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Andrew Starbuck
Researcher at Sandia National Laboratories
Publications - 94
Citations - 2562
Andrew Starbuck is an academic researcher from Sandia National Laboratories. The author has contributed to research in topics: Silicon photonics & Photonics. The author has an hindex of 19, co-authored 86 publications receiving 2071 citations.
Papers
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Journal ArticleDOI
Tailorable stimulated Brillouin scattering in nanoscale silicon waveguides
Heedeuk Shin,Wenjun Qiu,Robert L. Jarecki,Jonathan A. Cox,Roy H. Olsson,Andrew Starbuck,Zheng Wang,Peter T. Rakich +7 more
TL;DR: Experiments show that radiation pressures, produced by subwavelength modal confinement, yield enhancement of Brillouin nonlinearity beyond those of material non linearity alone, which paves the way towards the hybridization of silicon photonics, microelectromechanical systems and CMOS signal-processing technologies on chip.
Journal ArticleDOI
Ultra compact 45 GHz CMOS compatible Germanium waveguide photodiode with low dark current
Christopher T. DeRose,Douglas C. Trotter,William A. Zortman,Andrew Starbuck,Moz Fisher,Michael R. Watts,Paul Davids +6 more
TL;DR: The low intrinsic capacitance of this photodiode may enable the elimination of transimpedance amplifiers in future optical data communication receivers, creating ultra low power consumption optical communications.
Tailorable stimulated Brillouin scattering in nanoscale silicon waveguides
Heedeuk Shin,Wenjun Qiu,Robert L. Jarecki,Jonathan A. Cox,Roy H. Olsson,Andrew Starbuck,Zheng Wang,Peter T. Rakich +7 more
TL;DR: Shin et al. as discussed by the authors used a hybrid photonic-phononic waveguide structure and showed stimulated Brillouin scattering nonlinearities and gain, which offers new on-chip signal processing abilities.
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Bonded thin film lithium niobate modulator on a silicon photonics platform exceeding 100 GHz 3-dB electrical modulation bandwidth
Peter O. Weigel,Jie Zhao,Kelvin Fang,Hasan Al-Rubaye,Douglas C. Trotter,Dana Hood,John Mudrick,Christina Dallo,Andrew Pomerene,Andrew Starbuck,Christopher T. DeRose,Anthony L. Lentine,Gabriel M. Rebeiz,Shayan Mookherjea +13 more
TL;DR: This hybrid Si-LN MZM achieves beyond 106 GHz 3-dB electrical modulation bandwidth, the highest of any silicon photonic or lithium niobate (phase) modulator.
Journal ArticleDOI
Control of coherent information via on-chip photonic-phononic emitter-receivers.
TL;DR: A mechanism for coherent information processing based on travelling-wave photon–phonon transduction is demonstrated, which achieves a phonon emit-and-receive process between distinct nanophotonic waveguides.