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Quantum Gas Lab @ Seoul National University |
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Publications (2001 ~ 2010) RF Spectroscopy of a Resonantly-interacting
Fermi Gas Y. Shin Journal of the Korean Physical Society 57, 395 (2010). Suppression of Density Fluctuations in a
Quantum Degenerate Fermi Gas C. S. Sanner, E. J. Su, A. Keshet, R. Gommers, Y. Shin,
W. Huang, and W. Ketterle Physical Review Letters 105, 040402 (2010). Surprise in the strong regime Y. Shin Nature 463, 1029 (2010). Mapping the phase diagram of a two-component
Fermi gas with strong interactions Y. Shin, A. Schirotzek, C. H. Schunck, and W. Ketterle Proceedings of the XXI International Conference on Atomic
physics, pp.230-239 (World Scientific, 2009). Superfluidity in a gas of strongly
interacting fermions W. Ketterle, Y. Shin, A. Schirotzek, and C. H. Schunck Journal of Physics: Condensed Matter 21, 164206 (2009). Determination of the Superfluid Gap in Atomic
Fermi Gases by Quasiparticle Spectroscopy A. Schirotzek, Y. Shin, C. H. Schunck, and W. Ketterle Physical Review Letters 101, 140403 (2008). Trapping of ultracold atoms in a hollow-core
photonic crystal fiber C. A. Christensen, S. Will, M. Saba, G.-B. Jo, Y. Shin,
W. Ketterle, and D. Pritchard Physical Review A 78, 033429 (2008). Realization of a strongly interacting
Bose-Fermi mixture with a two-component Fermi gas Y. Shin, C. H. Schunck, A. Schirotzek, and W. Ketterle Physical Review Letters 101, 070404 (2008). Determination of the fermion pair size in a
resonantly interacting superfluid C. H. Schunck, Y. Shin, A. Schirotzek, W. Ketterle Nature 454, 739 (2008). Determination of the equation of state of a
polarized Fermi gas at unitarity Y. Shin Physical Review A 77, 041603(R) (2008). Phase diagram of a two-component Fermi gas
with resonant interactions Y. Shin, C. H. Schunck, A. Schirotzek, and W. Ketterle Nature 451, 689 (2008). Tomographic rf Spectroscopy of a Trapped
Fermi Gas at Unitarity Y. Shin, C. H. Schunck, A. Schirotzek, and W. Ketterle Physics Review Letters 99, 090403 (2007). Fermi gases go with the superfluid flow W. Ketterle and Y. Shin Physics World 20, 39 (June 2007). Pairing without Superfluidity: The Ground
State of an Imbalanced Fermi Mixture C. H. Schunck, Y. Shin, A. Schirotzek, M.W. Zwierlein,
and W. Ketterle Science 316, 867 (2007). Long Phase Coherence Time and Number
Squeezing of Two Bose-Einstein condensates on an Atom Chip G.-B. Jo, Y. Shin, S. Will, T.A. Pasquini, M. Saba, W.
Ketterle, D.E. Pritchard, M. Vengalattore, and M. Prentiss Physical Review Letters 98, 030407 (2007). Low Velocity Quantum Reflection of
Bose-Einstein Condensates T.A. Pasquini, M. Saba, G.-B. Jo, Y. Shin, W. Ketterle,
D.E. Pritchard, T.A. Savas, and N. Mulders Physical Review Letters 97, 093201 (2006). Observation of Phase Separation in a Strongly
Interacting Imbalanced Fermi Gas Y. Shin, M.W. Zwierlein, C. H. Schunck, A. Schirotzek,
and W. Ketterle Physical Review Letters 97, 030401 (2006). Optical Weak Link between Two Spatially
Separate Bose-Einstein Condensates Y. Shin, G.-B. Jo, M. Saba , T.A. Pasquini, W. Ketterle,
and D.E. Pritchard Physical Review Letters 95, 170402 (2005). Interference of Bose-Einstein condensates
split with an atom chip Y. Shin, C. Sanner, G.-B. Jo, T.A. Pasquini, M. Saba, W.
Ketterle, D.E. Pritchard, M. Vengalattore, and M. Prentiss Physical Review A 72, 021604(R) (2005). Light Scattering to Determine the Relative
Phase of Two Bose-Einstein Condensates M. Saba, T.A. Pasquini, C.Sanner, Y. Shin, W. Ketterle,
and D.E. Prichard Science 307, 1945 (2005). Quantum Reflection from a Solid Surface at
Normal Incidence T.A. Pasquini, Y. Shin, C. Sanner, M. Saba, A.
Schirotzek, D.E. Prichard, and W. Ketterle Physical Review Letters 93, 223201 (2004). Dynamical Instability of a Doubly Quantized
Vortex in a Bose-Einstein condensate Y. Shin, M. Saba, M. Vengalattore, T.A. Pasquini, C.
Sanner, A.E. Leanhardt, M. Prentiss, D.E. Prichard, and W. Ketterle Physical Review Letters 93, 160406 (2004). Distillation of Bose-Einstein Condensates in
a Double-Well Potential Y. Shin, M. Saba, A. Schirotzek, T. A. Pasquini, A. E.
Leanhardt, D. E. Pritchard, and W. Ketterle Physical Review Letters 92, 150401 (2004). Atom Interferometry with Bose-Einstein Condensates
in a Double-Well Potential Y. Shin, M. Saba, T. A. Pasquini, W. Ketterle, D. E.
Pritchard, and A. E. Leanhardt Physical Review Letters 92, 050405 (2004). Cooling Bose-Einstein Condensates Below 500
Picokelvin A. E. Leanhardt, T. A. Pasquini, M. Saba, A. Schirotzek,
Y. Shin, D. Kielpinski, D. E. Pritchard, and W. Ketterle Science 301, 1513 (2003). Diffraction-limited optical dipole trap with
a hollow optical fiber Y. Shin, M. Heo, J.-W. Kim, W. Shim, H.-R. Noh, and W.
Jhe Journal of the Optical Society of America B 20, 937
(2003). Coreless Vortex Formation in a Spinor
Bose-Einstein Condensate A. E. Leanhardt, Y. Shin, D. Kielpinski, D. E. Pritchard,
and W. Ketterle Physical Review Letters 90, 140403 (2003). Bose-Einstein Condensates near a
Microfabricated Surface A. E. Leanhardt, Y. Shin, A. P. Chikkatur, D. Kielpinski,
W. Ketterle, and D. E. Pritchard Physical Review Letters 90, 100404 (2003). Imprinting Vortices in a Bose-Einstein
Condensate using Topological Phases A. E. Leanhardt, A. Görlitz, A. P. Chikkatur, D.
Kielpinski, Y. Shin, D. E. Pritchard, and W. Ketterle Physical Review Letters 89, 190403 (2002). A Continuous Source of Bose-Einstein
Condensed Atoms A. P. Chikkatur, Y. Shin, A. E. Leanhardt, D. Kielpinski,
E. Tsikata, T. L. Gustavson, D. E. Pritchard, and W. Ketterle Science 296, 2193 (2002). Propagation of Bose-Einstein Condensates in a
Magnetic Waveguide A. E. Leanhardt, A. P. Chikkatur, D. Kielpinski, Y. Shin,
T. L. Gustavson, W. Ketterle, and D. E. Pritchard Physical Review Letters 89, 040401 (2002). Diffraction-limited dark laser spot produced
by a hollow optical fiber Y. Shin, K. Kim, J.-A. Kim, H.-R. Noh, W. Jhe, K. Oh,
and U.-C. Paek Optics Letters 26, 119 (2001).
QGL@SNU, Seoul 151-747, Korea. Tel +82(2)880-4233 |