Quantum Optics and Integrated Photonics

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Publications

Journal Publications:

2012

  1. High-dimensional quantum key distribution using dispersive optics, J. Mower, P. Desjardins, J. H. Shapiro, D. Englund, under review (2012).
  2.  Long-lived nitrogen vacancy spin coherence in high-purity diamond membranes, J. Hodges, L. Li, M. Lu, E. Chen, M. Trusheim, and D. Englund, under review (2012).

  3. A high-resolution spectrometer based on a compact planar two dimensional photonic crystal cavity array, Xuetao Gan, Nadia Pervez, Ioannis Kymissis, Fariba Hatami, and Dirk Englund, under review (2012)

  4. Ion-Exfoliated Single-Crystal-Diamond Membranes Exhibiting Nitrogen-Vacancy Color Centers, O. Gaathon, J. S. Hodges, E. H. Chen, L. Li, S. Bakhru, H. Bakhru, D. Englund, and R. M. Osgood, Jr., under review (2012)

  5. Light trapping in a 30-nm organic photovoltaic cell for efficient carrier collection and light absorption, Cheng-Chia Tsai, Richard R. Grote, Ashish Banerjee, Richard M. Osgood Jr., and Dirk Englund, submitted (ArXiv)
  6. Ultrafast photon-photon interaction in a strongly coupled quantum dot-cavity system, D. Englund, A. Majumdar, M. Bajcsy, A. Faraon, P. Petroff & J. Vuckovic, Phys. Rev. Lett. 108:093604 (2012).
  7. Tailoring light-matter interaction with a nanoscale plasmon resonator, N. P. de Leon, B. J. Shields, C. L. Yu, D. Englund, A. V. Akimov, M. D. Lukin, H. Park, submitted (2012) [ArXiv].
  8. Nonlinear Temporal Dynamics of Strongly Coupled Quantum Dot-Cavity System,  Arka Majumdar, Dirk Englund, Michal Bajcsy, and Jelena Vuckovic, Phys. Rev. A 85, 03380 (2012) [ArXiv

2011

  1. Dense Wavelength Division Multiplexed Quantum Key Distribution Using Entangled Photons, J. Mower, F.N.C Wong, J. H. Shapiro, and D. Englund [ArXiv] 
  2. Directional free-space coupling from photonic crystal waveguides, C.-C. Tsai, J. Mower, and D. Englund, Optics Express 19 (21), 20586-96 [ArXiv]
  3. Time-keeping with electron spin states in diamond, J. Hodges and D. Englund (2011) [ArXiv]
  4. Efficient generation of single and entangled photons on a silicon photonic integrated chip, J. Mower and D. Englund, Phys. Rev. A 84, 052326 (2011) [ArXiv]
  5. Integrated quantum optical networks based on quantum dots and photonic crystals, Andrei Faraon, Arka Majumdar, Dirk Englund, Erik Kim, Michal Bajcsy, Jelena Vuckovic, New Journal of Physics 13, 044025 (2011).

    6. 2010

  1. Analysis of the Purcell effect in photonic and plasmonic crystals with losses, H. Iwase, D. Englund, and J. Vuckovic, Optics Express, Vol. 18, Issue 16, pp. 16546-16560 (2010).
  2. A. Majumdar, A. Faraon, E. Kim, D. Englund, H. Kim, P. Petroff, and J. Vuckovic, "Linewidth broadening of a quantum dot coupled to an off-resonant cavity" Phys. Rev. B, 82(4):045306, Jul 2010.
  3. Dirk Englund, Brendan Shields, Kelley Rivoire, Fariba Hatami, Jelena Vuckovic, Hongkun Park, and Mikhail D. Lukin. Deterministic coupling of a single nitrogen vacancy center to a photonic crystal cavity. Nano Letters, 10(10):3922–3926, 2010." [link to supporting information]
  4. D. Englund, A. Majumdar, A. Faraon, M. Toishi, N. Stoltz, P. Petroff, and J. Vuckovic, Resonant excitation of a quantum dot strongly coupled to a photonic crystal nanocavity. Physical Review Letters 104, 073904 (2010)
2009 [pre-Columbia]
  1. D. Englund, A. Faraon, A. Majumdar, N. Stoltz, P. Petroff, and J. Vuckovic, An optical modulator based on a single strongly coupled quantum dot - cavity system in a p-i-n junction, Optics Express, Vol. 17, Issue 21, pp. 18651-18658 (2009)
  2. Dirk Englund, Bryan Ellis, Elizabeth Edwards, Tomas Sarmiento, James S. Harris, David A.B. Miller, Jelena Vuckovic, Electrically controlled modulation in a photonic crystal nanocavity, Optics Express, Vol. 17, Issue 18, pp. 15409-15419 (2009)
  3. Dirk Englund, Arka Majumdar, Andrei Faraon, Mitsuru Toishi, Nick Stoltz, Pierre Petroff & Jelena Vuckovic, "Coherent excitation of a strongly coupled quantum dot - cavity system" ArXiv.org/0902.2428;
  4. Dirk Englund, Andrei Faraon, Ilya Fushman, and Jelena Vuckovic, Single photon nonlinear optics on photonic crystal chips,  SPIE Newsroom/Nanotechnology (2009)
  5. D. Englund, H. Altug &  J. Vuckovic, Time-resolved lasing action from single and coupled photonic crystal nanocavity array lasers emitting in the telecom-band, Journal of Applied Physics 105, 093110 (2009)
  6. M. Toishi, D. Englund, Andrei Faraon, and Jelena Vuckovic, High-brightness single photon source from a quantum dot in a grating-integrated nanocavity Optics Express, Vol 17, pp 14618-14626 (2009)
  7. D. Englund, I. Fushman, A. Faraon & J. Vuckovic, Quantum dots in photonic crystals: from quantum information processing to single photon nonlinear optics, Photonics and Nanostructures - Fundamentals and Applications, Volume 7, Issue 1 (2009)

2008 [pre-Columbia]
  1. Coherent generation of nonclassical light on a chip via  photon-induced tunneling and blockade, A. Faraon, I. Fushman, D. Englund, Nick Stoltz, Pierre Petroff, and Jelena Vuckovic, Nature Phys. 4, 859 - 863 (2008).
  2. Conditional phase shift with a single quantum dot, I. Fushman, D. Englund, A. Faraon, N. Stoltz, P. Petroff, & J. Vuckovic, Science 30, 769-722 (2008).  [In the News: Stanford ReportCompoundSemi NewsTechnology Research Newsphotonics.comSemiconductor Internationalphysorg.com,]
  3. Quantum dot—photonic crystal chips for quantum information processing, Dirk Englund, Andrei Faraon, Ilya Fushman, and Jelena Vuckovic, SPIE Newsroom 10.1117/2.1200804.0986 (2008).
  4. Ultrafast Photonic Crystal Lasers, Dirk Englund, Hatice Altug, Bryan Ellis, Jelena Vuckovic, Lasers & Photonics Reviews 2(4), pp. 264 – 274 (2008).
  5. Dipole induced transparency in waveguide coupled photonic crystal cavities, A. Faraon, I. Fushman, D. Englund, N. Stoltz, P. Petroff, J. Vuckovic, Opt. Express 16, pp 12154-12162 (2008)
  6. Spontaneous Emission Control in High-Extraction Efficiency Plasmonic Crystals, Hideo Iwase, Dirk Englund, Jelena Vuckovic, Optics Express 16, 426-434 (2008)
  7. Local Tuning of Photonic Crystal Cavities Using Chalcogenide Glasses, A. Faraon, D. Englund, D. Bulla, B. Luther-Davies, B. Eggleton, N. Stoltz, P. Petroff, J. Vuckovic, Appl. Phys. Lett. 92, 043123 (2008)
2007 [pre-Columbia]
  1. Controlling cavity reflectivity with a single quantum dot, D. Englund, A. Faraon, I. Fushman, N. Stoltz, P. Petroff & J. Vuckovic, Nature 450, No. 7171, pp. 857-861 (2007)In the News: Stanford Reportoptics.orgQ&Afurther information about the research
  2. Efficient Terahertz Room-Temperat ure Photonic Crystal Nanocavi ty Laser, D. Englund, H. Altug, I. Fushman, & J. Vuckovic, Appl. Phys. Lett. 91, 071126 (2007) In the News: Featured in Laser Focus World October 2007 issue.
  3. Low-Threshold Surface-Passivated Photonic Crystal Nanocavity Laser, D. Englund, H. Altug, and J. Vuckovic, Appl. Phys. Lett. 91, 071124 (2007).
  4. Generation and Transfer of Single Photons on a Photonic Crystal Chip, D. Englund, A. Faraon, B. Zhang, Y. Yamamoto, and J. Vuckovic, Opt. Expr. 15, 5550-5558 (2007)
  5. Local Quantum Dot Tuning on Photonic Crystal Chips, A. Faraon, D. Englund, I. Fushman, N. Stoltz, P. Petroff, and J. Vuckovic, Appl. Phys. L ett. 90, 213110 (2007). In the News: Highlighted by Science Magazine, Vol. 316, p1395, June 8, 2007
  6. Efficient Photonic Crystal Cavity-Waveguide Couplers, A. Faraon, E. Waks, D. Englund, I. Fushman, J. Vuckovic, Appl. Phys. Lett. 90, 073102 (2007)
  7. Genetic Optimization of Photonic Bandgap Structures, J. Goh, I. Fushman, D. Englund, J. Vuckovic, Opt. Expr. 15, 8218-8230 (2007)
  8. Ultrafast nonlinear optical tuning of photonic crystal cavities, I. Fushman, E. Waks, D. Englund, N. Stoltz, P. Petroff, and J. Vuckovic, Appl. Phys. Lett. 90, 091118 (2007)
  9. Dynamics of Quantum Dot Photonic Crystal Lasers, B. Ellis, I. Fushman, D. Englund, B. Zhang, Y. Yamamoto, and J. Vuckovic, Appl. Phys. Lett. 90, 151102 (2007)
2006 [pre-Columbia]
  1. Ultrafast Photonic Crystal Nanolasers, H. Altug, D. Englund, J. Vuckovic, Nature Phys. 2, 484-8 (2006). In the News: 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 inLaser Focus World October 2007 issue.
  2. Generation and manipulation of nonclassical light using photonic crystals, J. Vuckovic, D. Englund, D. Fattal, E. Waks, and Y. Yamamoto, Physica E 31, No. 2 (2006)
  3. A direct analysis of photonic nanostructures, D. Englund & J. Vuckovic, Opt.Expr. 14, 3472-83 (2006)
    2005 [pre-Columbia]
  1. General recipe for designing photonic crystal cavities, D. Englund, I. Fushman , and J. Vuckovic, Opt. Expr. 13, 5961 - 5975 (2005). In the News: Nature research highlight ; review of this article by Henri Benisty: Photonic crystals: New designs to confine lightNature Physics, vol. 1, pp. 9, Oct. 2005
  2. Coupling of PbS quantum dots to photonic crystal cavities at room temperature, I. Fushman, D. Englund, and J. Vuckovic, Appl. Phys. Lett 87, 241102 (2005)
  3. Controlling the Spontaneous Emission Rate of Single Quantum Dots in a 2D Photonic Crystal, D. Englund, D. Fattal, E. Waks, G. Solomon, B. Zhang, T. Nakaoka, Y. Arakawa, Y. Yamamoto, and J. Vuckovic, Phys. Rev. Lett. 95, 013904 (2005)


    Book Chapters:

  1. Spontaneous Emission Control in a Plasmonic Structure, H. Iwase, Y. Gong, D. Englund, and J. Vučković, invited book chapter in Nanoscale Photonics and Optoelectronics, (Springer Verlag, 2010).
  2. Photonic crystal microcavity light sources, H. Altug, D. Englund, and J. Vuckovic, Invited book chapter in Comprehensive Semiconductor Science and Technology, edited by P. Bhattacharya, Elsevier (2010)
  3. Physics and applications of quantum dots in photonic crystals, D. Englund et al, Invited book chapter in Single Semiconductor Quantum Dots, edited by P. Michler, Nanoscience & Tech. (Springer Verlag, 2009).
  4.  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 (Pan Stanford Publishing, 2008)
Patents:
  1. U.S. Patent 6,597,775 for adaptive fraud detection software, J. Lawyer, A. Barclay, D. Englund et. al. (issued 2003)
  2. A simple and reusable method for controllable coupling of colloidal quantum dots and other nanocrystals to photonic crystals, D.E., I. Fushman, and J. Vuckovic (U.S. Provisional Patent Serial No. 60/942,365) 


    Seminars and invited talks:

Development of a Quantum Photonic Interface for Solid State Qubits, Colloquium at National Institute of Standards and Technology,  Gaithersburg, MA (February 15, 2011)

Quantum Optics on Photonics Chips, Colloquium at University of Maryland, (February 14, 2011)

A Hybrid Quantum Photonic Interface for Solid State Qubits, Invited talk at Photonics West, San Francisco, January 24, 2011. 

A Hybrid Quantum Photonic Interface for Solid State Qubits, Invited talk at Photonics West, San Francisco, January 24, 2011. 

Quantum Optics on Photonic Chips, Solid State and Optics Seminar Series, Yale University, December 15, 2010

    Quantum Information Processing on Photonic Chips, Optics and Quantum Electronics Seminar, Massachusetts Institute of Technology, November 10, 2010

Quantum Optics in Photonic Crystals:  Applications to Classical and Quantum Information Processing, Invited talk at the Physical Sciences seminar at IBM T.J. Watson Research Center, April 7, 2010
 

    Talks and proceedings [pre-columbia]:


    A. Invited talks and seminars

    1.     Photonic Crystals for Quantum and Classical Information Processing, Columbia University, NY (2009)

    2.     Single photon nonlinear optics in photonic crystals, D.E. et al, Harvard, MA (2009)

    3.     Photonic Crystals for Quantum and Classical Information Processing, NiM Winter School, Austria (2009)

    4.     Quantum Information Processing with Photonic Crystals, Technical University of Munich / WSI, Germany, Munich (2009)

    5.     Photonic Crystals for Quantum and Classical Information Processing, Prin ceton University, NJ (2009)

    6.     Photonic Crystals for Quantum and Classical Information Processing, Massachusetts Institute of Technology (2009)

    7.     Single photon nonlinear optics in photonic crystals, D. E. et al., SPIE Photonics West (2009).

    8.     Cavity QED, Single-Photon Nonlinear Optics and Quantum Information Processing with Quantum Dots in Photonic Crystals, D.E. et al, Frontiers in Optics, 2008

    9.     Photonic Crystals for Quantum and Classical Information Processing, D.E. et al, University of Minnesota, Sept. 2008

    10.   SPIE Optics and Photonics Meeting, D.E. et al, San Diego, Aug 2008

    11.   Single Photon Nonlinear Optics [seminar], D.E. et al, UCSD, Aug. 2008

    12.   Photonic Crystals for Quantum and Classical Information Processing [seminar], D.E. et al, Caltech, Jul. 2008

    13.   Semiconductor Photonic Crystals [seminar], D.E. et al, Stanford REU Program Seminar, Jul. 2008

    14.   Coherent Probing and Saturation of a Strongly Coupled Quantum Dot, Dirk Englund et al., CLEO-QELS, San Jose, CA, May 2008

    15.   CIPS Annual Meeting, D.E. et al, Session on Nanophotonics, MIT, Cambridge, May 2008

    16.   Towards quantum and classical information processing on photonic crystal chips, D.E. et al, Harvard University, Apr. 2008

    17.   Quantum and Classical Information Processing with Photonic Crystals, Harvard, D.E. et al, Apr. 2008

    18.   Photonic Crystals for Quantum and Classical Information Processing, D.E. et al, Hewlett Packard, Palo Alto, Feb. 2008

    19.   SPIE Annual Meeting - Photonics West, D.E. et al, Symposium on Advanced Optical Concepts in Quantum Computing, Memory, and Communications, San Jose, CA Jan 2008

    20.   Coupled Nanocavity Arrays, D.E. et al, CLEO/EUROPE-IQEC, Munich, Germany, Jun 2007

    21.   Quantum Optics with Photonic Crystal Devices, D.E. et al, Frontiers in Optics, Rochester NY, 2006.

    22.   Single photon source based on quantum dots in photonic crystals, D.E. et al, SPIE Optics East, Boston, MA, 2005.

    23.   Single photon source based on a quantum dot in photonic crystal, D.E. et al, IQEC/CLEO Pacific Rim 2005, Tokyo, Japan, 2005.


    C. Contributed conference presentations (excluding posters)

    25.   Coherent access of a quantum dot strongly coupled to a nanocavity, MRS Fall Meeting, Boston, MA, Dec. 2008 (best student paper).

    26.   Realization of Giant Optical Nonlinearities in a Quantum Dot Coupled to a Nanocavity, SPIE/LEOS, Newport Beach, CA, Nov 2008.

    27.   Coherent probing and saturation of a strongly coupled quantum dot, D. E. et al, CLEO/QELS, May 2008.

    28.   Photonic crystal chips for optical interconnects and quantum information processing, D.E. et al, SPIE Annual Meeting - Photonics West, Jan 2008.

    29.   Controlling cavity reflectivity with a single quantum dot, D.E. et al, Frontiers in Optics [post-deadline], San Jose, CA, Nov 2007

    30.   Ultrafast photonic crystal laser [post-deadline], D.E. et al, CLEO/EUROPE-IQEC, Munich, Germany, Jun 2007

    31.   Analytical Photonic Crystal Design, D.E. et al, CLEO-QELS, Baltimore, May 2007.

    32.   Generation and transfer of single photons on a photonic crystal chip, D. E. et al., SPRC Annual Meeting, Stanford, CA, Sept. 2006

    33.   An efficient source of single indistinguishable photons, D. E. et al., CLEO/QELS, Long Beach, CA, May 2006

    34.   Controlling Spontaneous Emission Rate in Solid State for Quantum Information Science, Dirk Englund et al., CLEO/QELS, Baltimore, Maryland (2005)

    35.   Controlling Spontaneous Emission Rate in Solid State for Quantum Information Science, Dirk Englund et al, Annual meeting of German Physical, Berlin, Germany (2005)


    SELECTED CONFERENCE PROCEEDINGS:

    1.     Coherent access of a quantum dot strongly coupled to a nanocavity, D. Englund et al, submitted to Proc. of MRS, Boston (2008)

    2.     Photonic crystal chips for optical communications and quantum information processing, D. Englund. et al, Proc. SPIE, Vol. 7031, 70310C (2008); DOI:10.1117/12.796817

    3.     Photonic crystal chips for optical interconnects and quantum information processing, D. Englund, A. Faraon, I. Fushman & J. Vuckovic, SPIE Photonics West, Jan. 2008

    4.     Ultrafast photonic crystal nanocavity lasers and optical switches, I. Fushman, D. Englund, et al., Proc. SPIE, Vol. 6889, 688910 (2008); DOI:10.1117/12.784422

    5.     Dynamics of quantum dot photonic crystal lasers, B. Ellis, D. Englund, I. Fushman, B. Zhang, Y. Yamamoto, and J. Vuckovic, Frontiers in Optics Laser Science, San Jose, CA (2007)

    6.     Terahertz Room-Temperature Photonic Crystal Nanocavity Laser, D. Englund, I. Fushman, J. Vuckovic, H. Altug, Frontiers in Optics Laser Science, San Jose, CA (2007)

    7.     Efficient Terahertz room-temperature photonic crystal laser, D. Englund, H. Altug, and J. Vuckovic, CLEO Europe, Munich 2007

    8.     Analytic Photonic Crystal Cavity Design, D. Englund, I. Fushman, and J. Vuckovic, CLEO Europe, Munich 2007

    9.     Dynamics of quantum dot photonic crystal lasers, B. Ellis, D. Englund, I. Fushman, B. Zhang, Y. Yamamoto, and J. Vuckovic, CLEO-QELS, Baltimore, MD, May 2007

    10.   Ultrafast nonlinear optical tuning of photonic crystal cavities I. Fushman, D. Englund, J. Vuckovic, E. Waks, N. Stoltz, and P. Petroff, CLEO-QELS, Baltimore, MD, May 2007

    11.   Photonic crystal surface mode laser H. Altug, D. Englund, J. Vuckovic,CLEO-QELS, Baltimore, MD, May 2007

    12.   Theoretical and experimental investigation of efficient photonic crystal cavity-waveguide couplers, A. Faraon, E. Waks, D. Englund, and J. Vuckovic, IEEE LEOS Annual Meeting, Montreal, Canada, Nov. 2006

    13.   Theoretical and experimental investigation of efficient photonic crystal cavity-waveguide couplers, A. Faraon, E. Waks, D. Englund, and J. Vuckovic,SPRC Annual Meeting, Stanford, CA, Sept. 2006

    14.   Ultrafast Photonic Crystal Nanocavity Array Laser, H. Altug, D. Englund and J. Vuckovic, SPRC Annual Meeting, Stanford, CA, Sept. 2006

    15.   Generation and transfer of single photons on a photonic crystal chip D. Englund, A. Faraon, J. Vuckovic, SPRC Annual Meeting, Stanford, CA, Sept. 2006

    16.   High Modulation Speed Photonic Crystal Nanocavity Array Laser, H. Altug, D. Englund and J. Vuckovic, CLEO/QELS, Long Beach, CA, May 2006

    17.   An efficient source of single indistinguishable photons, D. Englund, S. Goetzinger, A. Faraon, J. Vuckovic, Y. Yamamoto, CLEO/QELS, Long Beach, CA, May 2006

    18.   Design and experimental characterization of photonic crystal cavities with embedded colloidal quantum dots, I. Fushman, D. Englund, J. Vuckovic, CLEO/QELS, Long Beach, CA, May 2006

    19.   Fourier space design of efficient photonic crystal cavity-waveguide couplers, A. Faraon, E. Waks, D. Englund, I. Fushman, and J. Vuckovic, CLEO/QELS, Long Beach, CA, May 2006

    20.   An efficient source of single indistinguishable photons, D. Englund, S. Goetzinger, A. Faraon, J. Vuckovic, Y. Yamamoto, SQUINT meeting, Albuquerque, NM, March 2006

    21.   Coupling of PbS quantumdots to photonic crystal cavities at room temperature, I. Fushman, D. Englund, and J. Vuckovic, SPIE annual meeting, Photonics West, San Jose, CA, Jan. 2005 (proceedings in press)

    22.   Controlling the spontaneous emission rate of single quantum dots in a 2D photonic crystal, D. Englund et al, Proc. SPIE, Vol. 6003, 60030C (2005); DOI:10.1117/12.630993

    23.   Controlling Spontaneous Emission Rate in Solid State for Quantum Information Science, D. Englund, D. Fattal, E. Waks, J. Vuckovic, CLEO/QELS, Baltimore, Maryland (May 2005)

    24.   Controlling Spontaneous Emission Rate in Solid State for Quantum Information Science, D. Englund, D. Fattal, E. Waks, Y. Yamamoto and J. Vuckovic, 69th annual meeting of German Physical Society in International Year of Physics, Berlin, Germany (March 2005)

    36.   Development of a Near-Field Magneto-Optical Microscopy for Studying Ultrafast Magnetization Dynamics, G. Zoriniants, D. Englund, O. Kurnosikov, C.F.J. Flipse, E. Rido, H. Brune, W.J.M. de Jonge, and B. Koopmans, AIP 696, 204 (2003)

     

Last Updated on Tuesday, 17 April 2012 23:46