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| 58 | Yumin Shen, A. Goebel, G. Khitrova, H. Gibbs, and Hailin Wang, Nearly degenerate time-resolved Faraday rotation in semiconductors, accepted for Phys. Rev. B (2005). |
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| 57 | Phedon Palinginis, Shanna Crankshaw, Forrest Sedgwick, Eui-Tae Kim, Michael Moewe, Connie J. Chang-Hasnain, Hailin Wang, and Shun-Lien Chuang, Ultraslow light (<200 m/s) propagation in a semiconductor nanostructure, Appl. Phys. Lett. 87, 171102 (2005). | |
| 56 | Susanta Sarkar, P.C. Ku, C. J. Chang-Hasnain, N.H. Kwong, R. Binder, and Hailin Wang, Inducing electron spin coherence in a quantum well waveguide: Spin coherence without spin precession, Phys. Rev. B72, 035343 (2005). |
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| 55 | Phedon Palinginis and Hailin Wang, Coherent Raman resonance from electron spin coherence in GaAs quantum wells, Phys. Rev. B70, 153307 (2004). |
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| 54 | Phedon Palinginis, Hailin Wang, Serguei Gupalov, D.S. Citrin, M. Dobrowolska, and J. Furdyna, Exciton dephasing in self-assembled CdSe quantum dots, Phys. Rev. B. 70, 073302 (2004). |
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| 53 | S. W. Chang, S. L. Chuang, P.C. Ku, C. J. Chang-Hasnain, Phedon Palinginis, and Haillin Wang, Slow light and polarization dependence of population oscillation in GaAs quantum wells, Phys. Rev. B 70, 235333 (2004) (2004). |
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| 52 | P.C. Ku, F. G. Sedgwick, C. J. Chang-Hasnain, Phedon Palinginis, Tao Li, Hailin Wang, S. W. Chang, and S. L. Chuang Slow light via population oscillation in semiconductor quantum wells, Opt. Lett. 29, 2291 (2004). |
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| 51 | Mark Phillips and Hailin Wang, Exciton spin coherence and electromagnetically induced transparency in the transient optical response of GaAs quantum wells, Phys. Rev. B69, 115337 (2004). |
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| 50 | Phedon Palinginis and Hailin Wang, Vanishing and emerging of absorption quantum beats from electron spin coherence in GaAs quantum wells, Phys. Rev. Lett. 92, 037402 (2004). | |
| 49 | Tao Li, Hailin Wang, N.H. Kwong, and R. Binder, Electromagnetically induced transparency from electron spin coherence in a quantum well waveguide, Opt. Express 11, 3298 (2003). | |
| 48 | Mark Phillips, Hailin Wang, I. Rumyantsev, N.H. Kwong, R. Takayama, and R. Binder, Electromagnetically induced transparency in semiconductors via biexciton coherence, Phys. Rev. Lett. 91, 183602 (2003). | |
| 47 | Scott Lacey, Hailin Wang, David Foster, Jens Noeckel, Directional evanescent escape from nearly spherical optical resonators, Phys. Rev. Lett. 91, 033902 (2003). | |
| 46 | Phedon Palinginis, Sahsa Tavenner, Mark Lonergan, and Hailin Wang, Spectral hole burning and zero-phonon linewidth in semiconductor nanocrystals, Phys. Rev. B67 Rapid Comm., 201307 (2003). |
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| 45 | Mark Phillips and Hailin Wang, Electromagnetically induced transparency due to intervalence band coherence in semiconductors, Optics Lett. 28, 831 (2003). |
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| 44 | Mark Phillips and Hailin Wang, Spin coherence and electromagnetically induced transparency via exciton correlations, Phys. Rev. Lett. 89, 186401 (2002). | |
| 43 | Scott Lacey and Hailin Wang, Directional emission from whispering-gallery modes in deformed fused-silica microspheres, Opt. Lett. 26, 1943-1945 (2001). |
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| 42 | Xudong Fan, Mark Lonergan, Y. Zhang, and Hailin Wang, Controlling optical interactions in semiconductor microcavities using whispering gallery optical cavities, Phys. Rev. B64, 115310 (2001). |
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| 41 | Phedon Palinginis and Hailin Wang, High resolution spectral hole burning in CdSe/ZnS core/shell nanocrystals, Appl. Phys. Lett. 78, 1541 (2001). | |
| 40 | T. Meier, S.W. Koch, Mark Phillips, and Hailin Wang, Strong coupling of heavy- and light-hole excitons induced by many-body correlations, Phys. Rev. B62, 12605 (2000). |
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| 39 | Xudong Fan, Scott Lacey, Phedon Palinginis, Hailin Wang, and Mark Lonergan Coupling semiconductor nanocrystals to a fused silica microsphere: A quantum dot microcavity with extremely high Q-factors, Opt. Lett. 25, 1600 (2000). |
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| 38 | D.G. Steel and Hailin Wang, Dephasing of optically induced excitonic coherence in semiconductor heterostructures, Appl. Phys. A71, 519 (2000). | |
| 37 | T. A. Brun and Hailin Wang, Coupling nanocrystals to high-Q silica microspheres: entanglement in quantum dots via photon exchange, Phys. Rev. A61, 323071 (2000). |
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| 36 | Xudong Fan, Scott Lacey, and Hailin Wang, Microcavities combining a semiconductor heterostructures with a fused silica microsphere, Opt. Lett. 24, 771 (1999). |
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| 35 | Mark Phillips and Hailin Wang, Coherent oscillations in four-wave mixing of interacting excitons, Solid State Comm. 108, 857 (1999). | |
| 34 | Xudong Fan, Hailin Wang, H.Q. Hou, and B.E. Hammons, Biexcitonic effects in the nonperturbative regime of semiconductor microcavities, Phys. Rev. B57 Rapid Comm., 9451 (1998). |
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| 33 | Xudong Fan, T. Takagahara, J.E. Cunningham, and Hailin Wang, Pure dephasing induced by exciton-phonon interactions in narrow GaAs quantum wells, Solid State Comm. 108, 857 (1998). | |
| 32 | Xudong Fan, Andrew Doran, and Hailin Wang, High-Q whispering gallery modes from a composite system of GaAs quantum well and fused silica microsphere, Appl. Phys. Lett. 73, 3190 (1998). | |
| 31 | Hailin Wang, H.Q. Hou, and B.E. Hammons, Coherent dynamics of excitonic nonlinear optical response in the nonperturbative regime, Phys. Rev. Lett. 81, 3255 (1998). | |
| 30 | Hailin Wang, Y.-T. Chough, S.E. Palmer, and H. Carmichael, Normal mode oscillation in the presence of inhomogeneous broadening, Optics Express 1, 370 (1997). | |
| 29 | Xudong Fan, Hailin Wang, H.Q. Hou, and B.E. Hammons, Laser emission from semiconductor microcavities: transition from nonperturbative to perturbative regimes, Phys. Rev. B56, 15256 (1997). |
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| 28 | Xudong Fan, Hailin Wang, H.Q. Hou, and B.E. Hammons, Laser emission from semiconductor microcavities: the role of cavity-polaritons, Phys. Rev. A56, 3233 (1997). |
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| 27 | A. Ivanov, Hailin Wang, Jagdeep Shah, T.C. Damen, L.V. Keldysh, H. Haug, and L. Pfeiffer, Coherent transient in photoluminescence of excitonic molecules in GaAs quantum wells, Phys. Rev. B56, 3941 (1997). |
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| 26 | Hailin Wang, Jagdeep Shah, T.C. Damen, A. Ivanov, and L. Pfeiffer, Transient optical emission from excitonic molecules in GaAs quantum wells: coherent quantum evolution in momentum space, Solid State Comm. 98, 807 (1996). | |
| 25 | T.C. Damen, M. Fritze, A. Kastalsky, J.E. Cunningham, R.N. Pathak, Hailin Wang, J. Shah, Time-resolved study of carrier capture and recombination in monolayer Be _-doped GaAs, Appl. Phys. Lett. 67, 515 (1995). | |
| 24 | Hailin Wang, Jagdeep Shah, T.C. Damen, L.N. Pfeiffer, and J.E. Cunningham, Femtosecond dynamics of excitons in quantum wells and quantum well microcavities, Phys. Stat. Sol. b188, 381 (1995). | |
| 23 | Hailin Wang, Jagdeep Shah, T.C. Damen, W.Y. Jan, J.E. Cunningham, and M.H. Hong, Coherent oscillations in semiconductor microcavities, Phys. Rev. B51, 14713 (1995). |
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| 22 | Hailin Wang, Jagdeep Shah, T.C. Damen, and L. Pfeiffer, Spontaneous emission of excitons in GaAs quantum wells: the role of momentum scattering, Phys. Rev. Lett. 74, 3065 (1995). | |
| 21 | Hailin Wang, Jagdeep Shah, T.C. Damen, S. Pierson, T. Reinecke, and L. Pfeiffer, Carrier-distribution dependent band gap renormalization in modulation-doped GaAs quantum wells, Phys. Rev. B52 Rapid Comm., 17013 (1995). |
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| 20 | Y.Z. Hu, R. Binder, S.W. Koch, S.T. Cundiff, Hailin Wang, and D.G. Steel, Excitation and polarization effects in semiconductor four-wave-mixing spectroscopy, Phys. Rev. B49, 14382 (1994). |
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| 19 | Hailin Wang, K.B. Ferrio, D.G. Steel, P.R. Berman, Y.Z. Hu, R. Binder, and S.W. Koch, Transient four wave mixing line shapes: Effects of excitation induced dephasing, Phys. Rev. A49 Rapid Comm., 1551 (1994). |
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| 18 | Hailin Wang, Jagdeep Shah, T.C. Damen, and L. Pfeiffer, Polarization dependent coherent nonlinear optical response in GaAs quantum wells: Dominant effects of two-photon coherence between the ground and biexciton states, Solid State Comm. 91, 869 (1994). | |
| 17 | M.J. Freeman, Hailin Wang, D.G. Steel, R. Craig, and D.R. Scifers, Amplitude squeezed light from quantum well lasers, Optics Lett. 18, 379 (1993). |
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| 16 | M.J. Freeman, Hailin Wang, D.G. Steel, R. Craig, and D.R. Scifers, Wavelength-tunable amplitude squeezed light from a room temperature quantum well laser, Optics Lett. 18, 2141 (1993). |
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| 15 | M. Jiang, Hailin Wang, R. Merlin, M. Cardona, and D.G. Steel, Nonlinear optical spectroscopy in GaAs: Magnetic free out of excitons, Phys. Rev. B48 Rapid Comm., 15476 (1993). |
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| 14 | Hailin Wang, K.B. Ferrio, D.G. Steel, Y.Z. Hu, R. Binder, and S.W. Koch, Transient nonlinear optical response from excitation induced dephasing in GaAs, Phys. Rev. Lett. 71, 1261 (1993). | |
| 13 | Hailin Wang, M.J. Freeman, and D.G. Steel, Squeezed light from injection-locked quantum well lasers, Phys. Rev. Lett. 71, 3951 (1993). | |
| 12 | Joseph V. Mersol, Hailin Wang, Duncan G. Steel, and Ari Gafni, Consideration of dipole orientation angles yields accurate equations for energy transfer rates in the rapid diffusion limit, Biophysical Journal 61, 1647 (1992). | |
| 11 | M. Jiang, Hailin Wang, and D.G. Steel, Nonlinear optical absorption and dynamics in quantum wells, Appl. Phys. Lett. 61, 1301 (1992). | |
| 10 | S.T. Cundiff, Hailin Wang, and D.G. Steel, Polarization dependent picosecond excitonic nonlinearities and the complexities of disorder, Phys. Rev. B46 Rapid Comm., 7248 (1992). |
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| 9 | Hailin Wang, M. Jiang, R. Merlin, and D.G. Steel, Spin-flip induced hole burning in GaAs quantum wells: Measurement of exciton Zeeman splitting, Phys. Rev. Lett. 69, 804 (1992). | |
| 8 | Hailin Wang and D. G. Steel, High resolution laser spectroscopy of exciton relaxation in GaAs quantum wells, Applied Physics A53, 514 (1991). | |
| 7 | Hailin Wang and D. G. Steel, Effects of spectral diffusion on frequency domain four wave mixing spectroscopy, Phys. Rev. A 43, 3823 (1991). |
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| 6 | J.T. Remillard, Hailin Wang, M.D.Webb, D.G. Steel, Frequency domain four-wave mixing spectroscopy of temperature and optical intensity dependent relaxation in CdSe microcrystallite doped glass, J. Opt. Soc. Am. B7, 897 (1990). | |
| 5 | Hailin Wang, J.T. Remillard, M.D. Webb, and D.G. Steel, High resolution laser spectroscopy of relaxation and the excitation line shape of excitons in GaAs quantum well structures, Surf. Sci. 228, 69 (1990). | |
| 4 | Hailin Wang, M. Jiang, and D. G. Steel, Measurement of phonon assisted migration of localized excitons in GaAs/AlGaAs multiple quantum well structures, Phys. Rev. Lett. 65, 1255 (1990). | |
| 3 | J.T. Remillard, Hailin Wang, M.D. Webb, D.G. Steel, Optical phase conjugation and nonlinear optical band pass filter characteristics in CdSe microcrystallite doped glass, IEEE J. Quant. Elec. 25, 408, (1989). | |
| 2 | J.T. Remillard, Hailin Wang, M.D. Webb, D.G. Steel, J. Oh, J. Pamulapati, P.K. Bhattacharya, High resolution nonlinear laser spectroscopy of room temperature GaAs quantum well structures: Observation of interference effects, Optics Lett. 14, 1131 (1989). |
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| 1 | J.T. Remillard, Hailin Wang, D.G. Steel, J. Oh, J. Pamulapati, and P.K. Bhattacharya, High resolution nonlinear laser spectroscopy of the heavy hole exciton in a GaAs/AlGaAs quantum well structure: A direct measure of the exciton line shape, Phys. Rev. Lett. 62, 2861 (1989). |