999).
Watching a Superfluid Untwist Itself: Recurrence of Rabi Oscillations in a Bose-Einstein Condensate
Matthews M.R., B.P. Anderson, P.C. Haljan, D.S. Hall, M.J. Holland, J.E. Williams, C.E. Wieman, and E.A. Cornell, Physical Review Letters 83, 3358-3361 (1999).
Vortices in a Bose-Einstein Condensate
Matthews M.R., B.P. Anderson, P.C. Haljan, D.S. Hall, C.E. Wieman, and E.A. Cornell, Physical Review Letters 83, 2498-2501 (1999).
Measurements of relative phase and quantum beat note between Bose-Einstein condensates
Hall D.S., M.R. Matthews, C.E. Wieman, and E.A. Cornell, in (Elsevier Science \& Technology Books, 1999).
Nonlinear Josephson-type oscillations of a driven, two-component Bose-Einstein condensate
Williams J.E., R. Walser, J. Cooper, E.A. Cornell, and M.J. Holland, Physical Review A 59, R31 - R34 (1999).
Seventy Years Later: The Creation of a Bose-Einstein Condensate in an Ultracold Gas
Wieman C.E., and E.A. Cornell, in Unknown (1999).
Trapping and cooling of potassium isotopes in a double-magneto-optical-trap apparatus
Prevedelli M., F.S. Cataliotti, E.A. Cornell, J.R. Ensher, C. Fort, L. Ricci, G.M. Tino, and M. Inguscio, Physical Review A 59, 886-888 (1999).
1998
Resonant Magnetic Field Control of Elastic Scattering in Cold 85Rb
Roberts J.L., N.R. Claussen, J.P. Burke Jr., C.H. Greene, E.A. Cornell, and C.E. Wieman, Physical Review Letters 81, 5109-5112 (1998).
Having It Both Ways: Distinguishable Yet Phase-Coherent Mixtures of Bose-Einstein Condensates
Cornell E.A., D.S. Hall, M.R. Matthews, and C.E. Wieman, Journal Of Low Temperature Physics 113, 151-165 (1998).
Efficient directional spontaneous emission from an InGaAs/InP heterostructure with an integral parabolic reflector
Gfroerer T.H., E.A. Cornell, and M.W. Wanlass, Journal Of Applied Physics 84, 5360 (1998).
Dynamical Response of a Bose-Einstein Condensate to a Discontinuous Change in Internal State
Matthews M.R., D.S. Hall, D.S. Jin, J.R. Ensher, C.E. Wieman, E.A. Cornell, F. Dalfovo, C. Minniti, and S. Stringari, Physical Review Letters 81, 243-247 (1998).
Dynamics of Component Separation in a Binary Mixture of Bose-Einstein Condensates
Hall D.S., M.R. Matthews, J.R. Ensher, C.E. Wieman, and E.A. Cornell, Physical Review Letters 81, 1539-1542 (1998).
Measurements of Relative Phase in Two-Component Bose-Einstein Condensates
Hall D.S., M.R. Matthews, C.E. Wieman, and E.A. Cornell, Physical Review Letters 81, 1543-1546 (1998).
The Bose-Einstein Condensate
Cornell E.A., and C.E. Wieman, Scientific American 278, 40-45 (1998).
Magneto-optical trapping of Fermionic potassium atoms
Cataliotti F.S., E.A. Cornell, C. Fort, M. Inguscio, F. Marin, M. Prevedelli, L. Ricci, and G.M. Tino, Physical Review A 57, 1136-1138 (1998).
Teflon Feedthrough for Coupling Optical Fibers Into Ultrahigh Vacuum Systems
Abraham E.R.I., and E.A. Cornell, Applied Optics 37, 1762 (1998).
Towards quantum degeneracy of bosonic and fermionic potassium atoms
Tino G.M., F.S. Cataliotti, E.A. Cornell, C. Fort, M. Inguscio, and M. Prevedelli, in Unknown (IOS Press EBooks, 1998).
Progress towards laser cooling in semiconductors
Gfroerer T.H., E.A. Cornell, and M.W. Wanlass, in Radiative Processes And Dephasing In Semiconductors (OSA, Coeur D'alene, Idaho, 1998).