Anthony Klee scite author profile

Anthony Klee

5Publications

33Citation Statements Received

57Citation Statements Given

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120

Affiliations

Lockheed Martin (United States), University of Central Florida

Publications

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Brillouin-based phase shifter in a silicon waveguide

McKay¹,

Merklein²,

Casas-Bedoya³

et al. 2019

Optica

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Integrated silicon microwave photonics offers great potential in microwave phase shifter elements, and promises compact and scalable multi-element chips that are free from electromagnetic interference. Stimulated Brillouin scattering, which was recently demonstrated in silicon, is a particularly powerful approach to induce a phase shift due to its inherent flexibility, offering an optically controllable and selective phase shift. However, to date, only moderate amounts of Brillouin gain has been achieved and theoretically this would restrict the phase shift to a few tens of degrees, significantly less than the required 360°. Here, we overcome this limitation with a phase enhancement method using RF interference, showing a 360°broadband phase shifter based on Brillouin scattering in a suspended silicon waveguide. We achieve a full 360°phaseshift over a bandwidth of 15 GHz using a phase enhancement factor of 25, thereby enabling practical broadband Brillouin phase shifter for beam forming and other applications. arXiv:1903.08363v2 [physics.optics]

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Exploring the limits of semiconductor-laser-based optical frequency combs

et al. 2019

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Broadband Brillouin-based phase shifter with phase amplification in a silicon waveguide

McKay¹,

Merklein²,

Casas-Bedoya³

et al. 2019

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Characterization of Semiconductor-Based Optical Frequency Comb Sources Using Generalized Multiheterodyne Detection

Klee

Davila-Rodriguez

Williams

et al. 2013

IEEE J. Select. Topics Quantum Electron.

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Generalized Spectral Magnitude and Phase Retrieval Algorithm for Self-Referenced Multiheterodyne Detection

Klee

Davila-Rodriguez

Williams

et al. 2013

J. Lightwave Technol.

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Anthony Klee

Brillouin-based phase shifter in a silicon waveguide

Exploring the limits of semiconductor-laser-based optical frequency combs

Broadband Brillouin-based phase shifter with phase amplification in a silicon waveguide

Characterization of Semiconductor-Based Optical Frequency Comb Sources Using Generalized Multiheterodyne Detection

Generalized Spectral Magnitude and Phase Retrieval Algorithm for Self-Referenced Multiheterodyne Detection

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