Geometric theory for designing optical binary amplitude and binary phase-only filters

Matalgah, Mustafa M.

January 1996

Thesis (Ph. D.)--University of Missouri-Columbia, 1996. / Typescript. Vita. Includes bibliographical references (leaves 117-124). Also available on the Internet.

Constructing a language model based on data mining techniques for a Chinese character recognition system /

Chen, Yong,

January 2004

Thesis (Ph. D.)--University of Hong Kong, 2005.

New approaches in optical lithography technology for subwavelength resolution /

Kang, Hoyoung.

January 2005

Thesis (M.S.)--Rochester Institute of Technology, 2005. / Typescript. Includes bibliographical references (leaves 94-102).

True-time all optical performance monitoring by means of optical correlation

Abou-Galala, Feras Moustafa,

January 2007

Thesis (Ph. D.)--Ohio State University, 2007. / Title from first page of PDF file. Includes bibliographical references (p. 139-144).

Solid state chemistry of the spin transition polymers [Fe(Htrz)3](CIO4)2 and [Fe(NH2]trz)3](CIO4)2

Smit, Eugene

24 March 2006

Please read the abstract in the section 00front of this document / Dissertation (MSc (Chemistry))--University of Pretoria, 2006. / Chemistry / unrestricted

Solid state chemistry

Solid state electronics

Optical data processing polymers

UCTD

Cavity enhanced eigenmode multiplexing for volume holographic data storage

Miller, Bo E., Takashima, Yuzuru

23 August 2017

Previously, we proposed and experimentally demonstrated enhanced recording speeds by using a resonant optical cavity to semi-passively increase the reference beam power while recording image bearing holograms. In addition to enhancing the reference beam power the cavity supports the orthogonal reference beam families of its eigenmodes, which can be used as a degree of freedom to multiplex data pages and increase storage densities for volume Holographic Data Storage Systems (HDSS). While keeping the increased recording speed of a cavity enhanced reference arm, image bearing holograms are multiplexed by orthogonal phase code multiplexing via Hermite-Gaussian eigenmodes in a Fe: LiNbO3 medium with a 532 nm laser at two Bragg angles for expedited recording of four multiplexed holograms. We experimentally confirmed write rates are enhanced by an average factor of 1.1, and page crosstalk is about 2.5%. This hybrid multiplexing opens up a pathway to increase storage density while minimizing modifications to current angular multiplexing HDSS.

Multiplexing Holography

Optical Data Storage

Gaussian Eigenmodes

Optical Resonators

Pseudo-phase-conjugate

Fe:LiNbO3

3D Image Reconstruction Using Optical Phase Retrieval And Cone-Beam Tomography

Hemanth, T

02 1900

No description available.

Image Processing

Optical Data Processing

Tomography

Cone-beam Tomography

Flow Visualization

Tomographic Imaging

Optics

A prototype investigation of a multi-GHz multi-channel analog transient recorder /

Kohnen, William.

January 1986

No description available.

Optical data processing

Analog-to-digital converters

Pulse techniques (Electronics)

Data transmission systems

Design of Multilayer Optical Media: Organic Photovoltaics and Optical Data Storage

Valle, Brent

19 August 2013

No description available.

Physics

Optics

photovoltaics

organic photovoltaics

optical data storage

optical interference

optical transfer matrix

cavity effects

Two-photon 3d Optical Data Storage Via Fluorescence Modulation Of Fluorene Dyes By Photochromic Diarylethenes

Corredor, Claudia

01 January 2007

Three-dimensional (3D) optical data storage based on two-photon processes provides highly confined excitation in a recording medium and a mechanism for writing and reading data with less cross talk between multiple memory layers, due to the quadratic dependence of two photon absorption (2PA) on the incident light intensity. The capacity for highly confined excitation and intrinsic 3D resolution affords immense information storage capacity (up to 1012 bits/cm3). Recently, the use of photochromic materials for 3D memory has received intense interest because of several major advantages over current optical systems, including their erasable/rewritable capability, high resolution, and high sensitivity. This work demonstrates a novel two-photon 3D optical storage system based on the modulation of the fluorescence emission of a highly efficient two-photon absorbing fluorescent dye (fluorene derivative) and a photochromic compound (diarylethene). The feasibility of using efficient intermolecular Förster Resonance Energy Transfer (RET) from the non-covalently linked two-photon absorbing fluorescent fluorene derivative to the photochromic diarylethene as a novel read-out method in a two-photon optical data storage system was explored. For the purpose of the development of this novel two-photon 3D optical storage system, linear and two-photon spectroscopic characterization of commercial diarylethenes in solution and in a polymer film and evidence of their cyclization (O→C) and cycloreversion (C→O) reactions induced by two-photon excitation were undertaken. For the development of a readout method, Resonance Energy Transfer (RET) from twophoton absorbing fluorene derivatives to photochromic compounds was investigated under one and two-photon excitation. The Förster's distances and critical acceptor concentrations were determined for non-bound donor-acceptor pairs in homogeneous molecular ensembles. To the best of my knowledge, modulation of the two-photon fluorescence emission of a dye by a photochromic diarylethene has not been reported as a mechanism to read the recorded information in a 3D optical data storage system. This system was demonstrated to be highly stable and suitable for recording data in thick storage media. The proposed RET-based readout method proved to be non-destructive (exhibiting a loss of the initial fluorescence emission less than 20% of the initial emission after 10,000 readout cycles). Potential application of this system in a rewritable-erasable optical data storage system was proved. As part of the strategy for the development of diarylethenes optimized for 3D optical data storage, derivatives containing Ï€-conjugated fluorene molecules were synthesized and characterized. The final part of this reasearch demonstrated the photostability of fluorine derivatives showing strong molecular polarizability and high fluorescence quantum yields. These compounds are quite promising for application in RET-based two-photon 3D optical data storage. Hence, the photostability of these fluorene derivatives is a key parameter to establish, and facilitates their full utility in critical applications.

diarylethenes

optical data storage

two-photon absorption

resonance energy transfer

photochromic materials

fluorene derivatives

Chemistry