M
Mackenzie Van Camp
Researcher at Boston University
Publications - 11
Citations - 271
Mackenzie Van Camp is an academic researcher from Boston University. The author has contributed to research in topics: Photon & Spontaneous parametric down-conversion. The author has an hindex of 5, co-authored 10 publications receiving 236 citations. Previous affiliations of Mackenzie Van Camp include IBM & Massachusetts Institute of Technology.
Papers
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Journal ArticleDOI
Demonstration of electrooptic modulation at 2165nm using a silicon Mach-Zehnder interferometer
Mackenzie Van Camp,Solomon Assefa,Douglas M. Gill,Tymon Barwicz,Steven M. Shank,Philip M. Rice,Teya Topuria,William M. J. Green +7 more
TL;DR: The results illustrate that optical modulator design methodologies previously developed for telecom-band devices can be successfully applied to produce high-performance devices for a silicon nanophotonic mid-infrared integrated circuit platform.
Journal ArticleDOI
Optomechanical cavity cooling of an atomic ensemble.
TL;DR: In this article, the authors demonstrate cavity sideband cooling of a single collective motional mode of an atomic ensemble down to a mean phonon occupation number of 2.0 − 0.3 − √ √ 0.9.
Optomechanical Cavity Cooling of an Atomic Ensemble
TL;DR: C cavity sideband cooling of a single collective motional mode of an atomic ensemble down to a mean phonon occupation number is demonstrated, demonstrating the cooperative character of the light-emission-induced cooling process.
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Long-external-cavity distributed Bragg reflector laser with subkilohertz intrinsic linewidth.
TL;DR: A simple, compact, and robust 780 nm distributed Bragg reflector laser with subkilohertz intrinsic linewidth and an external cavity with optical path length of 3.6 m, implemented with an optical fiber, which reduces the laser frequency noise by several orders of magnitude.
Journal ArticleDOI
Electromagnetically Induced Transparency with Noisy Lasers
Yanhong Xiao,Yanhong Xiao,Tun Wang,Tun Wang,Maria Baryakhtar,Mackenzie Van Camp,Michael Crescimanno,Michael Hohensee,Liang Jiang,David F. Phillips,Mikhail D. Lukin,Susanne Yelin,Ronald L. Walsworth +12 more
TL;DR: In this article, the authors demonstrate and characterize two coherent phenomena that can mitigate the effects of laser phase noise for electromagnetically induced transparency (EIT): a laser-power-broadening-resistant resonance in the transmitted intensity cross correlation between EIT optical fields, and a resonant suppression of the conversion of laser-phase noise to intensity noise when one-photon noise dominates over twophotondetuning noise.