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研究領域 |
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凝聚態系統中的強相關聯物理
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量子流體(包括冷原子/分子)的多體物理系統
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半導體電子系統(基本激發態,激子交互作用)
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超導與超流物理
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介觀物理系統
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學習經歷 |
- 美國馬里蘭大學物理系博士 (1995/09-2000/06)
- 國立清華大學物理系學士 (1991/09-1995/06)
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現職與經歷 |
現職:國立清華大學物理系教授 (2010/08- )
國家理論科學研究中心(物理組)副主任
(2015/01-)
國立清華大學通識中心合聘教授 (2015/02-)
經歷:
- 國立清華大學物理系副教授 (2005/02- 2010/07)
- 國立清華大學國家理論科學研究中心訪問學者 (2004/09-2005/01)
- 美國哈佛大學物理系博士後研究員 (2002-2004)
- 美國馬里蘭大學物理系博士後研究員 (2000-2002)
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榮譽與獎項 |
- 國科會優秀年輕學者研究計畫(2011-2015)
- 香港大學崔琦講座基金(2008年)
- 國科會吳大猷先生紀念獎 (2008 年)
- 中央研究院年輕學者研究著作獎(2008年)
- 清華大學新進人員研究獎(2007年)
- 國家理論中心年輕理論學者獎 (2007年)
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研究興趣與成果 |
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Updated
on Aug 3, 2015
我個人的研究興趣是在研究強相關聯的半導體或極冷原子系統中的基態與基本激發態性質。最近主要是集中在極冷的極性分子與黎德堡原子的多體物理問題,並且延伸至自旋軌到耦合系統。
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近年論文著作(2010-2015) |
- [21] Jun-hui Zheng, Bo Xiong, Gediminas Juzeliūnas, and Daw-Wei Wang, Topological condensate in an interaction-induced gauge potential, Phys. Rev. A 92, 013604 (2015)
- [20] Jhih-Shih You*, Daw-Wei Wang, and Miguel A. Cazalilla, Electron-spin to phonon coupling in graphene decorated with heavy adatoms, Phys. Rev. B 92, 035421 (2015)
- [19] Bo Xiong*, Junhui Zheng, and Daw-Wei Wang, Nonadiabatic multichannel dynamics of a spin-orbit coupled condensate, Phys. Rev. A 91, 063602 (2015)
- [18] H.-H. Jen*, and Daw-Wei Wang, Extracting Dynamical Green’s Function of Ultracold Quantum Gases via Electromagnetically Induced Transparency , J. of the Optical Society of America B 31, 2931 (2014)
- [17] Bo Xiong*, H. H. Jen, and Daw-Wei Wang, Topological superfluid by blockade effects in a Rydberg-dressed Fermi gas, Phys. Rev. A 90, 013631 (2014)
- [16] Jhih-Shih You* and Daw-Wei Wang, Many-body formation and dissociation of a dipolar chain crystal, New Journal of Physics 16, 073041 (2014).
- [15] H.-H. Jen*, B. Xiong, Ite Yu, and Daw-Wei Wang, Electromagnetic induced transparency and slow light in interacting quantum degenerate atomic gases, J. of the Optical Society of America B 30, 2855 (2013).
- [14] H. H. Jen* and Daw-Wei Wang, Theory of electromagnetically induced
transparency in strongly correlated quantum gases, Phys. Rev. A 87, 061802(R) (2013)
- [13] J.-S. You, H. Li, S. Fang, M.A. Cazalilla, and D.-W. Wang*, Tuning the Kosterlitz- Thouless transition to zero temperature in Anisotropic Boson Systems, Phys. Rev. A 86, 043612 (2012)
- [12] C.-H. Wang, T.-M. Hong, R.-K. Lee*, and D.-W. Wang, Particle-wave duality in quantum tunneling of a bright soliton, Optics Express 20, 22675 (2012)
- [11] S.-J. Huang, Y. - T. Hsu, H. Lee, Y.-C. Chen, A.G. Volosniev, N.T. Zinner, and D.-W. Wang*, Field-induced long-lived supermolecules, Phys. Rev. A 85, 055601 (2012)
- [10] N. T. Zinner*, B. Wunsch, D. Pekker, and D.-W. Wang, BCS-BEC crossover in bilayers of cold fermionic polar molecules, Phys. Rev. A 85, 013603 (2012).
- [9] N. T. Zinner*, B. Wunsch, I. B. Mekhov, S.-J. Huang, D.-W. Wang, and E. Demler, Few-Body Bound Complexes in One-dimensional Dipolar Gases and Non-Destructive Optical Detection, Phys. Rev. A 84, 063606 (2012).
- [8] B. Wunsch*, N. T. Zinner, I. B. Mekhov, S.-J. Huang, D.-W. Wang, and E. Demler, Few-Body Bound States in Dipolar Gases and Their Detection, Phys. Rev. Lett. 107, 073201 (2011).
- [7] Shiang Fang*, Chia-Ming Chung, Ping Nang Ma, Pochung Chen, and Daw-Wei Wang, Quantum Criticality from in-situ Density Imaging, Phys. Rev. A 83, 031605(R) (2011).
- [6] Andrew C. Potter*, Erez Berg, Daw-Wei Wang, Bertrand I. Halperin, Eugene Demler, Superfluidity and dimerization in a multilayered system of fermionic polar molecules, Phys. Rev. Lett. 105, 220406 (2010).
- [5] Yi-Ya Tian and Daw-Wei Wang*, Confinement induced quantum melting and polarization cooling for a 2D dipolar crystal, Europhys. Lett. 91, 66006 (2010).
- [4] Shiang Fang, Ray-Kuang Lee, and Daw-Wei Wang*, Quantum fluctuations and condensate fraction during the time-of-flight expansion, Phys. Rev. A 82, 031601(R) (2010).
- [3] Bin Wang*, Daw-Wei Wang, and S. Das Sarma, Bose-Fermi solid and its quantum melting in a one-dimensional optical lattice, Phys. Rev. A 82, 021602(R) (2010).
- [2] Chao-Chun Huang, Daw-Wei Wang, and Wen-Chin Wu*, Condensate wave function and elementary excitations of bosonic polar molecules: Beyond the first Born approximation, Phys. Rev. A 81, 043629 (2010).
- [1] C.-H. Lin, Y.-T. Hsu, H. Lee, and D.-W. Wang*, Interaction-induced ferroelectricity in the rotational states of polar molecules,Phys. Rev. A 81, 031601(R) (2010).
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- 全部著作
(Click 展開/隱藏)
- D.-W. Wang, Y.C.
Chou and T.M. Hong*, Possible Origin of
Convection Flow in Granular Systems, Europhys.
Lett., 35, 333 (1996)..
- S. Das Sarma and D.-W.
Wang, Resonant Raman Scattering by
Elementary Electronic Excitations in
Semiconductor Structures, Phys. Rev. Lett.
83, 816 (1999).
- S. Das Sarma and D.-W.
Wang, Many-Body Renormalization of
Semiconductor Quantum Wire Excitons: Absorption,
Gain, Binding, and Unbinding, Phys. Rev.
Lett. 84, 2010 (2000).
- D.-W. Wang, A.J. Millis,
and S. Das Sarma, Where Is the Luttinger
Liquid in One Dimensional Semiconductor Quantum
Wire Structures?', Phys. Rev. Lett.
85, 4570 (2000).
- D.-W. Wang, A.J. Millis,
and S. Das Sarma, Coulomb Luttinger Liquid,
Phys. Rev. B 64, 193307 (2001).
- D.-W. Wang and S. Das
Sarma, Many-body Effects on Excitonic
Optical Properties of Photoexcited Semiconductor
Quantum Wire Structures, Phys. Rev. B
64, 195313 (2001).
- D.-W. Wang and S. Das
Sarma, Elementary Electronic Excitations in
One-dimensional Continuum and Lattice Systems,
Phys. Rev. B 65 035103 (2002).
- D.-W. Wang and S. Das
Sarma, Resonant Raman Scattering by Charge
Density and Single Particle Excitations in
Semiconductor Nanostructures: A Generalized
Interband-Resonant Random-Phase-Approximation
Theory, Phys. Rev. B
65, 125322 (2002).
- E. Demler, D.-W. Wang,
S. Das Sarma, and B.I. Halperin, Quantum
Hall Stripe Phases at Integer Filling Factors,
Solid Sate Commun. 123, 243
(2003).
- D.-W. Wang, E. Demler,
S. Das Sarma, and B.I. Halperin,
Magnetoplasmon Excitations and Spin Density
Instabilities in an Integer Quantum Hall Systems
with a Tilted magnetic Field, Phys. Rev. B
66, 195334 (2002).
- D.-W. Wang, A.J.
Millis, and S. Das Sarma, Comment on
"Dynamic correlations of the spinless Coulomb
Luttinger liquid [Phys. Rev. B 65, 125109
(2002)]'' , Phys. Rev. B 69,
167101 (2004).
- D.-W. Wang, E. Demler,
and S. Das Sarma, Spontaneous Symmetry
Breaking and Exotic Quantum Orders in Integer
Quantum Hall systems under a Tilted Magnetic
Field, Phys. Rev. B 68,
165303 (2003).
- D.-W. Wang, E. Demler,
and M. Lukin, Disordered Bose-Einstein
condensates in quasi-one-dimensional magnetic
microtraps, Phys. Rev. Lett. 92,
076802 (2004). (selected for the March 1, 2004
issue of Virtual Journal of Nanoscale Science
and Technology.).
- D.-W. Wang, A.J.
Millis, and S. Das Sarma, Resonant Raman
scattering theory in Luttinger liquid model',
Phys. Rev.B70,165101(2004).
- D.-W. Wang, A.J. Millis
and S. Das Sarma, , Collective modes and
Raman scattering in one dimensional electron
systems, Solid State Commun.
131, 637-645 (2004). (Invited review article for New
Advances on Collective Phenomena in
One-dimensional Systems.)
- L. Mathey, D.-W. Wang,
W. Hofstetter, M.D. Lukin, and E. Demler,
Luttinger liquid of polarons in one-dimensional
boson-fermion mixtures, Phys. Rev. Lett.
93, 120404 (2004).
- A. Polkovnikov and
D.-W. Wang, Effect of quantum fluctuations
on the dynamics of Bose-Einstein condensates in
optical lattices, Phys. Rev. Lett.
93, 070401 (2004).
- D.-W. Wang, M.D. Lukin,
and E. Demler, Engineering Superfluidity in
Bose-Fermi Mixtures of Ultracold Atoms,
Phys. Rev. A, 72, R051604
(2005).
- D.-W. Wang, E.G.
Mishchenko, and E. Demler, Pseudospin
ferromagnetism in coupled quantum wires,
Phys. Rev. Lett. 95, 086802
(2005).
- D.-W. Wang, Strong
coupling theory of superfluidity in Bose-Fermi
mixtures, Phys. Rev. Lett. 96,140404
(2006).
- D.-W. Wang, M.D. Lukin
and E.Demler,Quantum fluids of
self-assembled chains of polar molecules ,
Phys. Rev. Lett. 97,180413(2006).
- D.-W. Wang, Quantum
phase transitions of polar molecules in bilayer
system, Phys. Rev. Lett. 98,060403
(2007).
- L. Mathey, D.-W. Wang,
Phase diagrams of one-dimensional Bose-Fermi
mixtures of ultra-cold atoms, Phys. Rev.
Lett. A 75,013612(2007).
- G. Pupillo, A. Griessner, A. Micheli, M. Ortner,
DWW, and P. Zoller,
Cold Atoms and
Molecules in Self-Assembled Dipolar Lattices, Phys. Rev. Lett.
100,
050402 (2008).
- Daw-Wei Wang,
An effective theory for strongly interacting
polar molecules, New J. of Phys.
10, 053005(2008).
- Yi-Ya Tian, Pochung
Chen, Daw-Wei Wan,
Universal dynamics of quantum spin decoherence
in a spin bath, Phys. Phys. Rev. B
77, 174434(2008).
- Chi-Ming Chang, Wei-Chao Shen, Chen-Yen Lai, Pochung Chen, and D.-W. Wang*, Interaction-induced first-order correlation between spatially separated one-dimensional dipolar fermions, Phys. Rev.A 79, 053630(2009).
- Sheng-Min Shih and D.-W. Wang*, Pseudopotential of an interaction with a power-law decay in two-dimensional systems, Phys. Rev. A 79, 065603 (2009)
- Yi-Ping Huang and D.-W. Wang*, Quantum phase diagrams of fermionic dipolar gases in a planar array of one-dimensional tubes, Phys. Rev. A 80, 053610(2009)
- Daw-Wei Wang*, Momentum distribution of noncondensate particles near the superfluid-to-Mott -insulator transition of bosonic atoms in a uniform optical lattice, Phys. Rev. A 80, 063620(2009)
- C.-H. Lin, Y.-T. Hsu, H. Lee, and D.-W. Wang*, Interaction-induced ferroelectricity in the rotational states of polar molecules,Phys. Rev. A 81, 031601(R) (2010).
- Chao-Chun Huang, Daw-Wei Wang, and Wen-Chin Wu*, Condensate wave function and elementary excitations of bosonic polar molecules: Beyond the first Born approximation, Phys. Rev. A 81, 043629 (2010).
- Bin Wang*, Daw-Wei Wang, and S. Das Sarma, Bose-Fermi solid and its quantum melting in a one-dimensional optical lattice, Phys. Rev. A 82, 021602(R) (2010).
- Shiang Fang, Ray-Kuang Lee, and Daw-Wei Wang*, Quantum fluctuations and condensate fraction during the time-of-flight expansion, Phys. Rev. A 82, 031601(R) (2010).
- Yi-Ya Tian and Daw-Wei Wang*, Confinement induced quantum melting and polarization cooling for a 2D dipolar crystal, Europhys. Lett. 91, 66006 (2010).
- Andrew C. Potter*, Erez Berg, Daw-Wei Wang, Bertrand I. Halperin, Eugene Demler, Superfluidity and dimerization in a multilayered system of fermionic polar molecules, Phys. Rev. Lett. 105, 220406 (2010).
- Shiang Fang*, Chia-Ming Chung, Ping Nang Ma, Pochung Chen, and Daw-Wei Wang, Quantum Criticality from in-situ Density Imaging, Phys. Rev. A 83, 031605(R) (2011).
- B. Wunsch*, N. T. Zinner, I. B. Mekhov, S.-J. Huang, D.-W. Wang, and E. Demler, Few-Body Bound States in Dipolar Gases and Their Detection, Phys. Rev. Lett. 107, 073201 (2011).
- N. T. Zinner*, B. Wunsch, I. B. Mekhov, S.-J. Huang, D.-W. Wang, and E. Demler, Few-Body Bound Complexes in One-dimensional Dipolar Gases and Non-Destructive Optical Detection, Phys. Rev. A 84, 063606 (2011).
- N. T. Zinner*, B. Wunsch, D. Pekker, and D.-W. Wang, BCS-BEC crossover in bilayers of cold fermionic polar molecules, PHYS. REV. A 85, 013603 (2012).
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