소장자료
| LDR | 02566nam 2200421 4500 | ||
| 001 | 0100870728▲ | ||
| 005 | 20250523093835▲ | ||
| 006 | m o d ▲ | ||
| 007 | cr#unu||||||||▲ | ||
| 008 | 250123s2024 us ||||||||||||||c||eng d▲ | ||
| 020 | ▼a9798346565321▲ | ||
| 035 | ▼a(MiAaPQ)AAI31710853▲ | ||
| 035 | ▼a(MiAaPQ)Stanfordyv492fj4067▲ | ||
| 040 | ▼aMiAaPQ▼cMiAaPQ▼d221016▲ | ||
| 082 | 0 | ▼a660▲ | |
| 100 | 1 | ▼aWhite, Alexander Dillon.▲ | |
| 245 | 1 | 0 | ▼aIntegrated Optics as a Toolbox for Communication, Quantum Science, and Sensing▼h[electronic resource].▲ |
| 260 | ▼a[S.l.]: ▼bStanford University. ▼c2024▲ | ||
| 260 | 1 | ▼aAnn Arbor :▼bProQuest Dissertations & Theses,▼c2024▲ | |
| 300 | ▼a1 online resource(180 p.)▲ | ||
| 500 | ▼aSource: Dissertations Abstracts International, Volume: 86-05, Section: B.▲ | ||
| 500 | ▼aAdvisor: Vuckovic, Jelena.▲ | ||
| 502 | 1 | ▼aThesis (Ph.D.)--Stanford University, 2024.▲ | |
| 520 | ▼aIntegrated optics promises to bring the rich world of optical technology to the nanoscale; the fabrication of bulk optics on chips shows great promise in applications across communications, sensing, augmented and virtual reality, and even quantum computing. However, multitudinous challenges must be overcome to make these applications a reality.In this thesis, I will present new experimental and theoretical techniques to tackle four such challenges. First, I will describe how nonlinear optics can be used to generate passive optical isolators - filling a critical gap in integrated photonic infrastructure. Second, I will show how photonic inverse design can be applied to mode multiplexing to enable higher bandwidth optical communications. Third, I will describe new techniques for the scalable integration of 2D materials into photonic devices, allowing us to take advantage of their unique material process in a way that is compatible with mass manufacturing. Finally, I will show how inverse design techniques can be used to optimize modulatory signals in solid-state quantum systems to engineer their spectra and interactions.▲ | ||
| 590 | ▼aSchool code: 0212.▲ | ||
| 650 | 4 | ▼aSilicon nitride.▲ | |
| 650 | 4 | ▼aSemiconductors.▲ | |
| 650 | 4 | ▼aLasers.▲ | |
| 650 | 4 | ▼aData transmission.▲ | |
| 650 | 4 | ▼aOptics.▲ | |
| 690 | ▼a0752▲ | ||
| 710 | 2 | 0 | ▼aStanford University.▲ |
| 773 | 0 | ▼tDissertations Abstracts International▼g86-05B.▲ | |
| 790 | ▼a0212▲ | ||
| 791 | ▼aPh.D.▲ | ||
| 792 | ▼a2024▲ | ||
| 793 | ▼aEnglish▲ | ||
| 856 | 4 | 0 | ▼uhttp://www.riss.kr/pdu/ddodLink.do?id=T17165204▼nKERIS▼z이 자료의 원문은 한국교육학술정보원에서 제공합니다.▲ |
Integrated Optics as a Toolbox for Communication, Quantum Science, and Sensing[electronic resource]
자료유형
국외단행본
서명/책임사항
Integrated Optics as a Toolbox for Communication, Quantum Science, and Sensing [electronic resource].
발행사항
[S.l.] : Stanford University. 2024 Ann Arbor : ProQuest Dissertations & Theses , 2024
형태사항
1 online resource(180 p.)
일반주기
Source: Dissertations Abstracts International, Volume: 86-05, Section: B.
Advisor: Vuckovic, Jelena.
Advisor: Vuckovic, Jelena.
학위논문주기
Thesis (Ph.D.)--Stanford University, 2024.
요약주기
Integrated optics promises to bring the rich world of optical technology to the nanoscale; the fabrication of bulk optics on chips shows great promise in applications across communications, sensing, augmented and virtual reality, and even quantum computing. However, multitudinous challenges must be overcome to make these applications a reality.In this thesis, I will present new experimental and theoretical techniques to tackle four such challenges. First, I will describe how nonlinear optics can be used to generate passive optical isolators - filling a critical gap in integrated photonic infrastructure. Second, I will show how photonic inverse design can be applied to mode multiplexing to enable higher bandwidth optical communications. Third, I will describe new techniques for the scalable integration of 2D materials into photonic devices, allowing us to take advantage of their unique material process in a way that is compatible with mass manufacturing. Finally, I will show how inverse design techniques can be used to optimize modulatory signals in solid-state quantum systems to engineer their spectra and interactions.
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9798346565321
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