Mesoscopic Optics and Quantum Electronics Laboratory

 

Accepted / Pre-Prints

1. J. Lim, A. A. Savchenkov, E. Dale, W. Liang, D. Eliyahu, V. Ilchenko, A. B. Matsko, L. Maleki, and C. W. Wong, Chasing the thermodynamical noise limit in microresonators for ultrastable laser frequency stabilization, Nature Communications (accepted - to appear; March 2017); also at: arxiv.org/abs/1701.05285 .

2. Heng Zhou, S.-W. Huang, X. Li, J. F. McMillan, C. Zhang, K. K. Y. Wong, M. Yu, G.-Q. Lo, D.-L. Wong, K. Qiu, and C. W. Wong, Real-time dynamics and cross-correlation gating spectroscopy of free-carrier Drude solitons, Nature - Light: Science & Applications (accepted - to appear; March 2017); also at: arxiv.org/abs/1701.06032 .

3. J. Wu, S.-W. Huang, Y. Huang, H. Zhou, J. Yang, J.-M. Liu, M. Yu, G. Lo, D.-L. Kwong, S. Duan, and C. W. Wong, Mesoscopic chaos mediated by Drude electron-hole plasma in silicon optomechanical oscillators, Nature Communications (accepted - to appear; April 2017); also at: arxiv.org/abs/1608.05071 .

4. B. Li, S.-W. Huang, Y. Li, C. W. Wong and K. Y. Wong, Panoramic reconstruction temporal imaging for seamless measurements of slowly-evolved femtosecond pulse dynamisc, Nature Communications (accepted - to appear; May 2017).

5. S.-W. Huang, J. Yang, S.-H. Yang, M. Yu, D.-L. Kwong, T. Zelevinsky, M. Jarrahi, and C. W. Wong, Universally stable microresonator Turing pattern formation for coherent high-power THz radiation on-chip, manuscript under review (2017); ; also at: arxiv.org/abs/1603.00948 .

6. C. Choi, H.-C. Cheng, H. Kim, A. K. Vinod, S. Bae, J. Chae, Y. Kim, S.-W. Huang, X. Duan, T. Low, and C. W. Wong, Many-body interlayer excitons in WSe2-MoSe2 van der Waals heterostructures, manuscript under review (2017).

7. B. Yao, Y. Liu, S.-W. Huang, C. Choi, Z. Xie, J. Flor Flores, Y. Wu, M. Yu, D.-L. Kwong, Y. Huang, Y. Rao, X. Duan, and C. W. Wong, Generation and control of THz plasmons in graphene heterostructures, manuscript under review (2017).

8. Z. Xie, K.-H. Lou, H. Herrmann, A. B. Matsko, L. Maleki, C. Silberhorn, and C. W. Wong, Efficient frequency upconversion for single photons at telecommunication wavelengths with chip-scale Ti-indiffused periodically-poled lithium niobate waveguides, manuscript under review (2017).

9. J. Lim, A. A. Savchenkov, A. B. Matsko, S.-W. Huang, L. Maleki, and C. W. Wong, Microresonator-stabilized extended cavity diode laser for supercavity frequency stabilization, manuscript under review (March 2017).

10. B. C. Yao, S. W. Huang, Z. Y. Feng, Y. Wu, C. Choi, H. Liu, H. F. Qi, G. D. Peng, Y. J. Rao, and C. W. Wong, Graphene Q-switched distributed feedback fiber lasers with narrow linewidth approaching the transform limit, manuscript under review (2017).

Selected Representative Publications

11. S.-W. Huang, J. Yang, M. Yu, B. H. McGuyer, D.-L. Kwong, T. Zelevinsky, and C. W. Wong, A broadband chip-scale optical frequency synthesizer at 2.7x10^(-16) relative inaccuracy, Science Advances 2, e1501489 (2016); also at: arxiv.org/abs/1509.00089 . [URL] [PDF] [supplement] [News: Phys.org; UCLA]

12. Heng Zhou, M. Liao, S.-W. Huang, L. Zhou, K. Qiu, and C. W. Wong, Six-wave mixing induced by Drude free-carrier plasma in silicon nanowire waveguides, Laser & Photonics Reviews 10, 1054 (2016); also at: arxiv.org/abs/1609.06828 . [URL] [PDF]

13. P. Hsieh, C. Chung, J. F. McMillan, M. Tsai, M. Lu, N. C. Panoiu, and C. W. Wong, Photon transport enhanced by transverse Anderson localization in disordered superlattices, Nature Physics 11, 268 (2015); also at: arxiv.org/abs/1412.4177 . [URL] [PDF] [supplement] [News & Views] [News: DOE Office of Science; ScienceDaily; EurekAlert; OPN; UCLA; UCLA SEAS]

14. Z. Xie, T. Zhong, S. Shrestha, X. Xu, J. Liang, Y.-X. Gong, J. C. Bienfang, A. Restelli, J. H. Shapiro, F. N. C. Wong, and C. W. Wong, Harnessing high-dimensional hyperentanglement through a biphoton frequency comb, Nature Photonics 9, 536 (2015); also at: arxiv.org/abs/1506.04231 . [URL] [PDF] [supplement] [News & Views] [News: Phys.org; EurekAlert; UCLA; ScienceDaily; CIO]

15. S.-W. Huang, J. F. McMillan, J. Yang, A. Matsko, H. Zhou, M. Yu, D.-L. Kwong, L. Maleki, and C. W. Wong, Mode-locked ultrashort pulse generation from on-chip normal dispersion microresonators, Phys. Rev. Lett. 114, 053901 (2015); also at: arxiv.org/abs/1404.3256 . [URL] [PDF] [supplement]

16. Y.-C. Liu, X. Luan, H.-K. Li, Q. Gong, C. W. Wong, and Y.-F. Xiao, Coherent polariton dynamics in coupled highly-dissipative cavity quantum electrodynamics, Phys. Rev. Lett. 112, 213602 (2014); also at arxiv.org/abs/1405.3473 . [URL] [PDF] [supplement]

17. X. Luan, Y. Huang, Y. Li, J. F. McMillan, J. Zheng, S.-W. Huang, P.-C. Hsieh, T. Gu, D. Wang, A. Hati, D. A. Howe, G. Wen, M. Yu, G. Lo, D.-L. Kwong, and C. W. Wong, An integrated low phase noise radiation-pressure-driven optomechanical oscillator chipset, Nature: Scientific Reports 4, 6842 (2014); ; also at: arxiv.org/abs/1410.5539 . [URL] [PDF] [supplement]

18. I. Sarpkaya, Z. Zhang, W. Walden-Newman, X. Wang, J. Hone, C. W. Wong, and S. Strauf, Prolonged spontaneous emission and dephasing of localized excitons in air-bridged carbon nanotubes, Nature Communications 4, 2152 (2013); also at: arxiv.org/abs/1307.0494 . [URL] [PDF] [supplement]

19. Y.-C. Liu, X. Luan, Y.-F. Xiao, and C. W. Wong, Dynamic dissipative cooling of a mechanical oscillator in strong-coupling optomechanics, Phys. Rev. Lett. 110, 153606 (2013); also at: arxiv.org/abs/1303.3657 . [URL] [PDF] [supplement]

20. T. Gu, N. Petrone, J. F. McMillan, A. van der Zande, M. Yu, G. Q. Lo, D. L. Kwong, J. Hone, and C. W. Wong, Regenerative oscillation and four-wave mixing in graphene optoelectronics, Nature Photonics 6, 554 (2012) [selected as Cover Article, Nature Photonics] [URL] [PDF] [supplement] [News & Views] [News: PhysOrg; ScienceDaily; EurekAlert; Photonics; Nanowerk; GraphiteBlog; Columbia]; also at: arxiv.org/abs/1205.4333 .

21. X. Xu and C. W. Wong, Quantum correlations on a chip, Nature Photonics 6, 75 (2012). [URL] [PDF]

22. F. Gesuele, M. Y. Sfeir, W.-K. Koh, C. B. Murray, T. F. Heinz, and C. W. Wong, Ultrafast supercontinuum spectroscopy of carrier multiplication and biexcitonic effects in excited state PbS quantum dots, Nano Letters 12, 2658 (2012); also at: arxiv.org/abs/1112.2132 . [URL] [PDF]

23. J. Gao, J. F. McMillan, and C. W. Wong, Nanophotonics: Remote on-chip coupling, Nature Photonics 6, 7 (2012). [URL] [PDF]

24. S. Kocaman, M.S. Aras, P. Hsieh, J. F. McMillan, C. G. Biris, N. C. Panoiu, M. B. Yu, D. L. Kwong, A. Stein, and C. W. Wong, Zero phase delay in negative-index photonic crystal superlattices, Nature Photonics 5, 499 (2011). [URL] [PDF] [supplement] [News & Views] [News: PhysOrg; Reuters; ScienceDaily; EurekAlert; Photonics; PhysicsWorld; Columbia]

25. P. Colman*, C. Husko*, S. Combrie*, I. Sagnes, C. W. Wong, and A. De Rossi, Temporal solitons and pulse compression in photonic crystal waveguides, Nature Photonics 4, 862 (2010). * equal contribution. [URL] [PDF] [supplement] [News & Views]

26. J. Y. Lee, B. H. Hong, W. Y. Kim, S. K. Min, Y. Kim, M. V. Jouravlev, R. Bose, K. S. Kim, I.-C. Hwang, L. J. Kaufman, C. W. Wong, P. Kim, and K. S. Kim, Near-field focusing and magnification through self-assembled nanoscale spherical lenses, Nature 460, 498 (2009); also selected for Virt. J. of Nanoscale Sci. and Tech. (August 3rd 2009 issue). [URL] [PDF] [supplement]

27. X. Yang, M. Yu, D.-L. Kwong, and C. W. Wong, All-optical analogue to electromagnetically induced transparency in multiple coupled photonic crystal cavities, Phys. Rev. Lett. 102, 173902 (2009); also at: arxiv.org/abs/0804.2845 . [URL] [PDF]

28. S. Kocaman, R. Chatterjee, N. C. Panoiu, J. F. McMillan, M. B.Yu, R. M. Osgood, D. L. Kwong, and C. W. Wong, Observations of zero-order bandgaps in negative-index photonic crystal superlattices at the near-infrared, Phys. Rev. Lett. 102, 203905 (2009); also at: arxiv.org/abs/0904.2352 ; also selected for Virt. J. of Nanoscale Sci. and Tech. (June 8th 2009 issue). [URL] [PDF]

29. R. Bose, J. F. McMillan, J. Gao, C. J. Chen, D. V. Talapin, C. B. Murray, K. M. Rickey, and C. W. Wong, Temperature-tuning of near-infrared (1.5-um) monodisperse quantum dot solids toward controllable Förster energy transfer, Nano Lett. 8, 2006 (2008); also at: arxiv.org/abs/0804.3311 . [URL] [PDF]

30. R. Chatterjee, N. C. Panoiu, K. Liu, Z. Dios, M. Yu, M. T. Doan, L. J. Kaufman, R. M. Osgood, and C. W. Wong, Achieving subdiffraction imaging through bound surface states in negative refraction photonic crystals in the near-infrared range, Phys. Rev. Lett. 100, 187401 (2008); also at: arxiv:abs/0803.0986 ; also selected for Virt. J. of Nanoscale Sci. and Tech. (May 19th 2008 issue). [URL] [PDF]

Peer-reviewed Journal and Book Publications

1. S.-W. Huang, J. Yang, M. Yu, B. H. McGuyer, D.-L. Kwong, T. Zelevinsky, and C. W. Wong, A broadband chip-scale optical frequency synthesizer at 2.7x10^(-16) relative inaccuracy, Science Advances 2, e1501489 (2016); [URL] [PDF] [supplement] [News: Phys.org; UCLA]; also at: arxiv.org/abs/1509.00089 .

2. S.-W. Huang, H. Liu, J. Yang, M. Yu, D.-L. Kwong, and C. W. Wong, Smooth coherent Kerr frequency combs generation with broadly tunable pump by higher order mode suppression, Nature: Scientific Reports 6, 26255 (2016); [URL] [PDF]; also at: arxiv.org/abs/1602.00824 .

3. Heng Zhou, M. Liao, S.-W. Huang, L. Zhou, K. Qiu, and C. W. Wong, Six-wave mixing induced by Drude free-carrier plasma in silicon nanowire waveguides, Laser & Photonics Reviews 10, 1054 (2016); also at: arxiv.org/abs/1609.06828 . [URL] [PDF]

4. J. Lim, S.-W. Huang, A. K. Vinod, P. Mortazavian, M. Yu, D.-L. Kwong, A. A. Savchenkov, A. B. Matsko, L. Maleki, and C. W. Wong, A stabilized chip-scale Kerr frequency comb via a high-Q reference photonic microresonator, Optics Letters 41, 3706 (2016); ; also at: arxiv.org/abs/1607.06013 . [URL] [PDF]

5. J. P. Lee-Thorp, I. Vukicevic, X. Xu, J. Yang, C. L. Fefferman, C. W. Wong, and M. I. Weinstein, Photonic realization of topologically protected bound states in domain-wall waveguide arrays, Phys. Rev. A 93, 033822 (2016); [URL] [PDF]; also at: arxiv.org/abs/1602.04252 .

6. Hao Zhou, T. Gu, J. F. McMillian, M. Yu, G. Lo, D.-L. Kwong, G. Feng, S. Zhou, and C. W. Wong, Enhanced photoresponsivity in graphene-silicon slow-light photonic crystal waveguides, Appl. Phys. Lett. 108, 111106 (2016). [URL] [PDF]

7. P. Hsieh, C. Chung, J. F. McMillan, M. Tsai, M. Lu, N. C. Panoiu, and C. W. Wong, Photon transport enhanced by transverse Anderson localization in disordered superlattices, Nature Physics 11, 268 (2015) [URL] [PDF] [supplement] [News & Views] [News: DOE Office of Science; ScienceDaily; EurekAlert; UCLA; UCLA SEAS]; also at: arxiv.org/abs/1412.4177 .

8. Z. Xie, T. Zhong, S. Shrestha, X. Xu, J. Liang, Y.-X. Gong, J. C. Bienfang, A. Restelli, J. H. Shapiro, F. N. C. Wong, and C. W. Wong, Harnessing high-dimensional hyperentanglement through a biphoton frequency comb, Nature Photonics 9, 536 (2015). [URL] [PDF] [supplement] [News & Views] [News: Phys.org; EurekAlert; UCLA; ScienceDaily; CIO]; also at: arxiv.org/abs/1506.04231 .

9. S.-W. Huang, J. F. McMillan, J. Yang, A. Matsko, H. Zhou, M. Yu, D.-L. Kwong, L. Maleki, and C. W. Wong, Mode-locking ultrashort pulse generation from on-chip normal dispersion microresonators, Phys. Rev. Lett. 114, 053901 (2015); also at: arxiv.org/abs/1404.3256 . [URL] [PDF] [supplement]

10. S.-W. Huang, J. Yang, J. Lim, H. Zhou, M. Yu, D.-L. Kwong, and C. W. Wong, A low-phase-noise 18 GHz Kerr frequency microcomb phase-locked over 65 THz, Nature: Scientific Reports 5, 13355 (2015). [URL] [PDF]; also at: arxiv.org/abs/1502.05444 .

11. B. Yao, Y. Rao, Z. Wang, Y. Wu, J. Zhou, H. Wu, M. Fan, X. Cao, W. Zhang, Y.-F. Chen, Y.-R. Li, D. Churkin, S. Turitsyn, and C. W. Wong, Graphene based widely-tunable and singly-polarized pulse generation with random fiber lasers, Nature: Scientific Reports 5, 18526 (2015). [URL] [PDF]; also at: arxiv.org/abs/1512.03513 .

12. T. Gu, A. Andryieuski, Y. Hao, Y. Li, J. Hone, C. W. Wong, A. Lavrinenko, T. Low, and T. F. Heinz, Photonic and plasmonic guiding modes in graphene-silicon photonic crystals, ACS Photonics 2, 1552 (2015); [URL] [PDF] [supplement]; also at: arxiv.org/abs/1504.04911 . Also selected for ACS Editors' Choice.

13. Y.-C. Liu, Y.-F. Xiao, X. Luan, Q. Gong, and C. W. Wong, Coupled cavities for motional ground-state cooling and strong optomechanical coupling, Phys. Rev. A 91, 033818 (2015). [URL] [PDF]

14. Z. Xie, W. Liang, A. A. Savchenkov, J. Lim, J. Burkhart, M. McDonald, T. Zelevinsky, V. S. Ilchenko, A. B. Matsko, L. Maleki, and C. W. Wong, Extended ultrahigh-Q-cavity diode laser, Optics Lett. 40, 2596 (2015). [URL] [PDF]

15. W. Liang, A. A. Savchenkov, J. F. McMillan, Z. Xie, J. Burkhart, V. S. Ilchenko, C. W. Wong, A. B. Matsko, and L. Maleki, Miniature multioctave light source based on a monolithic microcavity, Optica 2, 40 (2015). [URL] [PDF]

16. Y.-C. Liu, Y.-F. Xiao, X. Luan, Q. Gong, and C. W. Wong, Optomechanically-induced-transparency cooling of massive mechanical resonators to the quantum ground state, Science China 58, 050305 (2015). [URL] [PDF]

17. X. Hu, T. Zhong, F. N. C. Wong, X. Mao, P. Kharel, Z. Xie, X. Xu, C. W. Wong, and D. R. Englund, Nonlocal cancellation of multi-frequency-channel dispersion, Phys. Rev. A 91, 013809 (2015). [URL] [PDF]

18. Heng Zhou, S.-W. Huang, Y. Dong, M. Liao, K. Qiu, and C. W. Wong, Stability and intrinsic fluctuations of dissipative cavity solitons in Kerr frequency microcombs, IEEE Photonics Journal 7, 3200113 (2015). [URL] [PDF]

19. T. Gu and C. W. Wong, Four-wave mixing and carrier nonlinearities in graphene-silicon photonic crystal cavities, Chapter 8 in Nanomaterials, Polymers and Devices: Materials Functionalization and Device Fabrication (editors: E.S.W. Kong and W. Knoll), Wiley, Hoboken, NJ (2015). [URL]

20. O. Ajayi, D. Guitierrez, D. Peaslee, A. Cheng, T. Gao, C. W. Wong, and B. Chen, Electrophoretically deposited graphene oxide and carbon nanotube composite for electrochemical capacitors, IoP Nanotechnology 26, 415203 (2015). [URL] [PDF]

21. X. Li, J. Liao, Y. Nie, M. Marko, H. Jia, J. Liu, X. Wang, and C. W. Wong, Unambiguous demonstration of soliton evolution in slow-light silicon photonic crystal waveguides with SFG-XFROG, Optics Express 23, 10282 (2015). [URL] [PDF]

22. Y.-C. Liu, X. Luan, H.-K. Li, Q. Gong, C. W. Wong, and Y.-F. Xiao, Coherent polariton dynamics in coupled highly-dissipative cavity quantum electrodynamics, Phys. Rev. Lett. 112, 213602 (2014); also at: arxiv.org/abs/1405.3473 . [URL] [PDF] [supplement]

23. Hao Zhou, T. Gu, J. F. McMillan, N. Petrone, A. van der Zande, J. C. Hone, M. Yu, G. Lo, D.-L. Kwong, G. Feng, S. Zhou, and C. W. Wong, Enhanced four-wave mixing in graphene-silicon slow-light photonic crystal waveguides, Appl. Phys. Lett. 105, 091111 (2014). [URL] [PDF]

24. B. Chen, C. Meng, Z. Yang, W. Li, S. Lin, T. Gu, X. Guo, D. Wang, S. Yu, C. W. Wong, and L. Tong, Graphene coated ZnO nanowire optical waveguides, Optics Express 22, 24276 (2014). [URL] [PDF]

25. T. Gu, M. Yu, D.-L. Kwong, and C. W. Wong, Molecular-absorption-induced thermal bistability in PECVD silicon nitride microring resonators, Optics Express 22, 18412 (2014); also at: arxiv.org/abs/1407.4146 . [URL] [PDF]

26. T. Gu, Y.-K. Chen, C. W. Wong, and P. Dong, Cascaded uncoupled dual-ring modulator, Optics Lett. 39, 4974 (2014); also at: arxiv.org/abs/1407.5704 . [URL] [PDF]

27. X. Luan, Y. Huang, Y. Li, J. F. McMillan, J. Zheng, S.-W. Huang, P.-C. Hsieh, T. Gu, D. Wang, A. Hati, D. A. Howe, G. Wen, M. Yu, G. Lo, D.-L. Kwong, and C. W. Wong, An integrated low phase noise radiation-pressure-driven optomechanical oscillator chipset, Nature: Scientific Reports 4, 6842 (2014); ; also at: arxiv.org/abs/1410.5539 . [URL] [PDF] [supplement]

28. O. A. Ajayi, N. C. Anderson, M. Cotlet, N. Petrone, T. Gu, F. Gesuele, J. Hone, J. S. Owen, and C. W. Wong, Time-resolved energy transfer and blinking statistics of single chloride-terminated nanocrystals on graphene, Appl. Phys. Lett. 104, 171101 (2014); also at: arxiv.org/abs/1405.7735 . [URL] [PDF]

29. J. Yang, T. Gu, J. Zheng, M. Yu, G.-Q. Lo, D.-L. Kwong, and C. W. Wong, Radio-frequency regenerative oscillations in monolithic high-Q/V heterostructured photonic crystal cavities, Appl. Phys. Lett. 104, 061104 (2014). [URL] [PDF]

30. T. Gu, Hao Zhou, J. F. McMillan, N. Petrone, A. van der Zande, J. C. Hone, M. Yu, G.-Q. Lo, D.-L. Kwong, and C. W. Wong, Coherent four-wave mixing on hybrid graphene-silicon photonic crystals, J. Sel. Top. Quant. Elect. (special issue on graphene optoelectronics) 20, 7500106 (2014). [URL] [PDF]

31. T. Gu, J. F. McMillan, N. Petrone, A. van der Zande, J. C. Hone, M. Yu, G.-Q. Lo, D.-L. Kwong, and C. W. Wong, Optical bistability and free carrier dynamics in graphene-silicon photonic crystal cavities, Optics Comm. 314, 23 (2014) (special issue on energy efficient nanophotonics). [URL] [PDF]

32. I. Sarpkaya, Z. Zhang, W. Walden-Newman, X. Wang, J. Hone, C. W. Wong, and S. Strauf, Prolonged spontaneous emission and dephasing of localized excitons in air-bridged carbon nanotubes, Nature Communications 4, 2152 (2013); also at: arxiv.org/abs/1307.0494 . [URL] [PDF] [supplement]

33. J. Gao, S. Combrie, B. Liang, P. Schmitteckert, G. Lehoucq, S. Xavier, X. Xu, K. Busch, D. L. Huffaker, A. de Rossi, and C. W. Wong, Strongly coupled slow-light polaritons in one-dimensional disordered localized states, Nature: Scientific Reports 3, 1994 (2013); also at: arxiv.org/abs/1306.2042 . [URL] [PDF] [supplement]

34. Y.-C. Liu, X. Luan, Y.-F. Xiao, and C. W. Wong, Dynamic dissipative cooling of a mechanical oscillator in strong-coupling quantum optomechanics, Phys. Rev. Lett. 110, 153606 (2013). also at: arxiv.org/abs/1303.3657 . [URL] [PDF]

35. C. A. Husko, S. Combrie, P. Colman, J. Zheng, A. De Rossi, and C. W. Wong, Soliton dynamics in the multiphoton plasma regime, Nature: Scientific Reports 3, 1100 (2013); also at: arxiv.org/abs/1301.5748 . [URL] [PDF]

36. X. Xu, Z. Xie, J. Zheng, J. Liang, T. Zhong, M. Yu, S. Kocaman, G.-Q. Lo, D.-L. Kwong, D. R. Englund, F. N. C. Wong, and C. W. Wong, Near-infrared Hong-Ou-Mandel interference on a silicon quantum photonic circuit, Optics Express 21, 5014 (2013). [URL] [PDF]

37. Y.-C. Liu, Y.-W. Hu, C. W. Wong, Y.-F. Xiao, Review of cavity optomechanical cooling, Chinese Physics B, 22, 114213 (2013); also at: arxiv.org/abs/1411.3922 . [URL] [PDF]

38. J. Liao, M. Marko, X. Liu, H. Jia, J. Liu, Y. Tan, J. Yang, Y. Zhang, W. Tang, M. Yu, G.-Q. Lo, D.-L. Kwong, and C. W. Wong, Cross-correlation frequency-resolved optical gating and dynamics of temporal solitons in silicon nanowire waveguides, Optics Lett. 38, 4401 (2013). [URL] [PDF]

39. M. D. Marko, X. Li, J. Zheng, J. Liao, M. Yu, G.-Q. Lo, D.-L. Kwong, C. A. Husko, and C. W. Wong, Phase-resolved observations of optical pulse propagation in chip-scale silicon nanowires, Appl. Phys. Lett. 103, 021103 (2013). [URL] [PDF]

40. J. Zheng, Y. Li, N. Goldberg, M. McDonald, A. Hati, M. Lu, S. Strauf, T. Zelevinsky, D. A. Howe, and C. W. Wong, Feedback and harmonic locking of slot-type optomechanical oscillators to external low-noise reference clocks, Appl. Phys. Lett. 102, 141117 (2013). [URL] [PDF]

41. T. Gu, N. Petrone, J. F. McMillan, A. van der Zande, M. Yu, G. Q. Lo, D. L. Kwong, J. Hone, and C. W. Wong, Regenerative oscillation and four-wave mixing in graphene optoelectronics, Nature Photonics 6, 554 (2012) [selected as Cover Article, Nature Photonics] [URL] [PDF] [supplement] [News & Views] [News: PhysOrg; ScienceDaily; EurekAlert; Photonics; Nanowerk; GraphiteBlog; Columbia]; also at: arxiv.org/abs/1205.4333 .

42. X. Xu and C. W. Wong, Quantum correlations on a chip, Nature Photonics 6, 75 (2012). [URL] [PDF]

43. J. Zheng, X. Sun, Y. Li, M. Poot, A. Dadgar, N. Shi, W. H. P. Pernice, H. X. Tang, and C. W. Wong, Femtogram dispersive L3-nanobeam optomechanical cavities: design and experimental comparison, Optics Express 20, 26484 (2012); also at: arxiv.org/abs/1206.0494. [URL] [PDF] [selected as Cover Article, Optics Express]

44. J. Gao, J. F. McMillan, and C. W. Wong, Nanophotonics: Remote on-chip coupling, Nature Photonics 6, 7 (2012). [URL] [PDF]

45. X. Sun, J. Zheng, M. Poot, C. W. Wong, and H. X. Tang, Femtogram doubly clamped nanomechanical resonators embedded in a high-Q two-dimensional photonic crystal nanocavity, Nano Lett. 12, 2299 (2012); also at: arxiv.org/abs/1204.1520 . [URL] [PDF]

46. F. Gesuele, M. Y. Sfeir, W.-K. Koh, C. B. Murray, T. F. Heinz, and C. W. Wong, Ultrafast supercontinuum spectroscopy of carrier multiplication and biexcitonic effects in excited state PbS quantum dots, Nano Lett. 12, 2658 (2012); also at: arxiv.org/abs/1112.2132 . [URL] [PDF]

47. A. Veitia, J. Jing, T. Yu, C. W. Wong, Mutual preservation of entanglement, Phys. Lett. A 376, 2755 (2012); also at: arxiv.org/abs/1205.2728 . [URL] [PDF]

48. J. Zheng, Y. Li, M. S. Aras, A. Stein, K. L. Shepard, and C. W. Wong, Parametric optomechanical oscillations in two-dimensional slot-type high-Q photonic crystal cavities, Appl. Phys. Lett. 100, 211908 (2012); also at: arxiv.org/abs/1205.1165 . [URL] [PDF]

49. C. Bui*, J. Zheng*, S. W. Hoch, L. Y. T. Lee, J. G. E. Harris, and C. W. Wong, High-reflectivity, high-Q nanomembrane resonators via guided photonic crystal resonances for enhanced optomechanical coupling, Appl. Phys. Lett. 100, 021110 (2012); also at: arxiv.org/abs/1110.3625 . * equal contribution. [URL] [PDF]

50. C. W. Wong, S. Kocaman, M. S. Aras, P. Hsieh, J. F. McMillan, C. G. Biris, N. C. Panoiu, M. B. Yu, D. L. Kwong, and A. Stein, Negative index photonic crystal superlattices and zero phase delay lines, Photonic Crystals - Innovative Systems, Lasers, and Waveguides, Chapter 16, publisher IN-TECH (ISBN 978-953-51-0416-2), Rijeka, Croatia, 2012. [URL] [PDF]

51. S. Kocaman, M. S. Aras, N. C. Panoiu, M. Lu, and C. W. Wong, On-chip optical filters with designable characteristics based on an interferometer with embedded silicon photonic structures, Optics Lett. 37, 665 (2012); also at: arxiv.org/abs/1201.2285 . [URL] [PDF]

52. S. Kocaman, M.S. Aras, P. Hsieh, J. F. McMillan, C. G. Biris, N. C. Panoiu, M. B. Yu, D. L. Kwong, A. Stein, and C. W. Wong, Zero phase delay in negative-index photonic crystal superlattices, Nature Photonics 5, 499 (2011). [URL] [PDF] [supplement] [News & Views] [News: PhysOrg; Reuters; ScienceDaily; EurekAlert; Photonics; PhysicsWorld; Columbia]

53. C. A. Husko, A. De Rossi, and C. W. Wong, Effect of multi-photon absorption and free carriers on self-phase modulation in slow-light photonic crystals, Optics Lett. 36, 2239 (2011). [URL] [PDF]

54. C. J. Chen*, J. Zheng*, T. Gu, J. F. McMillan, M. Yu, G.-Q. Lo, D.-L. Kwong, and C. W. Wong, Selective tuning of silicon photonic crystal nanocavities via laser-assisted local oxidation, Optics Express 19, 12480 (2011); also at: arxiv.org/abs/1106.0705 . * equal contribution. [URL] [PDF]

55. T. Gu, S. Kocaman, X. Yang, J. F. McMillan, M. B. Yu, G.-Q. Lo, D.-L. Kwong, and C. W. Wong, Deterministic integrated tuning of multi-cavity resonances and phase for slow-light in coupled photonic crystal cavities, Appl. Phys. Lett. 98, 121103 (2011); also at: arxiv.org/abs/1012.5805 ; also selected for Virt. J. of Nanoscale Sci. and Tech. (April 4th 2011 issue). [URL] [PDF]

56. M. T. Rakher, R. Bose, C. W. Wong, and K. Srinivasan, Fiber-based cryogenic and time-resolved spectroscopy of PbS quantum dots, Optics Express 19, 1786 (2011); also at: arxiv.org/abs/1012.0225 ; also selected for Virt. J. of Biomedical Optics. (Feb 17th 2011 issue). [URL] [PDF]

57. P. Colman*, C. Husko*, S. Combrie*, I. Sagnes, C. W. Wong, and A. De Rossi, Temporal solitons and pulse compression in photonic crystal waveguides, Nature Photonics 4, 862 (2010). * equal contribution. [URL] [PDF] [supplement] [News & Views]

58. N. C. Panoiu, J. F. McMillan, and C. W. Wong, Influence of the group-velocity on the pulse propagation in 1D silicon photonic crystal waveguides, Appl. Phys. A 103, 835 (2011). [URL] [PDF]

59. Y. Li, J. Zheng, J. Gao, J. Shu, M. S. Aras, and C. W. Wong, Design of dispersive optomechanical coupling and cooling in ultrahigh-Q/V slot-type photonic crystal cavities, Optics Express 18, 23844 (2010); also at: arxiv.org/abs/1008.1779 . [URL] [PDF]

60. J. F. McMillan, M.Yu, D.-L. Kwong, and C. W. Wong, Observations of four-wave mixing in slow-light silicon photonic crystal waveguides, Optics Express 18, 15484 (2010); also at: arxiv.org/abs/1004.1642 . [URL] [PDF]

61. S. Kocaman, X. Yang, J. F. McMillan, M. B.Yu, D. L. Kwong, C. W. Wong, Observations of temporal group delays in slow-light multiple coupled photonic crystal cavities, Appl. Phys. Lett. 96, 221111 (2010); also at: arxiv.org/abs/1004.3477 . [URL] [PDF]

62. C. W. Wong, X. Yang, R. Chatterjee, S. Kocaman, J. F. McMillan, C. J. Chen, and C. A. Husko, Controlling dispersion and nonlinearities in mesoscopic silicon photonic crystals, VLSI Micro/Nanophotonics: Science, Technology, Applications, book chapter, CRC Press Taylor & Francis Group, ISBN: 9781574447293, Boca Rato, FL 33487, 2010. [URL]

63. J. Gao, J. F. McMillan, M.-C. Wu, S. Assefa, and C. W. Wong, Demonstration of an air-slot mode-gap confined photonic crystal slab nanocavity with ultrasmall mode volumes, Appl. Phys. Lett. 96, 051123 (2010); also at: arxiv.org/abs/0910.4111 . [URL] [PDF]

64. Y.-F. Xiao, X.-B. Zou, Q. Gong, G.-C. Guo, and C. W. Wong, Quantum electrodynamics in photonic crystal nanocavities towards quantum information processing, Recent Optical and Photonic Technologies, book chapter, publisher IN-TECH (ISBN 978-953-7619-71-8), Vienna, Austria, 2010. [URL]

65. C. J. Chen, C. A. Husko, I. Meric, K. L. Shepard, C. W. Wong, W. M. J. Green, Y. A. Vlasov, and S. Assefa, Deterministic tuning of slow-light in photonic crystal waveguides through the C and L bands by atomic layer deposition, Appl. Phys. Lett. 96, 081107 (2010); also at: arxiv.org/abs/0912.0788 . [URL] [PDF]

66. M. T. Rakher, R. Bose, C. W. Wong, and K. Srinivasan, Spectroscopy of 1.55 um PbS quantum dots on Si photonic crystal cavities with a fiber taper waveguide, Appl. Phys. Lett. 96, 161108 (2010); also at: arxiv.org/abs/0912.1365 . [URL] [PDF]

67. X. Yang, M. Yu, D.-L. Kwong, and C. W. Wong, Coupled resonances in multiple silicon photonic crystal cavities in all-optical solid-state analogy to electromagnetically-induced transparency, J. Sel. Top. Quant. Electr. 16 (issue on silicon photonics), 288 (2010) (invited). [URL] [PDF]

68. N. C. Panoiu, J. F. McMillan, and C. W. Wong, Theoretical Analysis of Pulse Dynamics in Silicon Photonic Crystal Wire Waveguides, J. Sel. Top. Quant. Electr. 16 (issue on silicon photonics), 257 (2010). [URL] [PDF]

69. R. Chatterjee, M. Yu, A. Stein, D.-L. Kwong, L. C. Kimerling, C. W. Wong, Demonstration of a hitless bpass switch using nanomechanical perturbation for high-bitrate transparent networks, Optics Express 18, 3045 (2010). [URL] [PDF]

70. R. Chatterjee and C. W. Wong, Nanomechanical proximity perturbation for switching in silicon-based directional couplers for high density photonic integrated circuits, J. Microelectromechanical Sys. 19, 657 (2010). [URL] [PDF]

71. M. Grad, C. C. Tsai, M. Yu, D.-L. Kwong, C. W. Wong, D. Attinger, Transient sensing of liquid films in microfluidic channels with optofluidic microresonators, IoP Meas. Sci. Technol. 21, 075204 (2010). [URL] [PDF]

72. S. Kocaman, R. Chatterjee, N. C. Panoiu, J. F. McMillan, M. B.Yu, R. M. Osgood, D. L. Kwong, and C. W. Wong, Observations of zero-order bandgaps in negative-index photonic crystal superlattices at the near-infrared, Phys. Rev. Lett. 102, 203905 (2009); also at: arxiv.org/abs/0904.2352 ; also selected for Virt. J. of Nanoscale Sci. and Tech. (June 8th 2009 issue). [URL] [PDF]

73. J. Y. Lee, B. H. Hong, W. Y. Kim, S. K. Min, Y. Kim, M. V. Jouravlev, R. Bose, K. S. Kim, I.-C. Hwang, L. J. Kaufman, C. W. Wong, P. Kim, and K. S. Kim, Near-field focusing and magnification through self-assembled nanoscale spherical lenses, Nature 460, 498 (2009); also selected for Virt. J. of Nanoscale Sci. and Tech. (August 3rd 2009 issue). [URL] [PDF] [supplement]

74. X. Yang, M. Yu, D.-L. Kwong, and C. W. Wong, All-optical analogue to electromagnetically induced transparency in multiple coupled photonic crystal cavities, Phys. Rev. Lett. 102, 173902 (2009); also at: arxiv.org/abs/0804.2845 . [URL] [PDF]

75. R. Bose, J. Gao, F. W. Sun, J. F. McMillan, A. D. Williams, and C. W. Wong, Cryogenic spectroscopy of ultra-low density colloidal lead chalcogenide quantum dots on chip-scale optical cavities towards single quantum dot near-infrared cavity QED, Optics Express 17, 22474 (2009); also at: arxiv.org/abs/0812.0222 . [URL] [PDF]

76. C. Husko, S. Combrie, Q. V. Tran, F. Raineri, C. W. Wong, and A. De Rossi, Non-trivial scaling of self-phase modulation and three-photon absorption in III-V photonic crystal waveguides, Optics Express 17, 22442 (2009); also at: arxiv.org/abs/0911.4538 . [URL] [PDF]

77. F. W. Sun and C. W. Wong, Indistinguishability of independent single photons, Phys. Rev. A 79, 013824 (2009); also at: arxiv.org/abs/0811.2739 . [URL] [PDF]

78. R. Bose, J. F. McMillian, J. Gao, and C. W. Wong, Solution-processed cavity and slow-light quantum electrodynamics in near-infrared silicon photonic crystals, Appl. Phys. Lett. 95, 131112 (2009); also selected for Virt. J. of Nanoscale Sci. and Tech. (October 12th 2009 issue). [URL] [PDF]

79. C. A. Husko, A. de Rossi, S. Combrie, Q. V. Tran, F. Raineri, C. W. Wong, Ultrafast all-optical modulation in GaAs photonic crystal cavities, Appl. Phys. Lett. 94, 021111 (2009). [URL] [PDF]

80. J. F. McMillan, M. Yu, D.-L. Kwong, and C. W. Wong, Observations of spontaneous Raman scattering in silicon slow-light photonic crystal waveguides, Appl. Phys. Lett. 93, 251105 (2008); also at: arxiv:abs/0807.3388 . [URL] [PDF]

81. Y.-F. Xiao, J. Gao, X.-B. Zou, J. F. McMillan, X. Yang, Y.-L. Chen, Z.-F. Han, G.-C. Guo, and C. W. Wong, Coupled quantum electrodynamics in photonic crystal nanocavities, New J. of Phys. 10, 123013 (2008); also at: arxiv:quant-ph/0707.2632 . [URL] [PDF]

82. R. Bose, J. F. McMillan, J. Gao, C. J. Chen, D. V. Talapin, C. B. Murray, K. M. Rickey, and C. W. Wong, Temperature-tuning of near-infrared (1.5-um) monodisperse quantum dot solids toward controllable FŲrster energy transfer, Nano Lett. 8, 2006 (2008); also at: arxiv.org/abs/0804.3311 . [URL] [PDF]

83. J. Gao, F. Sun, and C. W. Wong, Implementation scheme for quantum controlled phase-flip gate through quantum dot in silicon slow-light photonic crystal waveguide, Appl. Phys. Lett. 93, 151108 (2008); also at: arxiv.org/abs/0803.1017 ; also selected for Virt. J. of Quant. Info. (October 2008 issue); also selected for Virt. J. of Nanoscale Sci. and Tech. (October 27th 2008 issue). [URL] [PDF]

84. F. W. Sun, B. H. Liu, C. W. Wong, G. C. Guo, Permutation asymmetry inducing entanglement between degrees of freedom in multi-photon states, Phys. Rev. A 78, 015804 (2008); also at: arxiv:quant-ph/0802.0689 . [URL] [PDF]

85. R. Chatterjee, N. C. Panoiu, K. Liu, Z. Dios, M. Yu, M. T. Doan, L. J. Kaufman, R. M. Osgood, and C. W. Wong, Achieving subdiffraction imaging through bound surface states in negative refraction photonic crystals in the near-infrared range, Phys. Rev. Lett. 100, 187401 (2008); also at: arxiv:abs/0803.0986 ; also selected for Virt. J. of Nanoscale Sci. and Tech. (May 19th 2008 issue). [URL] [PDF]

86. Y.-F. Xiao, J. Gao, X. Yang, R. Bose, G.-C. Guo, and C. W. Wong, Nanocrystals in silicon photonic crystal standing-wave cavities as spin-photon phase gates for quantum information processing, Appl. Phys. Lett. 91, 151105 (2007); also at: arxiv:physics/0706.0064 ; also selected for Virt. J. of Quant. Info. (October 2007 issue); also selected for Virt. J. of Nanoscale Sci. and Tech. (October 22nd 2007 issue). [URL] [PDF]

87. X. Yang, C. Husko, M. Yu, D.-L. Kwong, and C. W. Wong, Observation of femto-joule optical bistability involving Fano resonances in high-Q/Vm silicon photonic crystal nanocavities, Appl. Phys. Lett. 91, 051113 (2007); also at: arxiv:physics/0703132 ; also selected for Virt. J. of Nanoscale Sci. and Tech. (August 13th 2007 issue). [URL] [PDF]

88. J. Gao, P. Heider, C. J. Chen, X. Yang, C. A. Husko, and C. W. Wong, Observations of whispering gallery modes in asymmetric optical resonators with rational caustics, Appl. Phys. Lett. 91, 181101 (2007); also at: arxiv:physics.optics/0707.2552 ; also selected for Virt. J. of Nanoscale Sci. and Tech. (November 12th 2007 issue). [URL] [PDF]

89. X. Yang, C. J. Chen, C. A. Husko, and C. W. Wong, Digital resonance tuning of high-Q/Vm silicon photonic crystal nanocavities by atomic layer deposition, Appl. Phys. Lett. 91, 161114 (2007); also at: arxiv:cond-mat.mtrl-sci/0707.2412 ; also selected for Virt. J. of Nanoscale Sci. and Tech. (October 29th 2007 issue). [URL] [PDF]

90. X. Yang and C. W. Wong, Coupled-mode theory for stimulated Raman scattering in high-Q/Vm photonic band gap defect cavity lasers, Optics Express 15, 4763 (2007); also at: arxiv:physics/0607052 ; [URL] [PDF]

91. R. Bose, X. Yang, R. Chatterjee, J. Gao, and C. W. Wong, Weak coupling interactions of colloidal lead sulphide nanocrystals with silicon photonic crystal nanocavities near 1.55 um at room temperature, Appl. Phys. Lett. 90, 111117 (2007); also at: arxiv:physics/0609174 ; also selected for Virt. J. of Nanoscale Sci. and Tech. (April 2007 issue). [URL] [PDF]

92. J. F. McMillan, X. Yang, N. C. Panoiu, R. M. Osgood Jr. and C. W. Wong, Enhanced stimulated Raman scattering in slow-light photonic crystal waveguides, Optics Lett. 31, 1235 (2006); also at: arxiv:physics/0511040 . [URL] [PDF]

93. P. T. Rakich, J. T. Gopinath, H. Sotobayashi, C. W. Wong, S. G. Johnson, J. D. Joannopoulos, S.-G. Kim, and E. P. Ippen, Nano-scale photonic crystal microcavity characterization with an all-fiber based 1.2 - 2.0 m supercontinuum, Optics Exp. 13, 821 (2005); also selected for Virt. J. of Nanoscale Sci. and Tech. (May 9th 2005 issue). [URL] [PDF]

94. X. Yang and C. W. Wong, Design of photonic band gap nanocavities for stimulated Raman amplification in monolithic silicon, Optics Exp. 13, 4723 (2005); also selected for Virt. J. of Nanoscale Sci. and Tech. (October 10th 2005 issue). [URL] [PDF]

95. C. W. Wong, P. Rakich, S. G. Johnson, M. Qi, H. I. Smith, L. C. Kimerling, E. P. Ippen, Y.-B. Jeon, G. Barbastathis, S.-G. Kim, Strain-tunable silicon photonic band gap microcavities in optical waveguides, Appl. Phys. Lett. 84, 1242 (2004); also selected for Virt. J. of Nanoscale Sci. and Tech. (March 1st 2004 issue). [URL] [PDF]

Selected Recent Conferences, Plenary and Invited Talks

(85+ invited talks and 150+ conference papers since 2003.)

1. C. W. Wong, Ultrafast and nonlinear dynamics in mesoscopic nonlinear oscillators, International Symposium on Physics and Applications of Lasers Dynamics, Paris, France, November 2017 (keynote plenary; invited).

2. C. W. Wong, Z. Xie, Y. Li, X. Cui, P. Li, and A. K. Vinod, High-dimensional quantum entanglement for secure communications, EMN conference on Quantum Communications and Quantum Imaging, Lyon, France, August 2017 (invited).

3. C. W. Wong, S.-W. Huang, J. Lim, J. Yang, H. Zhou, Y. Li, A. K. Vinod, H. Liu, P. Mortazavian, and Y. Luo, Chip-scale optical frequency combs for communications and precision metrology, Proc. CLEO Pacific Rim, Singapore, August 2017 (invited).

4. C. W. Wong, Optoelectronics and excitons in two-dimensional heterostructures, Nanophotonics of 2D materials, San Sebastian, Spain, August 2017 (invited).

5. S.-W. Huang, J. Yang, A. K. Vinod, J. Lim, and C. W. Wong, Precision measurements and ultrafast optics in microcavity frequency combs, XXXII URSI General Assembly and Scientific Symposium, Montreal, Canada, August 2017 (invited).

6. C. W. Wong, Y. Li, P. Li, and Z. Xie, Capturing the full Schmidt number with chip-scale quantum entanglement, 4th Workshop on Scalable Information Processing with Quanutm Nanophotonics, Massachusetts Institute of Technology, Cambridge, MA, March 2017 (invited).

7. C. W. Wong, B. Yao, S.-W. Huang, A. K. Vinod, and Y. Luo, Two-dimensional heterostructures for optoelectronics and THz, EMN West, Orlando, FL, February 2017 (invited).

8. C. W. Wong, S.-W. Huang, B. Yao, Y.-P. Lai, C. Choi, and E. Kinigstein, Ultrafast nonlinear processes in 2D optoelectronics, 2016 IEEE Photonics Conf., Waikoloa, HI, October 2016 (invited).

9. J. Lim, A. A. Savchenkov, E. Dale, W. Liang, D. Eliyahu, V. Ilchenko, A. B. Matsko, L. Maleki, and C. W. Wong, Impact of ambient perturbations on photonic microresonator stability, 2016 IEEE Photonics Conf., Waikoloa, HI, October 2016 (invited).

10. C. W. Wong, J. Lim, S.-W. Huang, A. Kumar, J. Yang, and P. Mortazavian, Precision measurements in microresonators and microresonator frequency combs, October 2016 (invited).

11. C. W. Wong, Ultrafast nonlinear dynamics in mesoscopic oscillators, International Conf. on Applications in Nonlinear Dynamics, Denver, CO, August 2016 (invited).

12. C. W. Wong, Y. Huang, J. G. Flor Flores, J. Lim, and S.-W. Huang, Precision measurements in optomechanical photonic crystal cavities, SPIE Proceedings of Photonics West, San Francisco, CA, February 2016 (invited).

13. C. W. Wong, S.-W. Huang, J. Lim, A. K. Vinod, J. Yang, H. Zhou, Dynamics and generation of microresonator frequency combs, SPIE Proceedings of Photonics West, San Francisco, CA, February 2016 (invited).

14. S. W. Huang, J. Lim, A. K. Vinod, J. Yang, H. Zhou, P. Mortazavian, and C. W. Wong, Ultrafast dynamics and stabilization in frequency combs, EMN Ultrafast Conference, Las Vegas, NV, November 2015 (invited).

15. J. Lim, A. A. Savchenkov, E. Dale, W. Liang, D. Eliyahu, P. Mortazavian, V. Ilchenko, A. B. Matsko, L. Maleki, and C. W. Wong, Chasing the thermodynamic noise limit in microcavity lasers, Frontiers in Optics, paper FW6A.4, San Jose, CA, October 2015 (post-deadline paper).

16. C. W. Wong, Ultrafast mode-locking, dynamics, and stabilization in microresonators, IEEE Photonics Conference, Reston, VA, October 2015 (invited).

17. C. W. Wong, S. W. Huang, Yongnan Li, J. Lim, A. K. Vinod, Z. Xie, and J. Yang, Quantum and ultrafast precision measurements in mesoscopic mode-locked architectures, SPIE Proceedings of Photonics North, Ottawa, Canada, June 2015 (invited).

18. C. W. Wong, Real-time soliton and pulse dynamics in silicon photonics, 2015 Danish – Silicon Valley Photonics Workshop / Big Data and Real Time Analytics in Photonics, Los Angeles, California, March 2015.

19. C. W. Wong, Z. Xie, S. Shrestha, S.-W. Huang, J. Yang, and H. Zhou, Quantum and ultrafast precision measurements in mesoscopic mode-locked architectures, SPIE Proceedings of Photonics West, San Francisco, California, February 2015 (invited).

20. C. W. Wong, Y. Huang, Y. Li, X. Luan, J. F. McMillan, and J. Wu, Nanoscale cavity optomechanics at the fundamental limits, International Conference on Small Science, Hong Kong, China, December 2014 (invited).

21. Z. Xie, S.-W. Huang, J. F. Mcillan, S. Shrestha, J. Yang, and C. W. Wong, Nonlinear quantum optics and precision measurements in mesoscopic high-Q optical cavities, Frontiers in Optics / Laser Science, Tucson, Arizona, October 2014 (invited).

22. S.-W. Huang, J. Yang, J. F. McMillan, and C. W. Wong, Ultrafast mode-locked optical frequency Kerr comb oscillators, 31st General Assembly and Scientific Symposium of the International Union of Radio Science, Beijing, China, August 2014 (invited).

23. C. W. Wong, S.-W. Huang, , S. Combrie, P. Colman, A. de Rossi, C. A. Husko, L. Maleki, A. B. Matsko, J. F. McMillan, J. Yang, and H. Zhou, Chip-scale ultrafast solitons and frequency comb mode-locking, SPIE Proceedings of Photonics West, San Francisco, California, February 2014 (invited).

24. C. W. Wong, High-dimensional hyperentanglement in integrated photonics, Scalable information processing with quantum nanophotonics, Raytheon BBN Technologies workshop, Cambridge, MA, January 2014 (invited).

25. C. W. Wong, S.-W. Huang, T. Gu, X. Luan, J. F. McMillan, D. Wang, J. Yang, and Heng Zhou, Microwave oscillators in chip-scale photonics, 2013 IEEE International Topical Meeting on Microwave Photonics, Alexandria, VA, October 2013 (invited).

26. C. W. Wong, T. Gu, F. Gesuele, H. Zhou, J. F. McMillan, N. Shi, and P. A. Sanchez, Graphene nonlinear and ultrafast optoelectronics: stepping up to the surface, Frontiers in Optics 2013 and Laser Science XXIX, Orlando, FL, October 2013 (invited).

27. C. W. Wong, S.-W. Huang, J. F. McMillan, Heng Zhou, and J. Yang, Ultrafast frequency combs, International Conf. on Nanoscience and Technology (ChinaNano 2013), Beijing, China, September 2013 (invited).

28. C. W. Wong, Controlling photons in mesoscopic systems: precision measurements in frequency combs and optomechanics, IEEE 2013 International Conf. on Optical MEMS and Nanophotonics, Kanazawa, Japan, August 2013 (invited; plenary talk).

29. C. W. Wong, T. Gu, N. Shu, S.-W. Huang, Hao Zhou, F. Gesuele, J. F. McMillan, and O. A. Ajayi, Graphene optoelectronics and photonics,SPIE Optics and Photonics Congress, San Diego, CA, August 2013 (invited).

30. C. W. Wong, Controlling photons in mesoscopic systems: precision oscillators, quantum entanglement, and strongly-coupled polaritons, Princeton-MITRE seminar on Quantum Engineering, Princeton University, Princeton, NJ, May 2013 (invited).

31. C. W. Wong, Chip-scale precision measurements: cavity optomechanics, frequency combs, and quantum entanglement, John Hopkins University Applied Physics Laboratory, Laurel, MD, May 2013 (invited).

32. C. W. Wong, J. Gao, and O. A. Ajayi, Individual quantum dots spectroscopy: slow-light polaritons and energy transfer dynamics, Single Molecule Microscopy Tools for Materials Science and Life Sciences, 2013 Brookhaven NSLS / CFN Workshop, Stony Brook, NY, May 2013 (invited).

33. C. W. Wong, Controlling light in mesoscopic systems: ultrafast, nonlinear, quantum and precision measurements, University of Texas at Austin, Department of Physics / Center for Complex Quantum Systems, Austin, TX, April 2013 (invited).

34. C. W. Wong, Graphene optoelectronics, Stanford-Berkeley-DTU Photonics, Stanford, CA, February 2013 (invited).

35. C. W. Wong, J. F. McMillan, T. Gu, J. Zheng, P.-C. Hsieh, S. Kocaman, X. Li, Y. Li, J. Liang, M. D. Marko, N. Shi, A. Veitia, X. Xu, Z. Xie, and J. Yang, Nonlinear, ultrafast and quantum optics in photonic integrated circuits, SPIE Proceedings of Photonics West, San Francisco, CA, February 2013 (invited).

36. C. W. Wong, Ultrafast spectroscopy of graphene and nanomaterials, Joint workshop on nanoscience and nanotechnology opportunities for academia and high tech industry, Brookhaven National Laboratory, Upton, NY, January 2013 (invited).

37. C. W. Wong, Nonlinear and cavity quantum electrodynamics in mesoscopic photonic crystals, International Conference on Young Researchers on Advanced Materials, Materials Research Society, Singapore, July 2012 (invited; keynote talk).

38. C. W. Wong, J. F. McMillan, T. Gu, M. Marko, X. Liu, P. Hsieh, and S. Kocaman, Ultrafast nonlinearities and dispersion in slow-light photonic crystal lattices, Integrated Photonics Research, Silicon, and Nano Photonics, Colorado Springs, CO, June 2012 (invited).

39. C. W. Wong, J. F. McMillan, J. Gao, J. Zheng, T. Gu, P. Hsieh, Y. Li, X. Li, and M. Marko, Nonlinear and quantum optics in mesoscopic photonic lattices, in Proceedings of Conference of Lasers and Electro-Optics / Quantum Electronics and Laser Science, San Jose, CA, May 2012 (invited).

40. T. Gu, N. Petrone, J. F. McMillan, A. van der Zande, M. Yu, G. Q. Lo, D. L. Kwong, J. Hone, and C. W. Wong, Regenerative oscillation and four-wave mixing in graphene optoelectronics, in Proceedings of Conference of Lasers and Electro-Optics / Quantum Electronics and Laser Science, San Jose, CA, May 2012 (post-deadline news).

41. C. W. Wong, J. F. McMillan, T. Gu, M. Marko, X. Li, P. Hsieh, and S. Kocaman, Ultrafast nonlinearities and dispersion in slow-light photonic crystal lattices, Integrated Photonics Research, Silicon and Nano Photonics, Colorado Springs, CO, June 2012 (invited).

42. C. W. Wong, Nonlinear and cavity quantum electrodynamics in mesoscopic III-V structures, Materials Research Society, International Conference of Young Researchers on Advanced Materials, Singapore, July 2012 (keynote speaker; invited).

43. C. W. Wong, Nonlinear and quantum optics in mesoscopic photonic structures, 6th International Conference on Nanophotonics, Peking University, Beijing, China, May 2012 (invited).

44. A. De Rossi, S. Combriť, P. Colman, C. Husko, C. W. Wong, I.Sagnes, I. Cestier, V. Echouse and G. Eisenstein, All-optical processing in photonic crystals, Slow and Fast Light conference (OSA), Toronto, Canada, June 2011 (invited).

45. C. W. Wong, J. Zheng, J. Shu, Y. Li, and J. Gao, Cavity optomechanics in photonic crystals, Phononics 2011: The First International Conference on Phononic Crystals, Metamaterials and Optomechanics, Sharm El-Sheikh, Egypt, May 2011 (invited).

46. C. W. Wong, J. F. McMillan, C. A. Husko, J. Zheng, Y. Li, J. Gao, J. Shu, S. Kocaman, T. Gu, and M. S. Aras, Nonlinear parametric processes in photonic crystal nanostructures, SPIE Proceedings of Photonics West, San Francisco, California, January 2011 (invited).

47. C. W. Wong, Controlling light in photonic crystals, Bell Labs, Alcatel - Lucent, Crawford Hill, NJ, May 2010 (invited).

48. C. W. Wong, Nonlinear and quantum optics in photonic nanostructures, Massachusetts Institute of Technology / Research Laboratory of Electronics, Optics and Quantum Electronics seminar series, Cambridge, MA, April 2010 (invited).

49. C. W. Wong, Nonlinear and quantum optics in photonic nanostructures, Harvard University, Cambridge, MA, April 2010 (invited).

50. C. W. Wong et al. Nonlinear and quantum optics in photonic nanostructures, SPIE Proceedings of Photonics West, San Francisco, California, January 2010 (invited).

51. C. W. Wong, Controlling single photons in nanostructures, Progress In Electromagnetics Research Symposium, Moscow, Russia, August 2009 (invited).

52. C. Husko, S. Combriť, Q.V. Tran, F. Raineri, C.W. Wong, A. De Rossi, Pulse compression and slow-light enhanced three-photon absorption in GaInP photonic crystal waveguides, in Proceedings of Conference of Lasers and Electro-Optics / International Quantum Electronics Conferences, Baltimore, MD, May 2009 (post-deadline news).

53. C. W. Wong, Nonlinear dynamics of engineered photons in nanostructures, University of California at Berkeley, Berkeley, California, February 2009 (invited).

54. C. W. Wong and J. F. McMillan, Observations of enhanced Raman scattering in silicon slow-light photonic crystal waveguides and nanophotonics, in SPIE Proceedings of Optics and Photonics: Nanophotonics, San Diego, California, 2008 (invited).

55. C. W. Wong, R. Chatterjee, J. Gao, C. J. Chen, J. F. McMillan, X. Yang, R. Bose, and Y.-F. Xiao, Coherent interactions in photonic crystal nanostructures: controlling dispersion and efforts towards quantum information processing, European Materials Research Society Spring 2008 meeting, Strasbourg, France, May 2008 (invited).

56. C. W. Wong et al., Controlling Light with Photonic Crystal Nanostructures: Dispersion, Nonlinearities and Quantum, in SPIE Proceedings of Optics and Photonics: Nanophotonics, San Diego, California, 2007 (invited).

57. R. Bose. R. Chatterjee, X. Yang, J. Gao, C. W. Wong, Weak coupling interactions of silicon photonic cystals with PbS nanocrystals at room temperature, in Proceedings of Conference of Lasers and Electro-Optics / Quantum Electronics and Laser Sciences, Baltimore, Maryland, 2007.

58. C. W. Wong, J. F. McMillan, C. A. Husko. X. Yang, K. Liu, R. Chatterjee, R. Bose, Photonic crystal nanostructures and silicon photonics, in Proc. of Photonics West, San Jose, California, 2006 (invited).

59. K. Liu, R. Chatterjee, N. Panoiu, Z. Dios, M. Doan, M. Yu, R. M. Osgood, and C. W. Wong, Near-field observation of negative refraction in silicon photonic crystals at the near-infrared, in Proceedings of Conference of Lasers and Electro-Optics / Quantum Electronics and Laser Sciences, Long Beach, California, May 2006 (post-deadline news).

60. C. W. Wong, C. A. Husko, J. F. McMillan. X. Yang, C. J. Chen, R. Bose, and J. Gao, Nonlinearities and non-classical emission in photonic band gap nanostructures, in Proceedings of SIAM Conference on Nonlinear Waves and Coherent Structures, Seattle, Washington, 2006 (invited).

61. C. W. Wong, R. Chatterjee, K. Liu, C. J. Chen, and C. A. Husko, Negative refraction and nonlinearities in photonic band gap nanostructures, in SPIE Proceedings of Optics and Photonics: Nanophotonics (NP208), San Diego, California, 2006 (invited).

62. P. T. Rakich, H. Sotobayashi, J. T. Gopinath, J. W. Sickler, C. W. Wong, M. Qi, S. G. Johnson, E. Lidorikis, J. D. Joannopoulos, H. I. Smith, and E. P. Ippen, Broadband optical studies of 1D and 3D photonic crystals, in Proc. of Optics East, Boston, Cambridge, 2005 (invited).

Patents

18 awarded and 7 provisional patents on mesoscopic optics including ultrafast, nonlinear, quantum and precision measurements.

Publications



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