Nonlinear optical phenomena on the periodic structure for photonic chip integration platforms

Name: Teanchai Chantakit

LCSH: Kasetsart University -- Dissertations. Ph.D. (Physics) 2019

Classification :.LCCS: QC355.3

LCSH: Kasetsart University. -- Department of Physics -- Dissertations

LCSH: Nonlinear optics

LCSH: Nonlinear optical Phenomena

LCSH: Photonic chip

LCSH: Optical engineering

LCSH: Photonic crystals

LCSH: Optical nano devices

LCSH: Ultra-compact photonic chip -- Design

LCSH: Integrated circuits -- Design

Abstract: The potential capability of embedded periodic structures in the modern photonic-based device, for example, the biometric recognition and the mobile aggregation data collectors, has been emerged in the flat optics in recent years. This concept on which the edifice structure can be categorised as the optical beam propagation-dependent medium (photonic crystals) and the relative optical phase tailoring media (metasurfaces). However, the full performance requisition of merged characteristics from these nanoscale structures in the term of modulated optical beam classification has not yet been investigated before. Exploration for the optical behaviour mystery behind these periodic platforms will fill out one piece of the completion of conventional counterpart renewal. As part of basis integrant in the modern informative devices, it can enable the next development of smaller network architectures and may bridge the academic researches and industrial innovations. This thesis illustrates the potential of the engineered beam profile of a photonic phase tailoring in the industrial dielectric materials and a nonlinear optical pattern formation or modulational instability for the first progression of long-term photonicsbased innovation development within multi-disciplinary. In this way, the structured light shaping has been designed in the hybrid attributes of 1D/2D periodic mediums to demonstrate the cross-phase modulation-based wavelength conversion and the cavity-assisted interaction for photonic beamforming. As the results, the cavity-based virtual antenna configuration can materialize an all-optical wireless transmission with wavelength multiplexing and demultiplexing, which useful for the future integrated optical circuit interconnect platform.

Kasetsart University. Office of the University Library

Address: Bangkok

Email: tdckulib@ku.ac.th

Name: Surasak Chiangga

Role: Thesis Advisor

Name: Nattaporn Chattham

Role: Thesis CO-Advisor

Created: 2019

Modified: 2025-07-01

Issued: 2025-07-01

วิทยานิพนธ์/Thesis

application/pdf

URL: https://www.lib.ku.ac.th/KUthesis/2562/teanchai-cha-all.pdf

CallNumber: QC355.3 .T42

eng

DegreeName: Doctor of Philosophy

Level: Doctoral Degree

Descipline: Physics

Grantor: Kasetsart University

©copyrights Kasetsart University

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