Quantum Photonics Laboratory

Prof. Edo Waks

Publications

 

2016

 

  1. Two-photon interference from independent cavity-coupled emitters on-a-chip,” Je-Hyung Kim, Christopher J. K. Richardson, Richard P. Leavitt, and Edo Waks, arXiv:1608.02641.
  2. Secure quantum routing without entanglement,” Shuo Sun and Edo Waks, arXiv:1607.03163.
  3. Two-Dimensionally Confined Topological Edge States in Photonic Crystals,” Sabyasachi Barik, Hirokazu Miyake, Wade DeGottardi, Edo Waks, and Mohammad Hafezi, arXiv:1605.08822.
  4. Nanostructure-induced distortion in single-emitter microscopy,” Kangmook Lim, Chad Ropp, John Fourkas, Benjamin Shapiro, and Edo Waks, to appear in Nano Letters, arXiv:1605.0418.
  5. Controlling the Dark Exciton Spin Eigenstates by External Magnetic Field,” L. Gantz, E. R. Schmidgall, I. Schwartz, Y. Don, E. Waks, G. Bahir, and D. Gershoni, Phys. Rev. B 94, 045426 (2016).
  6. Single-shot optical readout of a quantum bit using cavity quantum electrodynamics,” Shuo Sun and Edo Waks, Phys. Rev. A. 94, 012307 (2016).
  7. Wireless current sensing by near field induction from a spin transfer torque nano-oscillator,” Bharath Ramaswamy, Jose Miguel Algarin, Irving Weinberg, Yu-Jin Chen, Ilya Krivorotov, Jordan Katine, Benjamin Shapiro and Edo Waks, Appl. Phys. Lett. 108, 242403 (2016)
  8. Two photon interference from a bright single photon source at telecom wavelengths,” Jehyung Kim, Tao Cai, Christopher Richardson, Richard Leavitt and Edo Waks, Optica 3, 577-584 (2016)
  9. A quantum phase switch between a single solid-state spin and a photon,” Shuo Sun, Hyochul Kim, Glenn Solomon, and Edo Waks, Nature Nanotechnology 11, 539 (2016)

 

2015

 

  1. "Serialized Quantum Error Correction Protocol for High-Bandwidth Quantum Repeaters," Andrew N. Glaudell, Edo Waks, and Jacob M. Taylor, arXiv:1508.05966.
  2. "Scanning localized magnetic fields in a microfluidic device with a single nitrogen vacancy," Kangmook Lim, Chad Ropp, Benjamin Shapiro, Jacob Taylor, and Edo Waks, Nano Letters 15, 1481 (2015).
  3. "Nanoscale probing of image-dipole interactions in a metallic nanostructure," Chad Ropp, Zachary Cummins, Sanghee Nah, John Fourkas, Benjamin Shapiro, and Edo Waks, Nature Communications 6, 6558 (2015).

 

2014

 

  1. "All-optical coherent control of vacuum Rabi oscillations," Ranojoy Bose, Tao Cai, Kaushik Roy Choudhury, Glenn S. Solomon, and Edo Waks, Nature Photonics 8, 858-864 (2014)
  2. "Overcoming Auger recombination in nanocrystal quantum dot laser using spontaneous emission enhancement," Shilpi Gupta and Edo Waks, Optics Express 22, 3013-3027 (2014)
  3. "Resonant Interactions between a Mollow Triplet Sideband and a Strongly Coupled Cavity," Hyochul Kim, Thomas C. Shen, Kaushik Roy-Choudhury, Glenn S. Solomon, and Edo Waks, Physical Review Letters 113, 027403 (2014)
  4. "Deterministic generation of entanglement between a quantum-dot spin and a photon," Shuo Sun and Edo Waks, Physical Review A 90, 042322 (2014)

 

2013

 

  1. "Controlled coupling of photonic crystal cavities using photochromic tuning," Tao Cai, Ranojoy Bose, Glenn S. Solomon, and Edo Waks, Applied Physics Letters 102, 141118-5 (2013)
  2. "Spontaneous emission enhancement and saturable absorption of colloidal quantum dots coupled to photonic crystal cavity," Shilpi Gupta and Edo Waks, Optics Express 21, 29612-29619 (2013)
  3. "A quantum logic gate between a solid-state quantum bit and a photon," Hyochul Kim, Ranojoy Bose, Thomas C. Shen, Glenn S. Solomon, and Edo Waks, Nature Photonics 7, 373-377 (2013)
  4. "Nanoscale imaging and spontaneous emission control with a single nano-positioned quantum dot," Chad Ropp, Zachary Cummins, Sanghee Nah, John T. Fourkas, Benjamin Shapiro, and Edo Waks, Nature Communications 4, 1447 (2013)
  5. "Fabrication of Nanoassemblies Using Flow Control," Chad Ropp, Zachary Cummins, Sanghee Nah, Sijia Qin, Ji Hyun Seog, Sang Bok Lee, John T. Fourkas, Benjamin Shapiro, and Edo Waks, Nano Letters 13, 3936-3941 (2013)
  6. "Strain tuning of a quantum dot strongly coupled to a photonic crystal cavity," Shuo Sun, Hyochul Kim, Glenn S. Solomon, and Edo Waks, Applied Physics Letters 103, 151102 (2013)

 

2012

 

  1. "All-optical tuning of a quantum dot in a coupled cavity system," Ranojoy Bose, Tao Cai, Glenn S. Solomon, and Edo Waks, Applied Physics Letters 100, 231107 (2012)
  2. "Low-Photon-Number Optical Switching with a Single Quantum Dot Coupled to a Photonic Crystal Cavity," Ranojoy Bose, Deepak Sridharan, Hyochul Kim, Glenn S. Solomon, and Edo Waks, Physical Review Letters 108, 227402 (2012)
  3. "Optically controlled phase gate for two spin qubits in coupled quantum dots," Li-Bo Chen, L. J. Sham, and Edo Waks, Physical Review B 85, 115319 (2012)
  4. "Flow Control of Small Objects on Chip: Manipulating Live Cells, Quantum Dots, and Nanowires," R. Probst, Z. Cummins, C. Ropp, E. Waks, and B. Shapiro, IEEE Control Systems 32, 26-53 (2012)
  5. "Anomalous phonon-mediated damping of a driven quantum dot embedded in a high-Q semiconductor microcavity," C. Roy, H. Kim, E. Waks, and S. Hughes, Photonics and Nanostructures - Fundamentals and Applications 10, 359-368 (2012)

 

2011

  1. "Observation of strong coupling through transmission modification of a cavity-coupled photonic crystal waveguide," R. Bose, D. Sridharan, G. S. Solomon, and E. Waks, Optics Express 19, 5398-5409 (2011)
  2. "Large optical Stark shifts in semiconductor quantum dots coupled to photonic crystal cavities," R. Bose, D. Sridharan, G. S. Solomon, and E. Waks, Applied Physics Letters 98, 121109-3 (2011)
  3. "Magnetic field tuning of a quantum dot strongly coupled to a photonic crystal cavity," Hyochul Kim, Thomas C. Shen, Deepak Sridharan, Glenn S. Solomon, and Edo Waks, Applied Physics Letters 98, 091102-3 (2011)
  4. "Strong coupling between two quantum dots and a photonic crystal cavity using magnetic field tuning," Hyochul Kim, Deepak Sridharan, Thomas C. Shen, Glenn S. Solomon, and Edo Waks, Optics Express 19, 2589-2598 (2011)
  5. "Development of metal etch mask by single layer lift-off for silicon nitride photonic crystals," Kang-mook Lim, Shilpi Gupta, Chad Ropp, and Edo Waks, Microelectronic Engineering 88, 994-998 (2011)
  6. "A reversibly tunable photonic crystal nanocavity laser using photochromic thin film," Deepak Sridharan, Ranojoy Bose, Hyochul Kim, Glenn S. Solomon, and Edo Waks, Optics Express 19, 5551-5558 (2011)
  7. "All-Optical Switch Using Quantum-Dot Saturable Absorbers in a DBR Microcavity," D. Sridharan and E. Waks, IEEE Journal of Quantum Electronics 47, 31-39 (2011)

2010

  1. "Positioning and Immobilization of Individual Quantum Dots with Nanoscale Precision," Chad Ropp, Zachary Cummins, Roland Probst, Sijia Qin, John T. Fourkas, Benjamin Shapiro, and Edo Waks, Nano Letters 10, 4673-4679 (2010)
  2. "Manipulating Quantum Dots to Nanometer Precision by Control of Flow," Chad Ropp, Roland Probst, Zachary Cummins, Rakesh Kumar, Andrew J. Berglund, Srinivasa R. Raghavan, Edo Waks, and Benjamin Shapiro, Nano Letters 10, 2525-2530 (2010)
  3. "Reversible tuning of photonic crystal cavities using photochromic thin films," Deepak Sridharan, Edo Waks, Glenn Solomon, and John T. Fourkas, Applied Physics Letters 96, 153303-3 (2010)
  4. "Cavity QED treatment of interactions between a metal nanoparticle and a dipole emitter," Edo Waks and Deepak Sridharan, Physical Review A 82, 043845 (2010)

2009

  1. "Protocol for hybrid entanglement between a trapped atom and a quantum dot," Edo Waks and C. Monroe, Physical Review A 80, 062330 (2009)

2008

  1. "Generating entanglement between quantum dots with different resonant frequencies based on dipole-induced transparency," Deepak Sridharan and Edo Waks, Physical Review A 78, 052321 (2008)

2007

  1. "Efficient photonic crystal cavity-waveguide couplers," Andrei Faraon, Edo Waks, Dirk Englund, Ilya Fushman, and Jelena VuCkovic, Applied Physics Letters 90, 073102-3 (2007)
  2. "Ultrafast nonlinear optical tuning of photonic crystal cavities," Ilya Fushman, Edo Waks, Dirk Englund, Nick Stoltz, Pierre Petroff, and Jelena Vuckovic, Applied Physics Letters 90, 091118-3 (2007)

 

2006

  1. "Generation of photon number states," Waks Edo, Diamanti Eleni, and Yamamoto Yoshihisa, New Journal of Physics 8, 4 (2006)
  2. "Generation and manipulation of nonclassical light using photonic crystals," Jelena Vuckovic, Dirk Englund, David Fattal, Edo Waks, and Yoshihisa Yamamoto, Physica E 32, 466-470 (2006)
  3. "Highly nonclassical photon statistics in parametric down-conversion," Edo Waks, Barry C. Sanders, Eleni Diamanti, and Yoshihisa Yamamoto, Physical Review A 73, 033814 (2006)
  4. "Security of differential-phase-shift quantum key distribution against individual attacks," Edo Waks, Hiroki Takesue, and Yoshihisa Yamamoto, Physical Review A 73, 012344 (2006)
  5. "Dispersive properties and large Kerr nonlinearities using dipole-induced transparency in a single-sided cavity," Edo Waks and Jelena Vuckovic, Physical Review A 73, 041803 (2006)
  6. "Dipole Induced Transparency in Drop-Filter Cavity-Waveguide Systems," Edo Waks and Jelena Vuckovic, Physical Review Letters 96, 153601 (2006)

2005

 

  1. "Controlling the Spontaneous Emission Rate of Single Quantum Dots in a Two-Dimensional Photonic Crystal," Dirk Englund, David Fattal, Edo Waks, Glenn Solomon, Bingyang Zhang, Toshihiro Nakaoka, Yasuhiko Arakawa, Yoshihisa Yamamoto, and Jelena Vuccaronkovicacute, Physical Review Letters 95, 013904 (2005)
  2. "Coupled mode theory for photonic crystal cavity-waveguide interaction," Edo Waks and Jelena Vuckovic, Optics Express 13, 5064-5073 (2005)

 

2004

 

  1. "Submicrosecond correlations in photoluminescence from InAs quantum dots," Charles Santori, David Fattal, Jelena Vučković, Glenn S. Solomon, Edo Waks, and Yoshihisa Yamamoto, Physical Review B 69, 205324 (2004)
  2. "Direct Observation of Nonclassical Photon Statistics in Parametric Down-Conversion," Edo Waks, Eleni Diamanti, Barry C. Sanders, Stephen D. Bartlett, and Yoshihisa Yamamoto, Physical Review Letters 92, 113602 (2004)

2003

  1. "Entanglement-based quantum key distribution without an entangled-photon source," K. Inoue, C. Santori, E. Waks, and Y. Yamamoto, Physical Review A 67, 062319 (2003)
  2. "Differential-phase-shift quantum key distribution using coherent light," K. Inoue, E. Waks, and Y. Yamamoto, Physical Review A 68, 022317 (2003)

2002

  1. "Differential Phase Shift Quantum Key Distribution," Kyo Inoue, Edo Waks, and Yoshihisa Yamamoto, Physical Review Letters 89, 037902 (2002)
  2. "Secure communication: Quantum cryptography with a photon turnstile," Edo Waks, Kyo Inoue, Charles Santori, David Fattal, Jelena Vuckovic, Glenn S. Solomon, and Yoshihisa Yamamoto, Nature 420, 762-762 (2002)
  3. "Security aspects of quantum key distribution with sub-Poisson light," Edo Waks, Charles Santori, and Yoshihisa Yamamoto, Physical Review A 66, 042315 (2002)
  4. "Security of quantum key distribution with entangled photons against individual attacks," Edo Waks, Assaf Zeevi, and Yoshihisa Yamamoto, Physical Review A 65, 052310 (2002)