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27 results on '"Horvath, Cameron"'

1. Subwavelength grating metamaterial waveguides and ring resonators on a silicon nitride platform

Author

Naraine, Cameron M., Westwood-Bachman, Jocelyn N., Horvath, Cameron, Aktary, Mirwais, Knights, Andrew P., Schmid, Jens H., Cheben, Pavel, and Bradley, Jonathan D. B.

Subjects
Physics - Optics
Abstract

We propose and demonstrate subwavelength grating (SWG) metamaterial waveguides and ring resonators on a silicon nitride platform for the first time. The SWG waveguide is engineered such that a large overlap of 53% of the Bloch mode with the top cladding material is achieved, demonstrating excellent potential for applications in evanescent field sensing and light amplification. The devices, which have critical dimensions greater than 100 nm, are fabricated using a commercial rapid turn-around silicon nitride prototyping foundry process using electron beam lithography. Experimental characterization of the fabricated device reveals excellent ring resonator internal quality factor (2.11x10^5) and low propagation loss (~1.5 dB/cm) in the C-band, a significant improvement of both parameters compared to silicon based SWG ring resonators. These results demonstrate the promising prospects of SWG metamaterial structures for silicon nitride based photonic integrated circuits., Comment: 12 pages, 7 figures, submitted to Laser & Photonics Reviews for publication

Published
2022

2. A full degree-of-freedom photonic crystal spatial light modulator

Author

Panuski, Christopher L., Christen, Ian R., Minkov, Momchil, Brabec, Cole J., Trajtenberg-Mills, Sivan, Griffiths, Alexander D., McKendry, Jonathan J. D., Leake, Gerald L., Coleman, Daniel J., Tran, Cung, Louis, Jeffrey St, Mucci, John, Horvath, Cameron, Westwood-Bachman, Jocelyn N., Preble, Stefan F., Dawson, Martin D., Strain, Michael J., Fanto, Michael L., and Englund, Dirk R.

Subjects
Physics - Optics, Quantum Physics
Abstract

Harnessing the full complexity of optical fields requires complete control of all degrees-of-freedom within a region of space and time -- an open goal for present-day spatial light modulators (SLMs), active metasurfaces, and optical phased arrays. Here, we solve this challenge with a programmable photonic crystal cavity array enabled by four key advances: (i) near-unity vertical coupling to high-finesse microcavities through inverse design, (ii) scalable fabrication by optimized, 300 mm full-wafer processing, (iii) picometer-precision resonance alignment using automated, closed-loop "holographic trimming", and (iv) out-of-plane cavity control via a high-speed micro-LED array. Combining each, we demonstrate near-complete spatiotemporal control of a 64-resonator, two-dimensional SLM with nanosecond- and femtojoule-order switching. Simultaneously operating wavelength-scale modes near the space- and time-bandwidth limits, this work opens a new regime of programmability at the fundamental limits of multimode optical control., Comment: 25 pages, 20 figures

Published
2022
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3. Publisher Correction: A full degree-of-freedom spatiotemporal light modulator

Author

Panuski, Christopher L., Christen, Ian, Minkov, Momchil, Brabec, Cole J., Trajtenberg-Mills, Sivan, Griffiths, Alexander D., McKendry, Jonathan J. D., Leake, Gerald L., Coleman, Daniel J., Tran, Cung, St Louis, Jeffrey, Mucci, John, Horvath, Cameron, Westwood-Bachman, Jocelyn N., Preble, Stefan F., Dawson, Martin D., Strain, Michael J., Fanto, Michael L., and Englund, Dirk R.

Published
2023
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4. Prototyping of silicon nitride photonic integrated circuits for visible and near-infrared applications

Author

Horvath, Cameron, primary, Westwood-Bachman, Jocelyn N., additional, Setzer, Kevin, additional, McKinlay, Alexandria, additional, Naraine, Cameron M., additional, Mbonde, Hamidu M., additional, Segat Frare, Bruno L., additional, Torab Ahmadi, Pooya, additional, Mascher, Peter, additional, Bradley, Jonathan D. B., additional, and Aktary, Mirwais, additional

Published
2023
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7. A full degree-of-freedom spatiotemporal light modulator

Author

Panuski, Christopher L., primary, Christen, Ian, additional, Minkov, Momchil, additional, Brabec, Cole J., additional, Trajtenberg-Mills, Sivan, additional, Griffiths, Alexander D., additional, McKendry, Jonathan J. D., additional, Leake, Gerald L., additional, Coleman, Daniel J., additional, Tran, Cung, additional, St Louis, Jeffrey, additional, Mucci, John, additional, Horvath, Cameron, additional, Westwood-Bachman, Jocelyn N., additional, Preble, Stefan F., additional, Dawson, Martin D., additional, Strain, Michael J., additional, Fanto, Michael L., additional, and Englund, Dirk R., additional

Published
2022
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11. Resonant spatial light modulation with wafer-scale, inverse-designed microcavity arrays

Author

Panuski, Christopher, primary, Christen, Ian, additional, Mills, Sivan Trajtenberg, additional, Brabec, Cole, additional, Minkov, Momchil, additional, Griffiths, Alexander, additional, McKendry, Jonathan J.D., additional, Leake, Gerald, additional, Coleman, Daniel, additional, Tran, Cung, additional, St Louis, Jeffrey, additional, Mucci, John, additional, Horvath, Cameron, additional, Westwood-Bachman, Jocelyn, additional, Preble, Stefan, additional, Dawson, Martin, additional, Fanto, Michael, additional, Strain, Michael, additional, and Englund, Dirk, additional

Published
2022
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12. Subwavelength Grating Metamaterial Waveguides and Ring Resonators on a Silicon Nitride Platform.

Author

Naraine, Cameron M., Westwood‐Bachman, Jocelyn N., Horvath, Cameron, Aktary, Mirwais, Knights, Andrew P., Schmid, Jens H., Cheben, Pavel, and Bradley, Jonathan D. B.

Subjects
ELECTRON beam lithography, METAMATERIALS, RESONATORS, SILICON nitride, QUALITY factor, INTEGRATED circuits, WHISPERING gallery modes
Abstract

Subwavelength grating (SWG) metamaterial waveguides and ring resonators on a silicon nitride platform are proposed and demonstrated. The SWG waveguide is engineered such that a large overlap of 53% of the Bloch mode with the top cladding material is achieved, demonstrating excellent potential for applications in evanescent field sensing and light amplification. The devices, which have critical dimensions greater than 100 nm, are fabricated using a commercial rapid turn‐around silicon nitride prototyping foundry process using electron beam lithography. Experimental characterization of the fabricated device reveals excellent ring resonator internal quality factor (2.11 × 105) and low propagation loss (≈1.5 dB cm−1) in the C‐band, a significant improvement of both parameters compared to silicon‐based SWG ring resonators. These results demonstrate the promising prospects of SWG metamaterial structures for silicon nitride based photonic integrated circuits. [ABSTRACT FROM AUTHOR]

Published
2023
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13. Silicon Photonic Circuit Design Using Rapid Prototyping Foundry Process Design Kits

Author

Chrostowski, Lukas, primary, Shoman, Hossam, additional, Hammood, Mustafa, additional, Yun, Han, additional, Jhoja, Jaspreet, additional, Luan, Enxiao, additional, Lin, Stephen, additional, Mistry, Ajay, additional, Witt, Donald, additional, Jaeger, Nicolas A. F., additional, Shekhar, Sudip, additional, Jayatilleka, Hasitha, additional, Jean, Philippe, additional, Villers, Simon B.-de, additional, Cauchon, Jonathan, additional, Shi, Wei, additional, Horvath, Cameron, additional, Westwood-Bachman, Jocelyn N., additional, Setzer, Kevin, additional, Aktary, Mirwais, additional, Patrick, N. Shane, additional, Bojko, Richard J., additional, Khavasi, Amin, additional, Wang, Xu, additional, Ferreira de Lima, Thomas, additional, Tait, Alexander N., additional, Prucnal, Paul R., additional, Hagan, David E., additional, Stevanovic, Doris, additional, and Knights, Andy P., additional

Published
2019
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27. Silicon photonic dual-gas sensor for H 2 and CO 2 detection.

Author

Mi G, Horvath C, and Van V

Abstract

We report a silicon photonic dual-gas sensor based on a wavelength-multiplexed microring resonator array for simultaneous detection of H 2 and CO 2 gases. The sensor uses Pd as the sensing layer for H 2 gas and a novel functional material based on the Polyhexamethylene Biguanide (PHMB) polymer for CO 2 gas sensing. Gas sensing experiments showed that the PHMB-functionalized microring exhibited high sensitivity to CO 2 gas and excellent selectivity against H 2 . However, the Pd-functionalized microring was found to exhibit sensitivity to both H 2 and CO 2 gases, rendering it ineffective for detecting H 2 in a gas mixture containing CO 2 . We show that the dual-gas sensing scheme can allow for accurate measurement of H 2 concentration in the presence of CO 2 by accounting for the cross-sensitivity of Pd to the latter.

Published
2017
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