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Control of Light-matter Interactions...

Proscia, Nicholas V.

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Control of Light-matter Interactions via Nanostructured Photonic Materials = = 通过纳米结构光子材料控制光物质相互作用.

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Control of Light-matter Interactions via Nanostructured Photonic Materials =/
其他題名:	通过纳米结构光子材料控制光物质相互作用.
作者:	Proscia, Nicholas V.
出版者:	Ann Arbor : ProQuest Dissertations & Theses, : 2019,
面頁冊數:	106 p.
附註:	Source: Dissertations Abstracts International, Volume: 80-09, Section: B.
Contained By:	Dissertations Abstracts International80-09B.
標題:	Quantum physics. -
電子資源:	http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=13428343
ISBN:	9780438962385

Control of Light-matter Interactions via Nanostructured Photonic Materials = = 通过纳米结构光子材料控制光物质相互作用.
Proscia, Nicholas V.

Control of Light-matter Interactions via Nanostructured Photonic Materials =通过纳米结构光子材料控制光物质相互作用. - Ann Arbor : ProQuest Dissertations & Theses, 2019 - 106 p.

Source: Dissertations Abstracts International, Volume: 80-09, Section: B.

Thesis (Ph.D.)--City University of New York, 2019.

This item is not available from ProQuest Dissertations & Theses.

The thesis here investigates the manipulation of light-matter interactions via nanoscale engineering of material systems. When material systems are structured on the nanoscale, their optical responses can be dramatically altered. In this thesis, this is done in two primary ways: One method is by changing the geometry of nanostructures to induce a resonant behavior with incident electromagnetic field of optical wavelengths. This allows field enhancement in highly localized areas to strengthen exotic light-matter interactions that would otherwise be too weak to measure or for practical use. In this regard, the work presented here studies a voltage produced in a metal film by an interesting momentum transfer which occurs between incident photons and electrons in a plasmonic film via the spin Hall effect of light. The second method focuses on nanometer scale manipulations of material systems to fundamentally alter the electronic properties of the material and thus significantly change its optical response. This is accomplished via the strain engineering of the electronic bands in the hexagonal Boron Nitride. This allows electronic transitions deep within the bandgap of the material to become radiative either through the increased likelihood ionization or electron capture. These electronic transitions are known to produce number states which is a quantum of light used in quantum information sciences.

ISBN: 9780438962385Subjects--Topical Terms:

726746
Quantum physics.

Control of Light-matter Interactions via Nanostructured Photonic Materials = = 通过纳米结构光子材料控制光物质相互作用.
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245 1 0 $a Control of Light-matter Interactions via Nanostructured Photonic Materials = $b 通过纳米结构光子材料控制光物质相互作用.
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300 $a 106 p.
500 $a Source: Dissertations Abstracts International, Volume: 80-09, Section: B.
500 $a Publisher info.: Dissertation/Thesis.
500 $a Advisor: Menon, Vinod M.
502 $a Thesis (Ph.D.)--City University of New York, 2019.
506 $a This item is not available from ProQuest Dissertations & Theses.
506 $a This item must not be sold to any third party vendors.
520 $a The thesis here investigates the manipulation of light-matter interactions via nanoscale engineering of material systems. When material systems are structured on the nanoscale, their optical responses can be dramatically altered. In this thesis, this is done in two primary ways: One method is by changing the geometry of nanostructures to induce a resonant behavior with incident electromagnetic field of optical wavelengths. This allows field enhancement in highly localized areas to strengthen exotic light-matter interactions that would otherwise be too weak to measure or for practical use. In this regard, the work presented here studies a voltage produced in a metal film by an interesting momentum transfer which occurs between incident photons and electrons in a plasmonic film via the spin Hall effect of light. The second method focuses on nanometer scale manipulations of material systems to fundamentally alter the electronic properties of the material and thus significantly change its optical response. This is accomplished via the strain engineering of the electronic bands in the hexagonal Boron Nitride. This allows electronic transitions deep within the bandgap of the material to become radiative either through the increased likelihood ionization or electron capture. These electronic transitions are known to produce number states which is a quantum of light used in quantum information sciences.
520 $a 本文在此研究了通过材料系统的纳米级工程对光 - 物质相互作用的操纵。当材料系统在纳米尺度上构建时，它们的光学响应可以被显着改变。在本论文中，这是通过两种主要方式完成的：一种方法是通过改变纳米结构的几何形状来诱导与光波长的入射电磁场的共振行为。这允许在高度局部化的区域中的场增强来增强异常的光 - 物质相互作用，否则这些相互作用太弱而无法测量或实际使用。在这方面，这里介绍的工作通过有趣的动量转移研究金属膜中产生的电压，该动量转移通过光的自旋霍尔效应在等离子体膜中的入射光子和电子之间发生。第二种方法侧重于材料系统的纳米级操作，从根本上改变材料的电子特性，从而显着改变其光学响应。这是通过六角形氮化硼中电子带的应变工程实现的。这允许在材料的带隙内深处的电子跃迁通过增加的可能性电离或电子捕获而变得辐射。已知这些电子跃迁产生数量状态，这是量子信息科学中使用的光量子。.
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650 4 $a Condensed matter physics. $3 3173567
650 4 $a Optics. $3 517925
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