J S Pelc

Summary

Affiliation: Stanford University
Country: USA

Publications

  1. doi request reprint Dual-channel, single-photon upconversion detector at 1.3 μm
    J S Pelc
    E L Ginzton Laboratory, Stanford University, Stanford, California 94305, USA
    Opt Express 20:19075-87. 2012
  2. ncbi request reprint Cascaded frequency upconversion for high-speed single-photon detection at 1550 nm
    J S Pelc
    E L Ginzton Laboratory, Stanford University, Stanford, California 94305, USA
    Opt Lett 37:476-8. 2012
  3. doi request reprint Efficiency pedestal in quasi-phase-matching devices with random duty-cycle errors
    J S Pelc
    E L Ginzton Laboratory, Stanford University, Stanford, California 94305, USA
    Opt Lett 36:864-6. 2011
  4. doi request reprint Long-wavelength-pumped upconversion single-photon detector at 1550 nm: performance and noise analysis
    J S Pelc
    Opt Express 19:21445-56. 2011
  5. doi request reprint Supercontinuum generation in quasi-phasematched waveguides
    C R Phillips
    Edward L Ginzton Laboratory, Stanford University, Stanford, California 94305 4085, USA
    Opt Express 19:18754-73. 2011
  6. doi request reprint Supercontinuum generation in quasi-phase-matched LiNbO3 waveguide pumped by a Tm-doped fiber laser system
    C R Phillips
    E L Ginzton Laboratory, Stanford University, 348 Via Pueblo Mall, Stanford, California 94305, USA
    Opt Lett 36:3912-4. 2011
  7. doi request reprint Continuous wave monolithic quasi-phase-matched optical parametric oscillator in periodically poled lithium niobate
    C R Phillips
    E L Ginzton Laboratory, Stanford University, 348 Via Pueblo Mall, Stanford, California 94305, USA
    Opt Lett 36:2973-5. 2011

Detail Information

Publications7

  1. doi request reprint Dual-channel, single-photon upconversion detector at 1.3 μm
    J S Pelc
    E L Ginzton Laboratory, Stanford University, Stanford, California 94305, USA
    Opt Express 20:19075-87. 2012
    ..We investigate applications of the dual-channel upconversion detector as a frequency-shifting beamsplitter, and as a time-to-frequency converter to enable higher-data-rate quantum communications...
  2. ncbi request reprint Cascaded frequency upconversion for high-speed single-photon detection at 1550 nm
    J S Pelc
    E L Ginzton Laboratory, Stanford University, Stanford, California 94305, USA
    Opt Lett 37:476-8. 2012
    ..Modifications of our device are suitable for downconversion of single photons from visible-wavelength quantum emitters into the telecom band...
  3. doi request reprint Efficiency pedestal in quasi-phase-matching devices with random duty-cycle errors
    J S Pelc
    E L Ginzton Laboratory, Stanford University, Stanford, California 94305, USA
    Opt Lett 36:864-6. 2011
    ..If suppression of parasitic nonlinear interactions is important in a specific application of QPM devices, control of random duty-cycle errors is critical...
  4. doi request reprint Long-wavelength-pumped upconversion single-photon detector at 1550 nm: performance and noise analysis
    J S Pelc
    Opt Express 19:21445-56. 2011
    ..These results enable detailed design guidelines for the development of low-noise quantum frequency conversion systems, which will be an important component of fiber-optic quantum networks...
  5. doi request reprint Supercontinuum generation in quasi-phasematched waveguides
    C R Phillips
    Edward L Ginzton Laboratory, Stanford University, Stanford, California 94305 4085, USA
    Opt Express 19:18754-73. 2011
    ..Chirped quasi-phasematched gratings and stimulated Raman scattering are shown to enhance spectral broadening, and the pulse dynamics involved in the broadening processes are explained...
  6. doi request reprint Supercontinuum generation in quasi-phase-matched LiNbO3 waveguide pumped by a Tm-doped fiber laser system
    C R Phillips
    E L Ginzton Laboratory, Stanford University, 348 Via Pueblo Mall, Stanford, California 94305, USA
    Opt Lett 36:3912-4. 2011
    ..We model the supercontinuum generation numerically and show good agreement with the experiment...
  7. doi request reprint Continuous wave monolithic quasi-phase-matched optical parametric oscillator in periodically poled lithium niobate
    C R Phillips
    E L Ginzton Laboratory, Stanford University, 348 Via Pueblo Mall, Stanford, California 94305, USA
    Opt Lett 36:2973-5. 2011
    ..The analysis of parasitic effects points the way to improved device designs that should enable stable, compact, and frequency-tunable sources...