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Narrow plasmon resonances in hybrid systems

Author: Philip A Thomas
Publisher: Cham, Switzerland : Springer, 2018.
Series: Springer theses
Edition/Format:   eBook : Document : EnglishView all editions and formats
Summary:
Advances in understanding the interactions between light and subwavelength materials have enabled the author and his collaborators to tailor unique optical responses at the nanoscale. In particular, metallic nanostructures capable of supporting surface plasmons can be designed to possess spectrally narrow plasmon resonances, which are of particular interest due to their exceptional sensitivity to their local  Read more...
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Genre/Form: Electronic books
Additional Physical Format: Print version:
Thomas, Philip A.
Narrow plasmon resonances in hybrid systems.
Cham, Switzerland : Springer, 2018
(OCoLC)1042355998
Material Type: Document, Internet resource
Document Type: Internet Resource, Computer File
All Authors / Contributors: Philip A Thomas
ISBN: 9783319975269 3319975269 9783319975276 3319975277
OCLC Number: 1049150374
Notes: "Doctoral thesis accepted by the University of Manchester, Manchester, UK."
Description: 1 online resource (xvii, 114 pages) : illustrations (some color)
Contents: Intro; Supervisor's Foreword; Abstract; Acknowledgements; Contents; Abbreviations; 1 Introduction; References; 2 Plasmonics; 2.1 Metal Optics; 2.1.1 Maxwell's Equations; 2.1.2 Drude Model; 2.1.3 Electromagnetic Waves; 2.2 Surface Plasmon Polaritons; 2.2.1 Origin; 2.2.2 Excitation Methods; 2.2.3 Controlling the Properties of Surface Plasmon Polaritons; 2.2.4 Deposition of Thin Films Using Electron-Beam Evaporation; 2.2.5 Characterisation of Thin Films Using Spectroscopic Ellipsometry; 2.3 Localised Surface Plasmon Resonances; 2.3.1 The Frölich Condition and Mie Theory. 2.3.2 Fabrication of Plasmonic Nanoarrays Using Electron-Beam Lithography2.4 Factors Affecting the Shape of Plasmon Resonances; 2.4.1 Losses; 2.4.2 Fano Asymmetry; References; 3 Two-Dimensional Materials; 3.1 Introduction; 3.2 Graphene; 3.2.1 Electronic Properties; 3.2.2 Optical Properties; 3.2.3 Intrinsic Graphene Plasmons; 3.3 Hexagonal Boron Nitride; 3.3.1 Reststrahlen Band in hBN; 3.4 Fabrication of 2D Materials; 3.4.1 Mechanical Exfoliation; 3.4.2 Growth of Graphene via Chemical Vapour Deposition; 3.5 Characterisation of 2D Materials; 3.5.1 Raman Spectroscopy. 3.5.2 Fourier Transform Infrared SpectroscopyReferences; 4 Super-Narrow, Extremely High Quality Collective Plasmon Resonances at Telecommunication Wavelengths; 4.1 Introduction; 4.2 Diffraction Coupling of Localised Plasmon Resonances; 4.2.1 Coupled Dipole Approximation; 4.2.2 Previous Experimental Observations of Diffraction Coupled Plasmon Resonances; 4.3 Sample Design; 4.4 Results; 4.5 Discussion; 4.6 Conclusion; References; 5 Nanomechanical Electro-Optical Modulator Based on Atomic Heterostructures; 5.1 Introduction; 5.2 Sample Design; 5.3 Spectroscopic Ellipsometry and Reflectometry. 5.3.1 Ultraviolet to Near-Infrared Response5.3.2 Mid-infrared Response; 5.4 Modulation Frequency; 5.4.1 Theoretical Modulation Frequency; 5.4.2 Frequency Measurements; 5.5 Discussion; 5.5.1 Maxwell Stresses; 5.5.2 Further Device Optimisation; 5.6 Conclusion; References; 6 Strong Coupling of Diffraction Coupled Plasmons and Optical Waveguide Modes in Gold Stripe-Dielectric Nanostructures at Telecom Wavelengths; 6.1 Introduction; 6.2 Sample Design; 6.3 Characterisation Using Spectroscopic Ellipsometry; 6.4 Communication Length of Hybrid Plasmon-Wave-Guide System; 6.5 Discussion; 6.6 Conclusion.
Series Title: Springer theses
Responsibility: Philip A. Thomas.

Abstract:

Advances in understanding the interactions between light and subwavelength materials have enabled the author and his collaborators to tailor unique optical responses at the nanoscale. In particular, metallic nanostructures capable of supporting surface plasmons can be designed to possess spectrally narrow plasmon resonances, which are of particular interest due to their exceptional sensitivity to their local environment. In turn, combining plasmonic nanostructures with other materials in hybrid systems allows this sensitivity to be exploited in a broad range of applications. In this book the author explores two different approaches to attaining narrow plasmon resonances: in gold nanoparticle arrays by utilising diffraction coupling, and in copper thin films covered by a protective graphene layer. The performance of these resonances is then considered in a number of applications. Nanoparticle arrays are used along with an atomic heterostructure as elements in a nanomechanical electro-optical modulator that is capable of strong, broadband modulation. Strong coupling between diffraction-coupled plasmon resonances and a gold nanoparticle array and guided modes in a dielectric slab is used to construct a hybrid waveguide. Lastly, the extreme phase sensitivity of graphene-protected copper is used to detect trace quantities of small toxins in solution far below the detection limit of commercial surface plasmon resonance sensors.

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