Phase Sensitive Amplification in Integrated Waveguides. Schröder, J., Zhang, Y., Husko, C. A., LeFrancois, S., & Eggleton, B. J. In Photonics West, volume 10106, pages 1010607, April, 2017. International Society for Optics and Photonics. doi abstract bibtex Phase sensitive amplification (PSA) is an attractive technology for integrated all-optical signal processing, due to it's potential for noiseless amplification, phase regeneration and generation of squeezed light. In this talk I will review our results on implementing four-wave-mixing based PSA inside integrated photonic devices. In particular I will discuss PSA in chalcogenide ridge waveguides and silicon slow-light photonic crystals. We achieve PSA in both pump- and signal-degenerate schemes with maximum extinction ratios of 11 (silicon) and 18 (chalcogenide) dB. I will further discuss the influence of two-photon absorption and free carrier effects on the performance of silicon-based PSAs.
@inproceedings{schroder2017,
title = {Phase Sensitive Amplification in Integrated Waveguides},
booktitle = {Photonics {{West}}},
author = {Schr{\"o}der, Jochen and Zhang, Youngbin and Husko, Chad A. and LeFrancois, Simon and Eggleton, Benjamin J.},
year = {2017},
month = apr,
volume = {10106},
pages = {1010607},
publisher = {{International Society for Optics and Photonics}},
doi = {10.1117/12.2249818},
abstract = {Phase sensitive amplification (PSA) is an attractive technology for integrated all-optical signal processing, due to it's potential for noiseless amplification, phase regeneration and generation of squeezed light. In this talk I will review our results on implementing four-wave-mixing based PSA inside integrated photonic devices. In particular I will discuss PSA in chalcogenide ridge waveguides and silicon slow-light photonic crystals. We achieve PSA in both pump- and signal-degenerate schemes with maximum extinction ratios of 11 (silicon) and 18 (chalcogenide) dB. I will further discuss the influence of two-photon absorption and free carrier effects on the performance of silicon-based PSAs.},
file = {/home/jschrod/Zotero/storage/68L35VXG/12.2249818.html},
keywords = {MyConferences,PSA}
}
Downloads: 0
{"_id":"bC5KoTT2pgwtYKoj7","bibbaseid":"schrder-zhang-husko-lefrancois-eggleton-phasesensitiveamplificationinintegratedwaveguides-2017","authorIDs":["R6x8T3HDWazHvr3Je"],"author_short":["Schröder, J.","Zhang, Y.","Husko, C. A.","LeFrancois, S.","Eggleton, B. J."],"bibdata":{"bibtype":"inproceedings","type":"inproceedings","title":"Phase Sensitive Amplification in Integrated Waveguides","booktitle":"Photonics West","author":[{"propositions":[],"lastnames":["Schröder"],"firstnames":["Jochen"],"suffixes":[]},{"propositions":[],"lastnames":["Zhang"],"firstnames":["Youngbin"],"suffixes":[]},{"propositions":[],"lastnames":["Husko"],"firstnames":["Chad","A."],"suffixes":[]},{"propositions":[],"lastnames":["LeFrancois"],"firstnames":["Simon"],"suffixes":[]},{"propositions":[],"lastnames":["Eggleton"],"firstnames":["Benjamin","J."],"suffixes":[]}],"year":"2017","month":"April","volume":"10106","pages":"1010607","publisher":"International Society for Optics and Photonics","doi":"10.1117/12.2249818","abstract":"Phase sensitive amplification (PSA) is an attractive technology for integrated all-optical signal processing, due to it's potential for noiseless amplification, phase regeneration and generation of squeezed light. In this talk I will review our results on implementing four-wave-mixing based PSA inside integrated photonic devices. In particular I will discuss PSA in chalcogenide ridge waveguides and silicon slow-light photonic crystals. We achieve PSA in both pump- and signal-degenerate schemes with maximum extinction ratios of 11 (silicon) and 18 (chalcogenide) dB. I will further discuss the influence of two-photon absorption and free carrier effects on the performance of silicon-based PSAs.","file":"/home/jschrod/Zotero/storage/68L35VXG/12.2249818.html","keywords":"MyConferences,PSA","bibtex":"@inproceedings{schroder2017,\n title = {Phase Sensitive Amplification in Integrated Waveguides},\n booktitle = {Photonics {{West}}},\n author = {Schr{\\\"o}der, Jochen and Zhang, Youngbin and Husko, Chad A. and LeFrancois, Simon and Eggleton, Benjamin J.},\n year = {2017},\n month = apr,\n volume = {10106},\n pages = {1010607},\n publisher = {{International Society for Optics and Photonics}},\n doi = {10.1117/12.2249818},\n abstract = {Phase sensitive amplification (PSA) is an attractive technology for integrated all-optical signal processing, due to it's potential for noiseless amplification, phase regeneration and generation of squeezed light. In this talk I will review our results on implementing four-wave-mixing based PSA inside integrated photonic devices. In particular I will discuss PSA in chalcogenide ridge waveguides and silicon slow-light photonic crystals. We achieve PSA in both pump- and signal-degenerate schemes with maximum extinction ratios of 11 (silicon) and 18 (chalcogenide) dB. I will further discuss the influence of two-photon absorption and free carrier effects on the performance of silicon-based PSAs.},\n file = {/home/jschrod/Zotero/storage/68L35VXG/12.2249818.html},\n keywords = {MyConferences,PSA}\n}\n\n","author_short":["Schröder, J.","Zhang, Y.","Husko, C. A.","LeFrancois, S.","Eggleton, B. J."],"key":"schroder2017","id":"schroder2017","bibbaseid":"schrder-zhang-husko-lefrancois-eggleton-phasesensitiveamplificationinintegratedwaveguides-2017","role":"author","urls":{},"keyword":["MyConferences","PSA"],"metadata":{"authorlinks":{}},"downloads":0,"html":""},"bibtype":"inproceedings","biburl":"https://jochenschroeder.com/bib/MyConferences.bib","creationDate":"2020-01-14T01:45:37.627Z","downloads":0,"keywords":["myconferences","psa"],"search_terms":["phase","sensitive","amplification","integrated","waveguides","schröder","zhang","husko","lefrancois","eggleton"],"title":"Phase Sensitive Amplification in Integrated Waveguides","year":2017,"dataSources":["WFmFu7dB2XMbtfRwP","JMccgxyPcSkwYqu65"]}