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Nanophotonics Laboratory – List of Publications

Publications are sorted by calendar year (January 1 to December 31). For each publication, links are provided to both the corresponding NIST Publications Database entry and the source journal, for personal use only. By selecting a source journal link, you will be leaving NIST webspace. Where NIST has released a news story, a link to that news story has been provided as well.

If you do not have a personal or institutional subscription to the source journal, in most cases a preprint is available for download from the NIST Publications Database. Note that very recent publications may not yet be listed in the NIST database.

You can also request a copy of the paper from one of the authors or via email to cnst [at] nist.gov (cnst[at]nist[dot]gov).


2016

  1. Efficient and low-noise single-photon-level frequency conversion interfaces using silicon nanophotonics, Q. Li, M. Davanço, and K. Srinivasan, Nature Photonics 10, 406–414 (2016).
    NIST Publication Database Journal Web Site
  2. Coherent coupling between radiofrequency, optical and acoustic waves in piezo-optomechanical circuits, K. C. Balram, M. I. Davanço, J. D. Song, and K. Srinivasan, Nature Photonics 10, 346–352 (2016).
    NIST Publication Database Journal Web Site
  3. Imaging nanophotonic modes of microresonators using a focused ion beam, K. A. Twedt, J. Zou, M. Davanco, K. Srinivasan, J. J. McClelland, and V. A. Aksyuk, Nature Photonics 10, 35–39 (2016).
    NIST Publication Database Journal Web Site

2015

  1. Slot-mode optomechanical crystals: a versatile platform for multimode optomechanics, K. E. Grutter, M. I. Davanço, and K. Srinivasan, Optica 2, 994 (2015).
    NIST Publication Database Journal Web Site
  2. Integrated tuning fork nanocavity optomechanical transducers with high fMQM product and stress-engineered frequency tuning, R. Zhang, C. Ti, M. I. Davanço, Y. Ren, V. Aksyuk, Y. Liu, and K. Srinivasan, Applied Physics Letters 107, 131110 (2015).
    NIST Publication Database Journal Web Site
  3. Nanoscale optical positioning of single quantum dots for bright and pure single-photon emission, L. Sapienza, M. Davanço, A. Badolato, and K. Srinivasan, Nature Communications 6, 7833 (2015).
    NIST Publication Database Journal Web Site
  4. Si3N4 nanobeam optomechanical crystals, K. E. Grutter, M. Davanco, and K. Srinivasan, IEEE Journal of Selected Topics in Quantum Electronics 21, 1–11 (2015).
    NIST Publication Database Journal Web Site

2014

  1. Moving boundary and photoelastic coupling in GaAs optomechanical resonators, K. C. Balram, M. Davanço, J. Y. Lim, J. D. Song, and K. Srinivasan, Optica 1, 414–420 (2014).
    NIST Publication Database Journal Web Site
  2. Spectral broadening and shaping of nanosecond pulses: toward shaping of single photons from quantum emitters, I. Agha, S. Ates, L. Sapienza, and K. Srinivasan, Optics Letters 39, 5677-5680 (2014).
    NIST Publication Database Journal Web Site
  3. Multiple time scale blinking in InAs quantum dot single-photon sources, M. Davanço, C. S. Hellberg, S. Ates, A. Badolato, and K. Srinivasan, Physical Review B 89, 161303 (2014).
    NIST Publication Database Journal Web Site Related Link: News Story
  4. Nonlinear oscillations and bifurcations in silicon photonic microresonators, D. M. Abrams, A. Slawik, and K. Srinivasan, Physical Review Letters 112, 123901 (2014).
    NIST Publication Database Journal Web Site Related Link: News Story
  5. Si3N4 optomechanical crystals in the resolved-sideband regime, M. Davanço, S. Ates, Y. Liu, and K. Srinivasan, Applied Physics Letters 104, 041101 (2014).
    NIST Publication Database Journal Web Site Related Link: News Story

2013
 

  1. A chip-scale, telecommunications-band frequency conversion interface for quantum emitters, I. Agha, S. Ates, M. Davanço, and K. Srinivasan, Optics Express 21, 21628–21638 (2013).
    NIST Publication Database Journal Web Site Related Link: News Story
  2. Spectrally multiplexed and tunable-wavelength photon pairs at 1.55 um from a silicon coupled-resonator optical waveguide, R. Kumar, J. R. Ong, J. Recchio, K. Srinivasan, and S. Mookherjea, Optics Letters 38, 2969-2971 (2013).
    NIST Publication Database Journal Web Site
  3. Electromagnetically induced transparency and wideband wavelength conversion in silicon nitride microdisk optomechanical resonators, Y. Liu, M. Davanço, V. Aksyuk, and K. Srinivasan, Physical Review Letters 110, 223603 (2013).
    NIST Publication Database Journal Website Related Link: News Story
  4. Improving the performance of bright quantum dot single photon sources using temporal filtering via amplitude modulation, S. Ates, I. Agha, A. Gulinatti, I. Rech, A. Badolato, and K. Srinivasan, Scientific Reports 3, 1397 (2013).
    NIST Publication Database Journal Web Site Related Link: News Story

2012

  1. Observation of correlation between route to formation, coherence, noise, and communication performance of Kerr combs, P.-H. Wang, F. Ferdous, H. Miao, J. Wang, D. E. Leaird, K. Srinivasan, L. Chen, V. Aksyuk, and A. M. Weiner, Optics Express 20, 29284–29295 (2012).
    NIST Publication Database Journal Web Site
  2. Bright single-photon emission from a quantum dot in a circular Bragg grating microcavity, S. Ates, L. Sapienza, M. Davanco, A. Badolato, and K. Srinivasan, IEEE Journal of Selected Topics in Quantum Electronics 18, 1711 –1721 (2012).
    NIST Publication Database Journal Web Site
  3. Manipulating the color and shape of single photons, M. G. Raymer and K. Srinivasan, Physics Today 65, 32–37 (2012).
    NIST Publication Database Journal Web Site
  4. Slot-mode-coupled optomechanical crystals, M. Davanço, J. Chan, A. H. Safavi-Naeini, O. Painter, and K. Srinivasan, Optics Express 20, 24394–24410 (2012).
    NIST Publication Database Journal Web Site
  5. Two-photon interference using background-free quantum frequency conversion of single photons emitted by an InAs quantum dot, S. Ates, I. Agha, A. Gulinatti, I. Rech, M. T. Rakher, A. Badolato, and K. Srinivasan, Physical Review Letters 109, 147405 (2012).
    NIST Publication Database Journal Web Site
  6. Probing coherence in microcavity frequency combs via optical pulse shaping, F. Ferdous, H. Miao, P.-H. Wang, D. E. Leaird, K. Srinivasan, L. Chen, V. Aksyuk, and A. M. Weiner, Optics Express 20, 21033–21043 (2012).
    NIST Publication Database Journal Web Site
  7. Wide cantilever stiffness range cavity optomechanical sensors for atomic force microscopy, Y. Liu, H. Miao, V. Aksyuk, and K. Srinivasan, Optics Express 20, 18268–18280 (2012).
    NIST Publication Database Journal Web Site Related Link: News Story
  8. A microelectromechanically controlled cavity optomechanical sensing system, H. Miao, K. Srinivasan, and V. Aksyuk, New Journal of Physics, 14, 075015 (2012).
    NIST Publication Database Journal Web Site Related Link: News Story
  9. Low-noise chip-based frequency conversion by four-wave-mixing Bragg scattering in SiNx waveguides, I. Agha, M. Davanco, and B. Thurston, K. Srinivasan, Optics Letters, 37, 2997-2999 (2012).
    NIST Publication Database Journal Web Site Related Link: News Story
  10. Telecommunications-band heralded single photons from a silicon nanophotonic chip, M. Davanço, J. R. Ong, A. B. Shehata, A. Tosi, I. Agha, S. Assefa, F. Xia, W. M. J. Green, S. Mookherjea, and K. Srinivasan, Applied Physics Letters 100, 261104 (2012).
    NIST Publication Database Related Link: NIST Tech Beat
  11. Laser physics: all-atom parametric oscillator, M. T. Rakher and K. Srinivasan, Nature Photonics 6, 73-74 (2012).
    NIST Publication Database Journal Web Site

2011

  1. Quantum frequency translation of single-photon states, K. Srinivasan and M. G. Raymer, Optics & Photonics News 22, 39 (2011).
    NIST Publication Database
  2. Spectral line-by-line pulse shaping of on-chip microresonator frequency combs, F. Ferdous, H. Miao, D. E. Leaird, K. Srinivasan, J. Wang, L. Chen, L. T. Varghese, and A. M. Weiner, Nature Photonics 5, 770-776 (2011).
    NIST Publication Database Journal Web Site Related Link: News Story
  3. Efficient quantum dot single photon extraction into an optical fiber using a nanophotonic directional coupler, M. Davanço, M. T. Rakher, W. Wegscheider, D. Schuh, A. Badolato, and K. Srinivasan, Applied Physics Letters 99, 121101 (2011).
    NIST Publication Database Related Link: News Story
  4. Simultaneous wavelength translation and amplitude modulation of single photons from a quantum dot, M. T. Rakher, L. Ma, M. Davanço, O. Slattery, X. Tang, and K. Srinivasan, Physical Review Letters 107, 083602 (2011).
    NIST Publication Database Journal Web Site Related Link: News Story
  5. A circular dielectric grating for vertical extraction of single quantum dot emission, M. Davanço, M. T. Rakher, D. Schuh, A. Badolato, and K. Srinivasan, Applied Physics Letters 99, 041102 (2011).
    NIST Publication Database Related Link: News Story
  6. Micro-optical techniques, K. Srinivasan, M. T. Rakher, and M. Davanço, in Optical Techniques for Solid-State Materials Characterization (Taylor and Francis, 2011), p. 575-618.
    NIST Publication Database Related Link: News Story
  7. Cavity optomechanical sensors, H. Miao, K. Srinivasan, M. Rakher, M. Davanço, and V. Aksyuk, in Proceedings of Solid-State Sensors, Actuators and Microsystems Conference (TRANSDUCERS), 2011 16th International (Beijing, China, 2011), p. 1535-1538.
    NIST Publication Database Journal Web Site
  8. Subnanosecond electro-optic modulation of triggered single photons from a quantum dot, M. T. Rakher and K. Srinivasan, Applied Physics Letters 98, 211103 (2011).
    NIST Publication Database Related Link: News Story
  9. Temporal correlation of photons following frequency up-conversion, L. Ma, M. T. Rakher, M. J. Stevens, O. Slattery, K. Srinivasan, and X. Tang, Optics Express 19, 10501-10510 (2011).
    NIST Publication Database Journal Web Site
  10. Optomechanical transduction of an integrated silicon cantilever probe using a microdisk resonator, K. Srinivasan, H. Miao, M. T. Rakher, M. Davanço, and V. Aksyuk, Nano Letters 11, 791-797 (2011).
    NIST Publication Database Journal Web Site Related Link: News Story
  11. Fiber-based cryogenic and time-resolved spectroscopy of PbS quantum dots, M. T. Rakher, R. Bose, C. W. Wong, and K. Srinivasan, Optics Express 19, 1786-1793 (2011).
    NIST Publication Database Journal Web Site

2010

  1. Quantum transduction of telecommunications-band single photons from a quantum dot by frequency upconversion, M. T. Rakher, L. Ma, O. Slattery, X. Tang, and K. Srinivasan, Nature Photonics 4, 786-791 (2010).
    NIST Publication Database Journal Web Site Related Link: NIST Tech Beat
  2. Hybrid gap modes induced by fiber taper waveguides: application in spectroscopy of single solid-state emitters deposited on thin films, K. Srinivasan and M. Davanço, Optics Express 18, 10995-11007 (2010).
    NIST Publication Database Journal Web Site Related Link: News Story
  3. Spectroscopy of 1.55 μm PbS quantum dots on Si photonic crystal cavities with a fiber taper waveguide, M. T. Rakher, R. Bose, C. W. Wong, and K. Srinivasan, Applied Physics Letters 96, 161108 (2010).
    NIST Publication Database

2009

  1. Fiber-coupled semiconductor waveguides as an efficient optical interface to a single quantum dipole, M. Davanço and K. Srinivasan, Optics Letters 34, 2542-2544 (2009).
    NIST Publication Database Journal Web Site Related Link: News Story
  2. Efficient spectroscopy of single embedded emitters using optical fiber taper waveguides, M. Davanço and K. Srinivasan, Optics Express 17, 10542-10563 (2009).
    NIST Publication Database Journal Web Site
  3. An out-of-plane experience, K. Srinivasan, Nature Photonics 3, 15-16 (2009).
    NIST Publication Database Journal Web Site

2008

  1. Investigations of a coherently driven semiconductor optical cavity QED system, K. Srinivasan, C. P. Michael, R. Perahia, and O. Painter, Physical Review A 78, (2008).
    NIST Publication Database Journal Web Site
     
Created January 2, 2015, Updated March 1, 2023