Fang-Wen Sun (孙方稳), Ph.D.
Key Laboratory of Quantum
Information, Department of Optics and Optical Engineering, University of
Science and Technology of China
96 Jinzhai Road, Hefei 230026, China
Tel: (+86)551-63606411; Email: fwsun@ustc.edu.cn; sun.fangwen@gmail.com
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2001.9-2007.7 |
Ph.D. (博士) Key Laboratory of Quantum Information, Department of Physics, University of Science and Technology of China University of
Science and Technology of China (中国科学技术大学,物理系,量子信息重点实验室) Dissertation: “Interference and distinguishability of
multi-photon states” Advisor: Professor Guang-Can Guo (郭光灿教授) |
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1997.9-2001.7 |
B.S. (本科) Department of Physics, University of Science and Technology of
China (中国科学技术大学,物理系) |
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2015.7- present |
Key Laboratory of Quantum Information,
Department of Optics and Optical Engineering, University of Science and
Technology of China |
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Professor
(教授) |
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2009.7- 2015.7 |
Key Laboratory of Quantum Information,
Department of Optics and Optical Engineering, University of Science and
Technology of China |
|
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Associate Professor (副教授) |
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2007.7- 2009.7 |
Optical Nanostructures Laboratory, Columbia University |
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Postdoctoral Research Scientist (博士后) |
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2001.9- 2007.7 |
Key Laboratory of Quantum Information,
Department of Physics, University of Science and Technology of
China |
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Graduate Research Assistant |
· NV Center in Diamond for Nanoscopy
· Photon Interference and Coherence
· Quantum Metrology
1. X.-D.
Chen, C.-L Zou, Z. -J. Gong, C. -H. Dong, G. -C Guo and F.-W. Sun* Subdiffraction
optical manipulation of the charge state of nitrogen vacancy center in diamond
Light-Sci. & Appl. 4, e230 (2015).
2.
X.-D. Chen, L.-M Zhou, C.-L Zou, C. -C.
Li, Y. Dong, F.-W. Sun* and G.-C. Guo Spin
depolarization effect induced by charge state conversion of nitrogen vacancy
center in
diamond
Phys. Rev. B 92, 104301 (2015).
3.
C.-L. Zou,
J.-M. Cui, F.-W. Sun*, X. Xiong, X. -B. Zou, Z. -F. Han, and G.
-C. Guo Guiding light through optical bound states in the continuum for
ultrahigh-Q microresonators
Laser Photonics Rev. 9, 114–119 (2015)
4.
A.-P Liu, C.-L. Zou, X.-F.
Ren, X. Xiong, Y.-J. Cai,
H. -T Liu, F. –W. Sun, G. –C. Guo and G.-P. Guo Independently analyzing different surface
plasmon polariton modes on silver nanowire
Opt. Express 22,
23372 (2014).
5.
F.-J. Shu, C.-L. Zou, W.-C. Chen, and
F.-W. Sun, Ultralong distance coupling
between deformed circular microcavities
J. Opt. Soc. Am. B 31 478 (2014).
6.
J.-M. Cui, F.-W. Sun*, X.-D.
Chen, Z.-J. Gong, and G.-C. Guo Quantum statistical imaging of particles without
restriction of the diffraction limit
Phys. Rev.
Lett. 110, 153901 (2013).
7.
C.-L. Zou, X.-D. Chen, X. Xiong, F.-W. Sun,* X.-B. Zou, Z.-F. Han,
and G.-C. Guo Photonic simulation of system-environment interaction:
Non-Markovian processes and dynamical decoupling
Phys.
Rev. A 88, 063806 (2013).
8.
X. Xiong, C.-L. Zou, X.-F. Ren,
A.-P. Liu, Y.-X. Ye, F.-W. Sun,
and G.-C. Guo Silver nanowires for photonics applications
Laser Photonics Rev. 7, 901
(2013).
9.
C. Zhang, C.-L. Zou, Y. Yan, C.
Wei, J.-M. Cui, F. W. Sun, J. Yao, and Y. S. Zhao, Self-assembled organic crystalline microrings as active
whispering-gallery-mode optical resonators
Adv.
Opt. Mater. 1, 357 (2013).
10. X.-D. Chen, C.-L.
Zou, F.-W.
Sun*, and G.-C. Guo Optical manipulation of the charge state of
nitrogen-vacancy center in diamond
Appl. Phys. Lett. 103,
013112 (2013).
11. C. -L. Zou, F. -J. Shu, F.-W. Sun*, Z. -J. Gong,
Z. -F, Han, and G. -C. Guo Theory of free space coupling to high-Q whispering gallery
modes
Opt. Express 21, 9982 (2013).
12. C.-L. Zou, F.-W.
Sun*, C.-H. Dong, F.-J. Shu, X.-W. Wu, J.-M. Cui, Y. Yang, Z.-F. Han,
and G.-C. Guo High-Q and unidirectional
emission whispering gallery modes: principles and design
IEEE J. Sel. Top. Quantum. Electron. 19,
9000406 (2013);
13. X.-D. Chen,
F.-W. Sun*, C.-L. Zou, J.-M. Cui, L.-M. Zhou and G.-C. Guo Vector magnetic field sensing by a single nitrogen vacancy center in
diamond
EPL 101, 67003 (2013).
14. F.-J. Shu, C.-L. Zou,
and F.-W.
Sun* Dynamic process of free
space excitation of asymmetric resonant microcavity
J. Lightwave Technol. 31, 1884 (2013).
15. F.-J. Shu, C.-L. Zou,
and F.-W.
Sun* An optimization method of
asymmetric resonant cavities for unidirectional emission
J. Lightwave Technol. 31, 2994 (2013).
16. X. Liu, J. Cui,
F.-W. Sun, X. Song, F. Feng, J. Wang, W. Zhu, L. Lou, and G. Wang Fiber-integrated
diamond-based magnetometer
Appl. Phys. Lett. 103, 143105 (2013)
17. J.-M. Cui, C.-H. Dong,
C.-L. Zou, F.-W. Sun*, Y.-F. Xiao, Z.-F. Han, and G.-C. Guo Controlling deformation in a high quality
factor silica microsphere toward single directional emission
Appl. Opt. 52, 298 (2013).
18. F.-J. Shu, C.-L. Zou and F.-W.
Sun* Perpendicular coupler for
whispering-gallery resonators
Opt. Lett. 37, 3123 (2012).
19. W. -J. Chen, F.-W
Sun*, C. -L. Zou, and
G.-C. Guo Integrated entangled photons source from microcavity
parametric down conversion
J. Opt. Soc. Am. B 29, 1884 (2012).
20. X. Guo, C.
-L. Zou, X. -F. Ren, F. -W. Sun, and G. -C. Guo Broadband opto-mechanical
phase shifter for photonic integrated circuits
Appl. Phys. Lett. 101, 071114 (2012).
21. C. -L. Zou, C. -H. Dong, J. -M. Cui,
F.-W. Sun*, Y. Yong, X. -W. Wu, Z. -F, Han, and G. -C. Guo Whispering gallery mode optical
microresonators: fundamentals and applications (in Chinese)
SCIENTIA SINICA
Physica, Mechanica & Astronomica 11,1155 (2012)
22. X. -F. Jiang, Y. -F. Xiao1, C.-L. Zou,
L. He, C. -H. Dong, B.-B. Li, Y. Li, F. -W. Sun, L.
Yang, Q. Gong Highly unidirectional
emission and ultralow-threshold lasing from on-chip ultrahigh-Q microcavities
Adv.
Mater. 24 OP260 (2012).
23. L. Lu, L.-L. Wang, C. -L. Zou, X. -F. Ren,
C. -H. Dong, F. -W. Sun, S. -H. Yu, and G.-C. Guo, Doubly and Triply Coupled Nanowire Antennas
J. Phys. Chem. C 116, 23779 (2012).
24. C.H. Dong, C.L. Zou, X.F. Ren, G.C. Guo,
and F.
W. Sun In-line high efficient fiber polarizer based
on surface Plasmon
Appl. Phys. Lett. 100, 041104 (2012).
25. B.-B. Li, Y.-F. Xiao, C.-L. Zou, X.-F.
Jiang, Y.-C. Liu, F.-W. Sun, Q. Gong Experimental
controlling of Fano resonance in indirectly coupled whispering-gallery
microresonators
Appl. Phys. Lett. 100, 021108 (2012).
26. C. -L. Zou, F. -W. Sun*, C. -H. Dong,
Y. -F. Xiao, X. -F. Ren, L. Lv, X. -D. Chen, J. -M. Cui, Z. -F. Han, and G. -C.
Guo Movable fiber-integrated hybrid
Plasmonic waveguide on metal film
Photon. Tech. Lett. 24 434-436 (2012) arXiv:1104.416
27. J.-M.
Cui, X.-D. Chen, L. -L. Fan, Z. -J. Gong, C. -W. Zou, F.-W. Sun*, Z.-F. Han, and
G.-C. Guo Generation of Nitrogen-vacancy centers in diamond with ion implantation
Chin. Phys. Lett., 29,
036103 (2012).
28. X.-D. Chen, C.-H. Dong, F.-W. Sun*, C.-L. Zou, J.-M. Cui, Z.-F. Han, and G.-C. Guo Temperature dependent energy level shifts of nitrogen-vacancy centers in diamond
Appl. Phys. Lett. 99, 161903 (2011). News “Point Defects in Super-Chilled Diamonds May Offer Stable Candidates for Quantum Computing Bits” at Sciencedaily; Chinese.
29. C.-L.
Zou, F. W. Sun*, C.-H. Dong, X.-F. Ren, X.-D.
Chen, J.-M. Cui, Z.-F. Han, G.-C. Guo Broadband integrated polarization beam
splitter with surface plasmon
Opt.
Lett. 36, 3630 (2011). (Monthly Top 10 Download of Opt. Lett.
for Sep. and Nov. 2011 )
30. C.-L.
Zou, X.-B. Zou, F. W. Sun,
Z.-F. Han, and G. -C. Guo Room-temperature steady-state optomehanics entanglement
on a chip
Phys.
Rev. A 84, 032317
(2011).
31. L.
-L. Wang, C.-L. Zou, X.-F. Ren, A.-P. Liu, L. Lv, Y.-J. Cai, F. W. Sun, G.-C. Guo, and
G.-P. Guo Exciton-plasmon-photon conversion in silver
nanowire: Polarization dependence
Appl. Phys. Lett., 99,
061103 (2011).
32. C. -L. Zou, H. G. L. Schwefel, F. W. Sun*, Z.-F. Han, and G.-C. Guo Quick root searching method for resonances
of dielectric optical microcavities with the boundary element method
Opt.
Express 19, 15669 (2011).
33. Y.-F.
Xiao, C.-L. Zou, L. Xiao, F. W. Sun, and
Q. H. Gong Broadband enhancement of light harvesting in
luminescent solar concentrator
IEEE
Journal of Quantum Electronics 47 ,
1171 (2011).
34. X. F. Ren, A. Liu, C. L. Zou, L. L. Wang, Y. J. Cai, F.
W. Sun G.C. Guo, and G. P. Guo Interference of surface plasmon polaritons
from a “point” source
Appl. Phys. Lett., 98,
201113 (2011).
35.
F.-J. Shu, C.-L. Zou, F.W. Sun, and Y.-F. Xiao Mechanism
of directional emission from a peanut-shaped microcavity
Phys. Rev. A, 83,
053835 (2011).
36.
C. Zhang, C.-L. Zou, Y. Yan, R.
Hao, F.
W. Sun, Z.-F. Han, Y. S. Zhao, and J. Yao Two-photon pumped lasing in single-crystal organic nanowire exciton
polariton resonators
J. Am. Chem. Soc., 133, 7276
(2011).
37. Y.-Z. Yan, C.-L. Zou, S.-B. Yan, F.W. Sun, Z. Ji, J. Liu, Y.-G.Zhang,
L. Wang, C.-Y. Xue, W.-D. Zhang, Z.-F. Han, and J.-J. Xiong Packaged silica
microsphere-taper coupling system for robust thermal sensing application
Opt. Express, 19, 5753 (2011).
38. L. M. Zhou, C. L. Zou, Z. F. Han, G. C. Guo, and F. W. Sun* Negative Goos–Hänchen shift on a
concave dielectric interface
Opt. Lett., 36, 624 (2011).
39. F. LV, F.W. Sun*, C. L. Zou, Z. F. Han, and G. C. Guo, Measurement of ultra-short single-photon pulse duration with two-photon
interference
Chin. Phys. Lett., 28,
024203 (2011).
40. C. L. Zou, Y. F. Xiao, Z. F. Han, C. H. Dong, X. D. Chen, J. M. Cui, G.C.
Guo, and F. W.
Sun* High-Q nanoring
surface plasmon microresonator
J. Opt. Soc. Am. B, 27, 2495 (2010).
41. C. L. Zou, F. W.
Sun*, Y. F. Xiao, C. H. Dong, X. D.
Chen, J. M. Cui, Q. Gong, Z. F. Han, and G.C. Guo, Plasmon
modes of silver nanowire on a silica substrate
Appl. Phys. Lett., 97, 183102
(2010).
42. X. W. Wu, C. L. Zou, W. Wei, F. W. Sun*, G. C. Guo, and Z.F. Han Photoluminescence
from site-selected coupling between quantum dots and microtoroid cavities
Chin. Opt. Lett., 8, 709
(2010).
43. M. Gong, G. Chen, L. X. He, C. F. Li, J. S. Tang, F. W. Sun, Z. C. Niu, S. S. Huang, Y. H. Xiong, H.
Q. Ni, and G. C. Guo, Direct observation
of excitonic polaron in InAs/GaAs quantum dots
EPL, 90, 37004 (2010).
44. L. Lu, D. F. Chen, F. W. Sun, X. F. Ren, Z. F. Han, and
G. C. Guo, Photoluminescence quenching
and enhancement of CdSe/PMMA composite on Au colloids
Chem. Phys. Lett., 492, 71
(2010).
45. X. W. Wu, M. Gong, C. H. Dong, J. M. Cui, Y. Yang, F. W.
Sun*, Y. Yang, G. C. Guo, and Z.F. Han Anti-bunching and luminescence
blinking suppression from plasmon-interacted single CdSe/ZnS quantum dot
Opt. Express, 18, 6340 (2010).
46. C.H. Dong, F. W.
Sun*, C.L. Zou, X.F.
Ren, G.C. Guo, and Z.F. Han, High-Q
silica microsphere by poly(methyl methacrylate) coating and modifying
Appl. Phys. Lett., 96, 061106 (2010);
47. B. H. Liu, Y. F.
Huang, Y. X. Gong, F. W. Sun, Y. S. Zhang, C. F. Li, and G. C. Guo Experimental demonstration of quantum
contextuality with nonentangled photons
Phys.
Rev. A, 80, 044101 (2009).
48. B. H. Liu, F.
W. Sun*, Y. X. Gong, Y. F. Huang, Z. Y. Ou, and G. C.
Guo Investigation of the role of indistinguishability in
photon bunching and stimulated emission
Phys.
Rev. A, 79, 053846 (2009).
49. F. W. Sun* and
C. W. Wong Indistinguishability of independent single photons
Phys.
Rev. A, 79,
013824 (2009). Erratum: 82 049904 (2010).
50. C. W. Wong, J. Gao, J.F. McMillan, F.
W. Sun, and R. Bose, Quantum information processing through
quantum dots in slow-light photonic crystal waveguides
Photon. Nanostructures 7, 47 (2009).
51. L. Chen, C. F. Li, M. Gong, F. W. Sun, and G. C. Guo A new analysis of multi-photon interference
Europhys. Lett.,
85, 14001 (2009).
52. F. W. Sun*, B. H. Liu, C. W. Wong, and G. C. Guo Permutation asymmetry inducing entanglement
between degrees of freedom in multiphoton states
Phys. Rev. A, 78, 015804 (2008).
53. J. Gao, F. W. Sun, and C. W. Wong Implementation scheme for
quantum controlled phase-flip gate through quantum
dot in slow-light photonic crystal waveguide
Appl.
Phys. Lett., 93, 151108 (2008).
54. F. W. Sun*, B. H. Liu, Y. X. Gong, Y. F. Huang, Z. Y. Ou, and
G. C. Guo
Experimental demonstration of phase measurement precision beating standard
quantum limit by projection measurement
Europhys. Lett.,
82, 24001 (2008).
55. B. H. Liu, F.
W. Sun, Y. X. Gong, Y. F. Huang, Z. Y. Ou, and G. C. Guo
Demonstration of three-photon de Broglie wavelength by projection measurement
Phys. Rev. A, 77, 023815 (2008).
56. X. J. Ren, Z. W. Zhou, F. W. Sun, and G. C. Guo A four-dimensional measurement scheme for single photon
time-polarization
Chin. Phys.
Lett.,
25, 12 (2008).
57.
F. W. Sun, B. H. Liu, Y. F.
Huang, Y. S. Zhang, Z. Y. Ou, and G. C. Guo Entanglement and interference
between different degrees of freedom of photon states
Phys. Rev. A, 76, 063805 (2007).
58.
F. W. Sun, J. M. Cai, J. S. Xu,
G. Chen, B. H. Liu, C. F. Li, Z. W. Zhou, and G. C. Guo Experimental measurement of
multidimensional entanglement via equivalent symmetric projection
Phys. Rev. A, 76, 052303 (2007).
59.
Z. Q. Yin, Z. F.
Han, F.
W. Sun, and G. C. Guo Decoy state quantum key
distribution with modified coherent state
Phys.
Rev. A, 76, 014304 (2007).
60. F. W. Sun, B. H. Liu, Y. X. Gong, Y. F. Huang, Z. Y. Ou,
and G. C. Guo Stimulated emission as a result of multiphoton interference
Phys. Rev. Lett., 99, 043601
(2007).
61. B. H. Liu, F.
W. Sun, Y. X. Gong, Y. F. Huang, and G. C. Guo
Preparation of multi-photon states without optical interferometers
Phys. Lett. A, 365, 389 (2007).
62.
B. H.
Liu, F. W. Sun, Y. X. Gong, Y.
F. Huang, Z. Y. Ou, and G. C. Guo Four-photon interference with asymmetric
beam splitters
Opt. Lett., 32, 1320 (2007).
63. B. H. Liu, F.
W. Sun, Y. X. Gong, Y. F. Huang, Z. Y. Ou, and G. C. Guo
Demonstration of controllable temporal distinguishability in a three-photon
State
Europhys. Lett.,
77, 24003 (2007).
64.
F. W. Sun, B.
H. Liu, Y. F. Huang, Z. Y. Ou, and G. C. Guo Observation of four-photon de
Broglie wavelength by state projection measurement
Phys. Rev. A, 74, 033812 (2006).
65. G. Y. Xiang, Y. F. Huang, F. W. Sun, P. Zhang, Z. Y. Ou, and G. C.
Guo Demonstration of temporal
distinguishability in a four-photon state and a six-photon state
Phys. Rev. Lett., 97, 023604 (2006).
66.
F. W. Sun, B. H.
Liu, Y. F. Huang, Y. S. Zhang, and G. C. Guo Rotation of polarization of a multiphoton state
Phys.
Lett. A, 353, 291 (2006).
67. Q.
Wang, F. W.
Sun, Y.
S. Zhang, J. Li, Y. F. Huang, and G. C. Guo
Experimental demonstration of a method to realize weak measurement of the
arrival time of a single photon
Phys.
Rev. A, 73, 023814 (2006).
68. F. W.
Sun, Z. Y. Ou, and G. C. Guo Projection measurement of the maximally entangled N-photon state for a
demonstration of the N -photon de Broglie wavelength
Phys. Rev. A, 73, 023808 (2006).
69.
Q. Wang, Y. F. Huang, F. W. Sun, Y. S. Zhang, and G. C. Guo A "which way" experiment of
two-photon interference
Chin. Phys.
Lett.,
22, 335 (2005).
1. The 7th International Conference on
Information Optics and Photonics (CIOP 2015), Nanjing, China, July 12-15
(2015).
2. The 8th International Conference on
Nanophotonics (ICNP2015), Changchun, China, May 25-28 (2015).
3.
SPIE/COS Photonics Asia 2014, Beijing,
China, October 9-11 (2014).
4.
The 4th conference
on Advances in Optoelectronics and Micro/nano-optics, Xi’An, China,
September 17-20 (2014).
5.
Progress In Electromagnetics Research Symposium,
Stockholm, Sweden, August 12-15 (2013).
6.
Workshop on Microcavities and
Applications, Beijing, China, May 28-31 (2013).
7.
International
Symposium on Nanoplasmonics, Wuhan, China, May 2-4 (2013).
8.
Workshop on Diamond - Spintronics, Photonics, Bio-applications,
Hong Kong, April 27-29 (2013).
9. The 6th CAS Cross-Strait and
International Conference on Quantum Manipulation, Beijing, China, December 10
(2010).
10. SPIE
Photonics West 2009, San Jose, CA, USA, January 9 (2009).
11. SPIE
on Optics and Photonics 2006, San Diego, CA, USA, August 15 (2006).
l2014, Excellent Young
Scientist, CAS; (中国科学院卓越青年科学家)
l2010, National 100 Excellent
Doctoral Degree Dissertation; (全国优秀博士论文)
l2010, New Century Excellent
Talents in University;(教育部新世纪优秀人才支持计划)
l2009, Excellent Doctoral
Degree Dissertation, CAS; (中国科学院优秀博士论文)
l2009, Excellent Doctoral
Degree Dissertation, Anhui Province;(安徽省优秀博士论文)