Selected Publications

Notes:All posted papers are in the pdf format.
JV's pre-group publications are from 2002 and before.


Journals

2008

  1. Controlled Phase Shifts with a Single Quantum Dot, Ilya Fushman, Dirk Englund, Andrei Faraon, Nick Stoltz, Pierre Petroff, Jelena Vuckovic, Science, vol. 320, number 5877, pp. 769-772 (2008)
    Highlights: See also story by Stanford News Service
  2. Quantum information processing on photonic crystal chips, Dirk Englund, Andrei Faraon, Ilya Fushman, Jelena Vuckovic, SPIE Newsroom (2008)
  3. Enhanced light emission in photonic crystal nanocavities with Erbium-doped silicon nanocrystals, Maria Makarova, Vanessa Sih, Joe Warga, Rui Li, Luca dal Negro, Jelena Vuckovic, Applied Physics Letters, Vol. 92, article 161107 (2008)
  4. Coherent generation of nonclassical light on a chip via photon-induced tunneling and blockade Andrei Faraon, Ilya Fushman, Dirk Englund, Nick Stoltz, Pierre Petroff, Jelena Vuckovic, (arXiv:0804.2740)
  5. Local Tuning of Photonic Crystal Cavities Using Chalcogenide Glasses Andrei Faraon, Dirk Englund, Douglas Bulla, Barry Luther-Davies, Benjamin J. Eggleton, Nick Stoltz, Pierre Petroff, Jelena Vuckovic, Applied Physics Letters, Vol 92, article 043123 (2008) (arXiv:0711.0772)
  6. Spontaneous Emission Control in High-Extraction Efficiency Plasmonic Crystals, Hideo Iwase, Dirk Englund, Jelena Vuckovic, Optics Express, Vol 16, pp 426-434 (2008) (arXiv:0711.4879)

2007

  1. Controlling Cavity Reflectivity With a Single Quantum Dot, Dirk Englund, Andrei Faraon, Ilya Fushman, Nick Stoltz, Pierre Petroff, Jelena Vuckovic, Nature, vol. 450, number 7171, pp. 857-861 (2007)
    Highlights: See also stories by Stanford Report, optics.org; Q&A, further information about paper
  2. Efficient Terahertz Room-Temperature Photonic Crystal Nanocavity Laser, Dirk Englund, Hatice Altug, Ilya Fushman, and Jelena Vuckovic, Applied Physics Letters, Vol 91, article 071126 (2007) (arXiv:0705.0537v1)
    Highlights: Featured in Laser Focus World October 2007 issue.
  3. Genetic Optimization of Photonic Bandgap Structures, Joel Goh, Ilya Fushman, Dirk Englund, Jelena Vuckovic, Optics Express, Vol 15, pp. 8218-8230 (2007) (arXiv:0704.0181v1)
  4. Local Quantum Dot Tuning on Photonic Crystal Chips, Andrei Faraon, Dirk Englund, Ilya Fushman, Nick Stoltz, Pierre Petroff, Jelena Vuckovic, Applied Physics Letters, Vol 90, article 213110 (2007) (arXiv:quant-ph/0703265)
  5. Low-Threshold Surface-Passivated Photonic Crystal Nanocavity Laser, Dirk Englund, Jelena Vuckovic, and Hatice Altug, Applied Physics Letters, Vol 91, article 071124 (2007) (arXiv:quant-ph/0703198)
  6. Analysis of a Quantum Nondemolition Measurement Scheme Based on Kerr Nonlinearity in Photonic Crystal Waveguides, Ilya Fushman and Jelena Vuckovic, Optics Express, Vol. 15, pp. 5559-5571 (2007) (arXiv:quant-ph/0603150)
  7. Dynamics of Quantum Dot Photonic Crystal Lasers, Bryan Ellis, Ilya Fushman, Dirk Englund, Bingyang Zhang, Yoshihisa Yamamoto, and Jelena Vuckovic, Applied Physics Letters, vol 90, article 151102 (2007) (arXiv:quant-ph/0703067)
    Highlights:One of the most downloaded research article from Applied Physics Letters in April 2007.
  8. Ultra Fast Nonlinear Optical Tuning of Photonic Crystal Cavities, Ilya Fushman, Edo Waks, Dirk Englund, Nick Stoltz, Pierre Petroff, and Jelena Vuckovic, Applied Physics Letters, vol. 90, article 091118 (2007) (arXiv:physics/0611303)
    Highlights: highlighted in Nature Photonics, April 2007, pp. 203
  9. Design of plasmon cavities for solid-state cavity quantum electrodynamics applications, Yiyang Gong and Jelena Vuckovic, Applied Physics Letters , vol. 90, article 033113 (2007) (arXiv:quant-ph/0609169)
  10. Efficient photonic crystal cavity-waveguide couplers , Andrei Faraon, Dirk Englund, Ilya Fushman, Jelena Vuckovic, Edo Waks,Applied Physics Letters, vol. 90, article 073102 (2007) (arXiv:physics/0610105)
    Highlights: One of the most downloaded articles from Applied Physics Letters in February 2007.
  11. Generation and Transfer of Single Photons on a Photonic Crystal Chip, Dirk Englund, Andrei Faraon, Bingyang Zhang, Yoshihisa Yamamoto, and Jelena Vuckovic, Optics Express, Vol. 15, pp. 5550-5558 (2007) (arXiv:quant-ph/0609053)

2006

  1. Silicon based photonic crystal nanocavity light emitters, Maria Makarova, Jelena Vuckovic, Hiroyuki Sanda, Yoshio Nishi, Applied Physics Letters, vol. 89, article 221101 (2006) (arXiv:physics/0609060)
    Highlights:The most downloaded research article from Applied Physics Letters in December 2006. Featured in Laser Focus World October 2007 issue.
  2. Patterned femtosecond laser excitation of terahertz leaky modes in GaAs photonic crystals, Nathan Jukam, Ilya Fushman, Cristo Yee, Jelena Vuckovic, and Mark S. Sherwin, Applied Physics Letters, vol. 89, 241112 (2006)
  3. Ultra-fast Photonic Crystal Nanolasers, Hatice Altug, Dirk Englund, and Jelena Vuckovic, Nature Physics , vol. 2, pp. 484-488 (July 2006)
    Highlights: Also featured as the cover story in this issue of Nature Physics and highlighted in Nature Photonics and Laser Focus World December 2006 issue, and again in Laser Focus World October 2007 issue.
  4. Dipole Induced Transparency in drop filter cavity-waveguide systems, Edo Waks and Jelena Vuckovic, Physical Review Letters,vol. 96, article 153601 (2006) (arXiv:quant-ph/0510228)
  5. A direct analysis of photonic nanostructures, Dirk Englund and Jelena Vuckovic, Optics Express, vol. 14, pp. 3472-3483 (2006)
  6. Dispersive properties and giant Kerr non-linearities in Dipole Induced Transparency, Edo Waks and Jelena Vuckovic,Physical Review A, vol. 73, article 041803(R) (2006)arXiv:quant-ph/0511205
  7. Two-Dimensional Porous Silicon Photonic Crystal Light Emitters, Maria Makarova, Jelena Vuckovic, Hiroyuki Sanda, Yoshio Nishi (arXiv:physics/0509178)
  8. Generation and manipulation of nonclassical light using photonic crystals, Jelena Vuckovic, Dirk Englund, David Fattal, Edo Waks, and Yoshihisa Yamamoto, Physica E, vol. 31, No. 2 (2006) (arXiv:quant-ph/0507273)
  9. Photonic Crystal Nanocavity Arrays, Hatice Altug and Jelena Vuckovic, Invited article for IEEE LEOS Newsletter, vol. 20, No. 2, pp. 4-11, April 2006
    Highlights: Also featured as the cover story of this IEEE LEOS Newsletter

2005

  1. Photonic crystal nanocavity array laser, Hatice Altug and Jelena Vuckovic, Optics Express, vol. 13, No. 22, pp. 8819-8828 (2005)
    Highlights: See also the Stanford Report story, Laser Focus World article, and Photonics Spectra article.
  2. Coupling of Pb quantum dots to photonic crystal cavities at room temperature, Ilya Fushman, Dirk Englund, and Jelena Vuckovic, Applied Physics Letters vol. 87, article 241102 (2005) (arXiv:physics/0505098)
  3. General recipe for designing photonic crystal cavities, Dirk Englund, Ilya Fushman, and Jelena Vuckovic, Optics Express, Vol. 13, No. 16, pp. 5961 - 5975 (2005) (arXiv:physics/0507156)
    Highlights: See also the optics research highlight in Nature and the review of this article by Henri Benisty: Photonic crystals: New designs to confine light, Nature Physics, vol. 1, pp. 9, Oct. 2005
  4. Controlling the Spontaneous Emission Rate of Single Quantum Dots in a 2D Photonic Crystal, Dirk Englund, David Fattal, Edo Waks, Glenn Solomon, Bingyang Zhang, Toshihiro Nakaoka, Yasuhiko Arakawa, Yoshihisa Yamamoto, and Jelena Vuckovic, Physical Review Letters vol. 95, article 013904 (2005) (arXiv:quant-ph/0501091)
  5. Coupled mode theory for photonic crystal cavity-waveguide interaction, E. Waks and J. Vuckovic, Optics Express, ol.13, No. 13, pp. 5064 - 5073 (2005)(arXiv:physics/0504077)
  6. Polarization control and sensing with two-dimensional coupled photonic crystal microcavity arrays, Hatice Altug and Jelena Vuckovic, Optics Letters vol. 30, No. 9, pp. 982-984 (2005) (arXiv:physics/0407103)
  7. Experimental demonstration of the slow group velocity of light in two-dimensional coupled photonic crystal microcavity arrays, Hatice Altug and Jelena Vuckovic, Applied Physics Letters, vol. 86, article 111102 (2005). (arXiv:physics/0406109)
    Highlights: See also the Physics Web News Story
  8. Fabrication of InAs quantum dots in AlAs/GaAs DBR pillar microcavities for single photon sources, B. Zhang, G. S. Solomon, M. Pelton, J. Plant, C. Santori, J. Vuckovic, and Y. Yamamoto, Journal Of Applied Physics vol. 97, article 073507 (2005)
  9. Single photons on demand, Barry Sanders, Jelena Vuckovic and Philippe Grangier, Europhysics News, vol. 36, No. 2, pp. 56-58, March/April 2005 (review article)
  10. Single photons for quantum information systems, Y. Yamamoto, C. Santori, G. Solomon, J. Vuckovic, D. Fattal, E. Waks, E. Diamanti, Progress in Informatics No.1, pp. 5-37 (2005) (review article)

2004

  1. Two dimensional coupled photonic crystal resonator arrays, H. Altug and J. Vuckovic, Applied Physics Letters, vol. 84, pp. 161-163, January 2004.
    Highlights: See also the cover of Applied Physics Letters dedicated to this article. (arXiv:physics/0406110)
  2. Entanglement formation and violation of Bell's inequality with a semiconductor single photon source, D. Fattal, K. Inoue, J. Vuckovic, C. Santori, G. Solomon, and Y. Yamamoto, Physical Review Letters, vol. 92, article 037903, 2004. (arXiv:quant-ph/0305048)
  3. Sub-microsecond correlations in photoluminescence from InAs quantum dots, C. Santori, D. Fattal, J. Vuckovic, G. Solomon, E. Waks, and Y. Yamamoto, Physical Review B, vol. 69, article 205324 2004. (arXiv:cond-mat/0308323)
  4. Planar photonic crystal nanolasers (I): Porous cavity lasers, M. Loncar, T. Yoshie, K. Okamoto, Y. Qiu, J. Vuckovic, and A. Scherer, IEICE Transactions on Electronics, Vol. E87-C, No. 3, pp. 291-299, 2004.
  5. Single-photon generation with InAs quantum dots, C. Santori, D. Fattal, J. Vuckovic, G. Solomon, and Y, Yamamoto, New Journal of Physics, focus issue on Single photons on demand, vol. 6, 2004.
    Highlights: See also this whole focus issue on Single photons on demand, of the New Journal of Physics.
  6. Photonic technologies for quantum information processing, P. Kumar, P. Kwiat, A. Migdall, S. W. Nam, J. Vuckovic, and F. N. C. Wong, Journal of Quantum Information Processing, Special issue on experimental aspects of quantum computing, vol. 3, No. 1-5, Oct. 2004.
  7. Sub-micron all-optical digital memory and integration of nano-scale photonic devices without isolators, M. F. Yanik, H. Altug, J. Vuckovic and S. Fan, Journal of Lightwave Technology, vol. 22, No. 10, pp. 2316-2322, 2004.
  8. Generation of single photons and correlated photon pairs using InAs quantum dots, C. Santori, D. Fattal, J. Vuckovic, G. S. Solomon, and Y. Yamamoto, Fortschritte der Physik-Progress Of Physics, vol. 52, No. 11-12, pp. 1180-1188 (Nov-Dec 2004).

2003

  1. Enhanced single photon emission from a quantum dot in a micropost microcavity, J. Vuckovic, D. Fattal, C. Santori, G. Solomon, and Y. Yamamoto, Applied Physics Letters, vol. 82, pp. 3596-3598, May 2003. (arXiv:quant-ph/0307025)
  2. Photonic crystal microcavities for cavity quantum electrodynamics with a single quantum dot, J. Vuckovic and Y. Yamamoto, Applied Physics Letters, vol. 82, pp. 2374-2376, April 2003.
  3. An efficient source of single photons: a single quantum dot in a micropost microcavity , M. Pelton, J. Vuckovic, G. Solomon, C. Santori, B. Zhang, J. Plant, and Y. Yamamoto, Physica E - Low dimensional systems and nanostructures, vol. 17, pp. 564-567, 2003.
  4. Indistinguishable single photons from a quantum dot, D. Fattal, C. Santori, J. Vuckovic, G. Solomon, Y. Yamamoto, Physica Status Solidi b, vol. 238, pp. 305-308, 2003.

2002

  1. Secure communication: Quantum cryptography with a photon turnstile, E. Waks, K. Inoue, C. Santori, D. Fattal, J. Vuckovic, G. Solomon, and Y. Yamamoto,Nature, vol. 420, pp. 762, December 2002.
    Check also the supplementary information on this article on the Nature website
  2. An efficient source of single photons: a single quantum dot in a micropost microcavity, M. Pelton, C. Santori, J. Vuckovic, B. Zhang, G. S. Solomon, J. Plant, and Y. Yamamoto, Physical Review Letters, vol. 89, article 233602, November 2002. (arXiv:quant-ph/0208054)
        
    Highlights: See also the cover of Phys. Rev. Letters dedicated to this article.
  3. Indistinguishable photons from a single-photon device, C. Santori, D. Fattal, J. Vuckovic, G. S. Solomon, and Y. Yamamoto, Nature, vol. 419, pp. 594-597, Oct. 2002.
    Highlights:See also the review of this article by Philippe Grangier: Single photons stick together Nature, vol. 419, pp. 577, Oct. 2002, and the news featured in the Science and Nature magazines (the latter requires a free registration for "Nature physics portal").
  4. Optimization of three-dimensional micropost microcavities for cavity quantum electrodynamics, J. Vuckovic, M. Pelton, A. Scherer, and Y. Yamamoto, Physical Review A, vol. 66, article 023808, August 2002. (arXiv:quant-ph/0208134)
  5. Optimization of Q-factor in photonic crystal microcavities, J. Vuckovic, M. Loncar, H. Mabuchi, and A. Scherer, IEEE Journal of Quantum Electronics, vol. 38, No. 7, pp. 850-856, July 2002.
  6. Photonic crystals for confining, guiding, and emitting light, A. Scherer, O. Painter, J. Vuckovic, M. Loncar, and T. Yoshie, IEEE Transactions on Nanotechnology, vol.1, pp. 4 -11, 2002.
  7. Experimental and theoretical confirmation of Bloch-mode light propagation in planar photonic crystal waveguides, M. Loncar, D. Nedeljkovic, T. P. Pearsall, J. Vuckovic, A. Scherer, S. Kuchinsky, and D. C. Allan, Applied Physics Letters, vol. 80, No. 10, pp. 1689-1691, 2002.
  8. Three dimensionally confined modes in micropost microcavities: quality factors and Purcell factors, M. Pelton, J. Vuckovic, G. S. Solomon, A. Scherer, and Y. Yamamoto, IEEE Journal of Quantum Electronics, vol. 38, No. 2, pp. 170-177, February 2002.
  9. Design of photonic crystal microcavities for cavity QED, J. Vuckovic, M. Loncar, H. Mabuchi, and A. Scherer, Physical Review E, vol. 65, article # 016608, January 2002. (arXiv:quant-ph/0208101)

2001

  1. High quality two-dimensional photonic crystal slab cavities, T. Yoshie, J. Vuckovic, A. Scherer, H. Chen, and D. Deppe, Applied Physics Letters, vol. 79, pp. 4289-4291, December 2001.
  2. Quantum networks based on cavity QED, H. Mabuchi, M. Armen, B. Lev, M. Loncar, J. Vuckovic, H.J. Kimble, J. Preskill, M. Roukes, and A. Scherer, Quantum Information and Computation, vol. 1, special issue on Implementation of Quantum Computation, pp. 7-12, 2001.
  3. Low Complexity Soft Decision Decoding Algorithms for Reed Solomon Codes , B. Vucetic, V. Ponnampalam, and J. Vuckovic, IEICE Transactions on Communications (Special Issue on Innovative Mobile Communication Technologies at the Dawn of the 21st Century), Vol. E84-B, No. 3, pp. 392-399, March 2001.
  4. Methods for controlling positions of guided modes in photonic crystal waveguides, M. Loncar, J. Vuckovic, and A. Scherer, Journal of the Optical Society of America B, vol. 18, Issue 9 pp. 1362-1368, September 2001.

2000

  1. Surface plasmon enhanced light-emitting diode, J. Vuckovic, M. Loncar, and A. Scherer, IEEE Journal of Quantum Elecronics, vol. 36, No. 10, pp. 1131-1144, October 2000.
  2. Low energy electron beam focusing in self-organized porous alumina vacuum windows, T. Doll, J. Vuckovic, M. Hochberg, and A. Scherer, Applied Physics Letters, vol. 76, No. 24, pp. 3635-3637, 2000.
  3. Design and fabrication of silicon photonic crystal optical waveguides, M. Loncar, T. Doll, J. Vuckovic, and A. Scherer, Journal of Lightwave Technology, vol. 18, No. 10, pp. 1402-1411, October 2000.
  4. Waveguiding in planar photonic crystals, M. Loncar, D. Nedeljkovic, T. Doll, J. Vuckovic, A. Scherer, and T. P. Pearsall, Applied Physics Letters, vol. 77, No. 13, pp. 1937-1939, September 25, 2000.

1999

  1. Finite-Difference Time-Domain Calculation of the Spontaneous Emission Coupling Factor in Optical Microcavities , J. Vuckovic, O. Painter, Y. Xu, A. Yariv, and A. Scherer, IEEE Journal of Quantum Electronics, vol. 35, No. 8, pp. 1168-1174, August 1999.
  2. Defect modes of a two-dimensional photonic crystal in an optically thin dielectric slab, O. Painter, J. Vuckovic, and A. Scherer, Journal of the Optical Society of America B, vol. 16, No. 2, pp. 275-285, February 1999.
  3. Finite-difference time-domain calculation of spontaneous emission lifetime in a microcavity, Y. Xu, J. S. Vuckovic, R. K. Lee, O. J. Painter, A. Scherer, and A Yariv, Journal of the Optical Society of America B, vol. 16, No., pp. 465-474, March 1999.

Plenary talks

  1. 12th International Conference on Modulated Semiconductor Structures (MSS12) and International Conference on Electronic Properties of Two-Dimensional Systems (EP2DS-16),Albuquerque, NM, July 2005: "Generation and manipulation of classical and nonclassical light using photonic crystals"

Invited talks

  1. International Workshop on Fundamentals of Light-Matter Interaction, Recife, Brazil, Oct. 20-22, 2008
  2. Frontiers in Optics/Laser Science, XXIV Annual Meeting, Rochester, NY, Oct. 19-23, 2008
  3. SPIE Optics and Photonics Meeting, San Diego, Aug. 10-14, 2008
  4. European Materials Research Society (EMRS) Spring Meeting, Symposium on Active materials in photonic crystals for (strong) light matter coupling, Strasbourg, France, May 26-30, 2008
  5. CIPS Annual Meeting, MIT , Cambridge, MA, May 2008
  6. MIT, EECS Seminar, Cambridge, MA, May 2008
  7. University of Maryland, Seminar of the Joint Quantum Institute of the University of Maryland and NIST, May 2008
  8. University of Calgary, Department of Physics Colloquium, April 2008
  9. Annual Meeting of CUDOS (Centre for Ultrahigh-bandwidth Devices for Optical Systems, an ARC Centre of Excellence), Sydney, Australia, Feb. 2008.
  10. SPIE Anual Meeting - Photonics West, Conference on Physics and Simulation of Optoelectronic Devices, San Jose, CA, Jan. 2008
  11. SPIE Anual Meeting - Photonics West, Symposium on Advanced Optical Concepts in Quantum Computing, Memory, and Communications, San Jose, CA Jan. 2008
  12. SPIE Anual Meeting - Photonics West, Symposium on Photonic Crystal Materials and Devices, San Jose, CA, Jan. 2008
  13. ISCS (International Symposium on Compound Semiconductors), Kyoto, Japan, Oct. 15-18, 2007
  14. Stanford Photonics Research Center (SPRC) Annual Meeting, Stanford, CA, Sept. 2007
  15. OSA Nonlinear Optics Topical Meeting, Kona, Hawaii, July 30-August 3 2007
  16. CLEO/EUROPE-IQEC 2007, Munich, Germany, 17 . 22 June 2007
  17. 9th Rochester Conference on Coherence and Quantum Optics (CQO9), the University of Rochester, the Symposium on quantum optics in mesoscopic condensed matter devices June 10-13, 2007.
  18. Harvard University, IPAMP, Workshop on Hybrid approaches to scalable quantum information systems, May 2007.
  19. Columbia University, Department of Physics Colloquium, November. 2006
  20. IEEE LEOS Annual Meeting, Montreal, Canada, Nov. 2006
  21. APS LS/OSA XXII Meeting, (Quantum Optics in Photonic Materials), Rochester, NY, Oct. 2006.
  22. Third Feynman Festival, University of Maryland, August 2006
  23. 2006 IEEE/LEOS Summer Topical Meeting on Quantum Information, Quebec City, Canada, July 2006.
  24. Conference on Coherent Control of the Fundamental Processes in Optics and X-ray Optics, Nizhny Novgorod - Kazan, Russia, June 2006
  25. ICTON06 (8th International Conference on Transparent Optical Networks), Special session on Microresonators and photonic molecules: Trapping, Harnessing, and Releasing Light, Nothingam, U.K., June 2006
  26. CLEO/QELS 2006, Joint CLEO/QELS session on Enabling Technologies for Quantum Communication, Long Beach, CA, May 2006
  27. UC Berkeley, Quantum Computation Seminar, May 2006
  28. University of Toronto, Optics and Quantum Optics Seminar (March 2006)
  29. NIMS Conference on Photonic Processes in Semiconductor Nanostructures, Tsukuba, Japan, March 2005.
  30. Stanford University, Electrical Engineering Graduate Seminar (February 2006)
  31. SPIE (The international Society for Optical Engineering) Optics East Conference, Boston, MA, October 2005.
  32. UC Santa Barbara, Materials Colloquium, Oct. 2005
  33. SPIE Annual Meeting, San Diego, CA (July 2005): "Photonic-crystal based single photon source" Edo Waks, Dirk Englund, David Fattal, and Jelena Vuckovic
  34. IQEC/CLEO Pacific Rim, Tokyo, Japan, July 2005: "Single photon source based on a quantum dot in photonic crystal"
  35. Quantum Communications Research Conference (QCRC), Boulder, CO June 2005
  36. Caltech, Joint EE-AP seminar, May 2005
  37. CIS Round Table and Review Meeting, Stanford University, Stanford, CA, May 2005.
  38. NDSI'05 (Second Conference on Nanoscale Devices and System Integration), Houston, Texas, April 4-6, 2005
  39. APS March Meeting, Los Angeles, CA, March 2005.
  40. Gordon Research Conference on Quantum Information Science, Ventura, CA, Feb. 2005.
  41. SPIE Annual Meeting Photonics West, Single-photon devices minisymposium, San Jose, CA, January 2005.
    Proceedings in press, Cavity-enhanced single photons from a quantum dot, J. Vuckovic, D. Fattal, D. Englund, E. Waks, C. Santori, G. Solomon, and Y. Yamamoto.
  42. Physics of Quantum Electronics 2005, Snowbird, Utah, Jan. 2005: "Single Photon Generation Using a Single Quantum Dot in a Photonic Crystal Cavity," Edo Waks, David Fattal, Dirk Englund, Jelena Vuckovic, and Yoshihisa Yamamoto
  43. UC Berkeley, AMO Seminar, Dec. 2004.
  44. Joint US-Japan (NSF-MEXT) Workshop on Nanophotonics, Tokyo, Japan, October 2004.
  45. European Materials Research Society (EMRS) Annual Meeting, Symposium on Nanophotonic Materials, Strasbourg, France, May 2004.
  46. CLEO/IQEC, Special symposium on nonlinear optical lattices, San Francisco, CA, May 2004.
  47. Workshop on Mesoscopic Physics, Quantum Optics, and Quantum Information, Institute for Theoretical Atomic and Molecular Physics, Harvard University, May 2004. (talk available online)
  48. Harvard University, Institute for Theoretical Atomic and Molecular Physics, Joint Atomic Physics Colloquium, March 2004.
  49. QUEST (Quantum Enabled Science and Technology) Workshop, Santa Fe, NM, August 2003.
  50. NSF-DARPA Photonics Technology Access Program (PTAP) Optical Microresonators Workshop, San Diego, CA, July 2003.
  51. QELS, Baltimore, MD, June 2003.
    "Cavity enhanced single and entangled photons from a quantum dot", J. Vuckovic, D. Fattal, C. Santori, G. Solomon, and Y. Yamamoto.
  52. 17th Annual CFMR Symposium, Materials for Photonics and Information Technology, Michigan State University, MI, March 2003.
  53. Los Alamos National Laboratory, Quantum Lunch Seminar Series, Los Alamos, NM, January 2003.
  54. IEEE International Electron Devices Meeting (IEDM), Quantum Electronics and Compund Semiconductors, San Francisco, CA, December 2002.
    Technical Digest, pp. 87-90, Single photons and entangled photons from a quantum dot, J. Vuckovic, C. Santori, D. Fattal, M. Pelton, G. Solomon, B. Zhang, J. Plant, and Y. Yamamoto.
  55. Stanford Photonics Research Center (SPRC) Annual Meeting, Stanford, CA, September 2002.
  56. IEEE Conference on Nanotechnology, IEEE-NANO 2002, Arlington, VA, August 2002.
    Proceedings, pp. 319-321, Nano-scale optical and quantum optical devices based on photonic crystals, J. Vuckovic, T. Yoshie, M. Loncar, H. Mabuchi, and A. Scherer.
  57. SPIE Annual Meeting Photonics West, Laser Resonators and Beam Control, San Jose, CA, January 2002.
    Proceedings in press, High-Q optical nanocavities in planar photonic crystals, J. Vuckovic, M. Loncar, T. Yoshie, M. Armen, J. Williams, H. Mabuchi, and A. Scherer.
  58. MRS Spring Meeting, San Francisco, CA, April 2002.
  59. Annual Device Research Conference (DRC), Notre Dame, IN, June 2001
  60. PECS 3: Electromagnetic Crystal Structures - Euroconference on Electromagnetic Confinement, St. Andrews, Scotland, June 2001
  61. CNOM Annual Meeting, Stanford University, Stanford, CA, September 2000.
  62. CLEO/QELS, San Francisco, CA, May 2000.
    Proceedings pp. 123-124, "Surface plasmon enhanced LED", J. Vuckovic, M. Loncar, O. Painter, and A. Scherer.

Refereed conference proceedings

(a very selected list)

  1. Photoluminescence decay dynamics of silicon-rich silicon nitride film in photonic crystal nanocavity, Maria Makarova, Jelena Vuckovic, Hiroyuki Sanda, Yoshio Nishi, IEEE LEOS Annual Meeting, Lake Buena Vista, FL, Oct. 2007
  2. Dynamics of quantum dot photonic crystal lasers, Bryan Ellis, Dirk Englund, Ilya Fushman, Bingyang Zhang, Yoshihisa Yamamoto, and Jelena Vuckovic, Frontiers in Optics Laser Science, San Jose, CA (2007)
  3. Terahertz Room-Temperature Photonic Crystal Nanocavity Laser, Dirk Englund, Ilya Fushman, Jelena Vuckovic, Hatice Altug, Frontiers in Optics Laser Science, San Jose, CA (2007)
  4. Efficient Terahertz room-temperature photonic crystal laser, Dirk Englund, Hatice Altug, and Jelena Vuckovic, CLEO Europe, Munich 2007 [post deadline]
  5. Analytic Photonic Crystal Cavity Design, Dirk Englund, Ilya Fushman, and Jelena Vuckovic, CLEO Europe, Munich 2007 [poster]
  6. Plasmon cavities for solid state cavity QED, Yiyang Gong and Jelena Vuckovic, CLEO-QELS, Baltimore, MD, May 2007
  7. Analysis of the spontaneous emission rate enhancement by surface plasmons in a thin metallic layer embedded in semiconductor, Hideo Iwase and Jelena Vuckovic,CLEO-QELS, Baltimore, MD, May 2007
  8. Dynamics of quantum dot photonic crystal lasers, Bryan Ellis, Dirk Englund, Ilya Fushman, Bingyang Zhang, Yoshihisa Yamamoto, and Jelena Vuckovic,CLEO-QELS, Baltimore, MD, May 2007
  9. Ultrafast nonlinear optical tuning of photonic crystal cavities Ilya Fushman, Dirk Englund, Jelena Vuckovic, Edo Waks, Nick Stoltz, and Pierre Petroff,CLEO-QELS, Baltimore, MD, May 2007
  10. Local On-Chip Temperature Tuning of InGaAs Quantum Dots Andrei Faraon, Dirk Englund, Ilya Fushman, Jelena Vuckovic, Nick Stoltz, Pierre Petroff,CLEO-QELS, Baltimore, MD, May 2007
  11. Dirk Englund, Ilya Fushman, Jelena Vuckovic, CLEO-QELS 2007
  12. Photonic crystal surface mode laser Hatice Altug, Dirk Englund, Jelena Vuckovic,CLEO-QELS, Baltimore, MD, May 2007
  13. Passivation effects on optical and material characteristics of silicon nanocrystals by high pressure water annealing and forming gas annealing, H. Sanda, M Makarova, J. Hagemeier, J. Mc Vittie, J. Vuckovic, and Y. Nishi,MRS Spring Meeting, San Francisco, CA, April 2007
  14. Silicon-based Photonic Crystal Nanocavity Light emitters, Maria Makarova, Jelena Vuckovic, Hiroyuki Sanda, and Yoshio Nishi, IEEE LEOS Annual Meeting, Montreal, Canada, Nov. 2006
  15. Theoretical and experimental investigation of efficient photonic crystal cavity-waveguide couplers, Andrei Faraon, Edo Waks, Dirk Englund, and Jelena Vuckovic, IEEE LEOS Annual Meeting, Montreal, Canada, Nov. 2006
  16. Silicon-based Photonic Crystal Nanocavity Light emitters, Maria Makarova, Jelena Vuckovic, Hiroyuki Sanda, and Yoshio Nishi, MARCO IFC Annual Meeting, Atlanta, GA, Oct. 2006
  17. Theoretical and experimental investigation of efficient photonic crystal cavity-waveguide couplers, Andrei Faraon, Edo Waks, Dirk Englund, and Jelena Vuckovic,SPRC Annual Meeting, Stanford, CA, Sept. 2006
  18. Silicon-based Photonic Crystal Nanocavity Light emitters, Maria Makarova, Jelena Vuckovic, Hiroyuki Sanda, and Yoshio Nishi, SPRC Annual Meeting, Stanford, CA, Sept. 2006
  19. Ultrafast Photonic Crystal Nanocavity Array Laser, Hatice Altug, Dirk Englund and Jelena Vuckovic, SPRC Annual Meeting, Stanford, CA, Sept. 2006
  20. Generation and transfer of single photons on a photonic crystal chip Dirk Englund, Andrei Faraon, Jelena Vuckovic,SPRC Annual Meeting, Stanford, CA, Sept. 2006
  21. High Modulation Speed Photonic Crystal Nanocavity Array Laser, Hatice Altug, Dirk Englund and Jelena Vuckovic, CLEO/QELS, Long Beach, CA, May 2006
  22. An efficient source of single indistinguishable photons, Dirk Englund, Stephan Goetzinger, Andrei Faraon, Jelena Vuckovic, Yoshihisa Yamamoto,  CLEO/QELS, Long Beach, CA, May 2006
  23. Design and experimental characterization of photonic crystal cavities with embedded colloidal quantum dots, Ilya Fushman, Dirk Englund, Jelena Vuckovic, CLEO/QELS, Long Beach, CA, May 2006
  24. Two dimensional porous silicon photonic crystal light emitters, Maria Makarova, Jelena Vuckovic, Hiroyuki Sanda, and Yoshio Nishi, CLEO/QELS, Long Beach, CA, May 2006
  25. Dipole induced transparency in photonic crystal cavity waveguide systems, Edo Waks, Jelena Vuckovic, CLEO/QELS, Long Beach, CA, May 2006
  26. Fourier space design of efficient photonic crystal cavity-waveguide couplers, Andrei Faraon, Edo Waks, Dirk Englund, Ilya Fushman, and Jelena Vuckovic,  CLEO/QELS, Long Beach, CA, May 2006
  27. Patterned Femtosecond Laser Excitation of Terahertz Radiation in GaAs Photonic Crystals, Nathan Jukam, Cristo Yee, Ilya Fushman, Jelena Vuckovic, and Mark S. Sherwin, CLEO/QELS, Long Beach, CA, May 2006
  28. An efficient source of single indistinguishable photons, Dirk Englund, Stephan Goetzinger, Andrei Faraon, Jelena Vuckovic, Yoshihisa Yamamoto, SQUINT meeting, Albuquerque, NM, March 2006
  29. Coupling of PbS quantumdots to photonic crystal cavities at room temperature, Ilya Fushman, Dirk Englund, and Jelena Vuckovic, SPIE annual meeting, Photonics West, San Jose, CA, Jan. 2005 (proceedings in press)
  30. Applicationsof photonic crystal microcavity arrays, Hatice Altug and Jelena Vuckovic, SPIE annual meeting, Photonics West, San Jose, CA, Jan. 2005 (proceedings in press)
  31. Coupled photonic crystal microcavity array laser, Hatice Altug and Jelena Vuckovic, LEOS Annual Meeting, Sydney, Australia (Oct. 2005)
    Highlights:This paper received the Newport-LEOS best student paper award.
  32. Controlling Spontaneous Emission Rate in Solid State for Quantum Information Science, Dirk Englund, David Fattal, Edo Waks, Jelena Vuckovic, CLEO/QELS, Baltimore, Maryland (May 2005)
  33. Polarization control with two-dimensional coupled photonic crystal microcavity arrays, Hatice Altug and Jelena Vuckovic, CLEO/QELS, Baltimore, Maryland (May 2005)
  34. Cavity-waveguide interaction in photonic crystals, Edo Waks and Jelena Vuckovic, CLEO/QELS, Baltimore, Maryland (May 2005)
  35. Controlling Spontaneous Emission Rate in Solid State for Quantum Information Science, Dirk Englund, David Fattal, Edo Waks, Yoshi Yamamoto and Jelena Vuckovic, 69th annual meeting of German Physical Society in International Year of Physics, Berlin, Germany (March 2005)
  36. Cavity-waveguide interaction in photonic crystals, Edo Waks and Jelena Vuckovic, SQuInT 2005, Tucson, AZ (Feb. 2005)
  37. Experimental demonstration of the slow group velocity of light in two-dimensional coupled photonic crystal microcavity arrays, Hatice Altug and Jelena Vuckovic, MRS Fall Meeting, Boston, MA, Nov. 2004.
  38. Two-dimensional coupled photonic crystal resonator arrays, H. Altug and J. Vuckovic, Proceedings of the CLEO/IQEC, San Francisco, CA, May 2004.
  39. Optimization of Q factors in optical microcavities based on free standing membranes J. Vuckovic and A. Scherer, Proceedings of the SPIE Annual Meeting (Photonics West), vol. 4655, pp. 192-199, San Jose, CA, January 2002
  40. Design of photonic crystal optical microcavities, J. Vuckovic, M. Loncar and A. Scherer, Proceedings of the SPIE meeting, Photonics West 2000, San Jose, CA, vol. 4283, pp. 415-419, January 2001
  41. Photonic crystal microcavities for strong coupling between an atom and the cavity field, J. Vuckovic, M. Loncar, H. Mabuchi, and A. Scherer, Proceedings of the LEOS 2000, Rio Grande, Puerto Rico, vol. 2, pp. 840-841, November 2000.
  42. Finite-difference time-domain calculation of the spontaneous emission coupling factor in optical microcavities, J. Vuckovic, O. Painter, Y. Xu, A. Yariv, and A. Scherer, Proceedings of the SPIE meeting, Photonics West 2000, volume on Micro and nano-photonic materials and devices, pp. 1-11, San Jose, CA, January 2000.
  43. Maximum likelihood decoding of Reed-Solomon codes, J. Vuckovic and B. Vucetic, Proceedings of the IEEE International Symposium on Information Theory (ISIT), Ulm, Germany, pp. 400-400, June 29-July 4 1997.

Theses

  1. Hatice Altug, Physics and Apllications of Photonic Crystal Nanocavities, Ph.D. dissertation, December 2006.
  2. Joel Goh, Design of Photonic Crystal Cavities by Genetic Algorithms and Numerical Optimization Techniques, Senior thesis, 2006.
  3. Benedikt Stein,Stimulated Raman Scattering in Silicon Coupled Photonic Crystal Microcavity Arrays, 2006.

Book chapters

  1. Physics and applications of quantum dots in photonic crystals, Jelena Vuckovic, Dirk Englund, Ilya Fushman, Andrei Faraon, and Bryan Ellis, Invited book chapter in Single Semiconductor Quantum Dots, edited by Peter Michler, to be published by Springer Book series NanoScience and Technology (2008)
  2. Quantum Information Processing With Quantum Dots in Photonic Crystals, J. Vuckovic, D. Englund, A. Faraon, I. Fushman, and E. Waks, Invited book chapter in Semiconductor Quantum Bits, edited by Oliver Benson and Fritz Henneberger, to be published by Pan Stanford Publishing (2007)
  3. Pillar microcavities, C. Santori, D. Fattal, J. Vuckovic, M. Pelton, G. Solomon, E. Waks, D. Press, Y. Yamamoto, Invited book chapter in Practical applications of microresonators in optics and photonics, edited by A. Matsko, to be published (2007)
  4. Photonic Technologies for Quantum Information Processing, P. Kumar, P. Kwiat, A. Migdall, S.W. Nam, J. Vuckovic, and F.N.C. Wong, Invited book chaper in Experimental Aspects of Quantum Computing, edited by Henry Everitt, Springer 2005.
  5. Cavity-enhanced single photons from a quantum dot , J. Vuckovic, C. Santori, D. Fattal, M. Pelton, G. Solomon, and Y. Yamamoto, in Optical Microcavities, edited by K. Vahala, World Scientific, 2004.
  6. Regulated single photons and entangled photons from a quantum dot microcavity , Y. Yamamoto, M. Pelton, C. Santori, G. S. Solomon, O. Benson, J. Vuckovic, and A. Scherer, in Nanoscience and Technology: Semiconductor Spintronics and Quantum Computation , edited by D. D. Awschalom, N. Samarth, and D. Loss, Berlin: Springer-Verlag, 2002.

Patents

  1. US patent No. 7,292,613: "Half-Wavelength Micropost Microcavity with Electric Field Maximum in the High-Refractive Index Region", J. Vuckovic and Y. Yamamoto, issued on Nov. 6, 2007.
  2. US patent No. 7,206,488: "Coupled photonic crystal resonator array arrangements and applications", H. Altug and J. Vuckovic, issued on April 17, 2007.
  3. US patent No. 6,466,709:"Photonic crystal microcavities for strong coupling between an atom and the cavity field", A. Scherer, J. Vuckovic, M. Loncar and H. Mabuchi.
  4. US patent No. 6,515,292: "High resolution electron projection", A. Scherer and J. Vuckovic.
  5. US patent No. 6,534,798: "Surface plasmon enhanced LED and the method of operation of the same", A. Scherer, J. Vuckovic and M. Loncar.
  6. US patent No. 6,944,384: "Methods for controlling positions of guided modes of the photonic crystal waveguides", M. Loncar, J. Vuckovic and A. Scherer.

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last modified on Thursday May 08, 2008