Application of cathodoluminescence and quantitative color analysis to the study of glass for forensic purposes

Nawrocki, Heidi D.

January 2008

Thesis (M.S.)--West Virginia University, 2008. / Title from document title page. Document formatted into pages; contains ix, 85 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 63-65).

Longitudinal optical binding /

Metzger, Nikolaus K.

January 2008

Thesis (Ph.D.) - University of St Andrews, April 2008.

Study to Find Out the Optimum Number of Transparent Covers and Refractive Index for the Best Performance of Sunearth Solar Water Heater Using Matlab Software

January 2015

abstract: Research was conducted to observe the effect of Number of Transparent Covers and Refractive Index on performance of a domestic Solar Water heating system. The enhancement of efficiency for solar thermal system is an emerging challenge. The knowledge gained from this research will enable to optimize the number of transparent covers and refractive index prior to develop a solar water heater with improved optical efficiency and thermal efficiency for the collector. Numerical simulation is conducted on the performance of the liquid flat plate collector for July 21st and October 21st from 8 am to 4 pm with different refractive index values 1.1, 1.4, 1.7 and different numbers of transparent covers (0-3). In order to accomplish the proposed method the formulation and solutions are executed using simple software MATLAB. The result demonstrates efficiency of flat plate collector increases with the increase of number of covers. The performance of collector decreases when refractive index is higher. The improved useful heat gain is obtained when number of cover used is 3 and refractive index is 1.1. / Dissertation/Thesis / Masters Thesis Mechanical Engineering 2015

Engineering

ASHRAE

MATLAB

refractive index

Solarwater

Periodic Nonlinear Refractive Index of Carbon Disulfide Vapors

Strunk, Evelyn

01 May 2014

The purpose of this thesis is to explore the nonlinear refractive index of carbon disulfide vapors as opposed to its liquid form. With CS[sub2] vapors, the vapors are less dense so they will rotate longer than liquid CS[sub2] because there are less intermolecular interactions. The electric field of the beam causes the molecules to align with the electric field and applies a torque to the molecules. After this excitation, the molecules continue rotating. The rotations change the index of refraction of the material. Continuous rotation of the molecules causes the index of refraction to be periodic which means the molecules are going through multiple revivals. I will analyze this periodic nonlinear index of refraction. However, some problems occurred while the experiment was being done as well as some issues of measuring CS[sub2] because of white light continuum generation in the cell walls. To avoid these issues we measured the air in the lab and were able to observe the periodic change of index of refraction for O[sub2] and N[sub2].

Physics

Propagation characteristics of the self-focusing fiber wave-guide.

AhMew, Henry Yoong Hin

January 1973

No description available.

Refractive index

Fiber optics

Wave guides

TUNABLE AND HIGH REFRACTIVE INDEX POLYDIMETHYLSILOXANE POLYMERS FOR LABEL-FREE OPTICAL SENSING

Little, JESSAMYN

26 August 2013

There is a need for chemical sensors for monitoring volatile organic compounds (VOCs) in air. Acute and chronic inhalation of toxic VOCs can cause adverse health effects in humans, so monitoring these analytes is important for ensuring that their concentrations are maintained below maximum permissible levels. Chemical sensors using polydimethylsiloxane (PDMS) to extract VOCs with partial selectivity, coupled with label-free optical detection methods based on refractive index, can overcome the limitations of conventional VOC detection methods. A variety of tunable and high refractive index PDMS materials were developed by incorporating a range of titanium and zirconium concentrations (2.5 – 30 mol % and 2.5 – 15 mol %, respectively) using a simple sol-gel synthesis and by incorporating a range of titanium concentrations (2.5 – 10 mol %) into naphthyl-functionalized PDMS. These materials ranged in refractive index from 1.4023 ± 0.0002 to 1.5663 ± 0.0001 at 635 nm and 1.3942 ± 0.0003 to 1.5510 ± 0.0007 at 1550 nm. The ability to use tunable refractive index PDMS films to differentiate between m-xylene and cyclohexane was demonstrated by monitoring changes in refractive index and thickness following absorption of these analytes using a refractometer at 1550 nm. The sensitivity of the refractive index response to an analyte using a particular PDMS film was dependent upon the difference between the refractive index of the analyte and film, as well as the film-air partition coefficient of the analyte. The detection limits for m-xylene and cyclohexane were 81 ppm and 4940 ppm, respectively, using PDMS-titanium-oxo nanocomposites with 5 and 10 mol % Ti, respectively. A simple planar waveguide sensor with an input grating coupler was developed to monitor changes in refractive index of the cladding through shifts in peak resonance wavelength. Using high refractive index PDMS materials as the waveguide core, we monitored changes in refractive index arising from absorption of VOCs into the grating. Here, the sensitivity of the waveguide response was dependent upon the difference in refractive index of the analyte and polymer, as well as the film-air partition coefficient of the analyte. The detection limits for m-xylene and cyclohexane were 1980 ppm and 18000 ppm, respectively. / Thesis (Master, Chemistry) -- Queen's University, 2013-08-24 11:45:57.642

Volatile Organic Compound Sensors

Tunable Refractive Index Polymers

Solid-Phase Microextraction

Polydimethysiloxane

Refractive Index

Femtosecond laser irradiation of Poly (methyl methacrylate) for refractive index modification and photochemical analysis

Taranu, Anca

January 2013

This thesis explores a new technique for investigating the photochemical mechanisms of femtosecond laser inscription of permanent photonic structures in Poly(methylmethacrylate) (PMMA). The refractive index (RI) structures were fabricated with a direct writing method without ablation, and analysed using a non-invasive method - namely: Raman mapping spectrometry. The writing conditions for the photonic structures under investigation are mainly represented by 800nm and 400nm wavelength with 44fs and 100fs pulse length and a low repetition rate in the kHz domain. The mass percentage of the induced monomer and end groups modification (MMA) as a measure of the modification of the ratio of C=C and C=O Raman transition varies linearly with the total fluence (total). The mass percentage of the induced monomer and end groups change is defined by the modification of normalised ratio of the Raman intensity of C=C bond (I(C=C)) and the Raman intensity of C=O bond (I(C=O)) which is denoted by I(C=C/C=O)n. The modification of this ratio is denoted by I (C=C/C=O)n and also by MMA. MMA varies linearly with total with a positive slope for both writing conditions due to the induced main chain scission and unzipping. If total increases by 1J/cm2, it is predicted an increase in MMA, by (1.550±0.11)x10-2 (cntsxcm2)/J, for the near infrared (NIR) irradiated samples that is higher than the increase of MMA for the ultraviolet (UV) irradiated sample that show a value of (1.9200.274)x10-3 ( (cntsxcm2)/J). The same trend was found for the variation of MMA with diffraction efficiency () for NIR irradiated structures and also for UV irradiated structures. If  increases by 1cnt, it is predicted that there will be an increase in MMA, by (4.233±0.383) cnts for NIR irradiated samples that is lower than the increase of MMA for the UV irradiated sample that shows a value of (14.3922.477) cnts. The variation of MMA with  is higher for UV irradiated samples than for NIR irradiated samples, and this indicates that the nonlinear absorption of two photons produces a larger percentage of the monomer and end groups than the nonlinear absorption of three photons. Gel Permeation Chromatography (GPC), which is a destructive analytical method, was applied only for the investigation of the time dependent behaviour of the molecular weight of the photonics structures which were written with the parallel writing technique using 775nm wavelength and 160fs pulse length that shows an increase of 66 in  after seven days from the laser irradiation. Twenty-four hours after laser irradiation, the GPC results show that the weighted average molecular weight (Mw) of the exposed sample of 28,610,000 Daltons is about thirty times higher than the MW of the unexposed sample of 963,425 Daltons. This is an indication of the photo-cross-linking reaction. As a result of this reaction, the polymer chains link together through intermolecular forces to form a 3D network which produces an increase of molecular weight. It was also observed that there was a further decrease of molecular weight after three days to 437,441 Daltons due to main chain scission and unzipping. The main chain scission is actually the breaking of C-C bonds between structural units and the formation of radicals which further produce the monomer and end groups (MMA) through the unzipping reaction which leads to a decrease of the molecular weight. The main chain scission occurred with the greatest efficiency after three days following the end of irradiation, when the number of the main chain scissions (Ns) reached the maximum value of 1.193. An increase of molecular weight signifies an increase of the refractive index since the optical density has increased. The mechanical properties of PMMA optical fibres (e.g., Young's modulus) and of bulk PMMA (e.g., glass transition temperature) were investigated using Dynamical Mechanical Analysis (DMA) tests (e.g., stress-strain test and temperature ramp/frequency sweep test). These measurements were performed to study the effect of the manufacturing process that involves stretching and heating or cooling on the mechanical properties of PMMA optical fibres and unmodified PMMA material. T he ultimate aim of this section was to see the effect of the laser irradiation on the strain properties of an optical fibre sensor with gratings. The stress strain results show an increase of Young's modulus of the PMMA optical fibre of 5%, and this is an indication of decreased elasticity which is induced during the fabrication process. For a femtosecond laser irradiated region with UV wavelength, it is expected that there will be an increase of Young's modulus to 65%. This variation was obtained inthe research group from The Photon Science Institute by measuring Young's modulus for a diffraction grating which was written in PMMA with 180fs pulse length and 387nm wavelength and which was subjected to a strain. The elasticity was measured using the displacement of the first order diffracted beams as a result of a modification due to the applied strain [ ]. The temperature ramp/frequency sweep test shows an increase of glass transition temperature of the bulk PMMA of 54.12% which is also an indication of decreased elasticity induced during the fabrication process. A further increase in this temperature is expected for UV irradiated samples.

660

Omnidirectional Photonic Band Gap Using Low Refractive Index Contrast Materials and its Application in Optical Waveguides

Vidal Faez, Angelo

07 1900

Researchers have argued for many years that one of the conditions for omnidirectional reflection in a one-dimensional photonic crystal is a strong refractive index contrast between the two constituent dielectric materials. Using numerical simulations and the theory of Anderson localization of light, in this work we demonstrate that an omnidirectional band gap can indeed be created utilizing low refractive index contrast materials when they are arranged in a disordered manner. Moreover, the size of the omnidirectional band gap becomes a controllable parameter, which now depends on the number of layers and not only on the refractive index contrast of the system, as it is widely accepted. This achievement constitutes a major breakthrough in the field since it allows for the development of cheaper and more efficient technologies. Of particular interest is the case of high index contrast one-dimensional photonic crystal fibers, where the propagation losses are mainly due to increased optical scattering from sidewall roughness at the interfaces of high index contrast materials. By using low index contrast materials these losses can be reduced dramatically, while maintaining the confinement capability of the waveguide. This is just one of many applications that could be proven useful for this discovery.

disordered photonic crystal

anderson fiber

low refractive index

disordered fiber

chirped photonic crystal

low refractive index

Birefringence imaging

Geday, Morten A.

January 2001

No description available.

530.41

Novel imaging technique for birefringent materials

Lewis, James G.

January 1998

No description available.

535