Speed of Light Measurement Utilizing Octagonal

... the optical path length, the focal length of the lens, and increasing the rotational frequency. The main obstacle in these measurements will be to have a beam intense enough to view. Because our optical path length, lensÕ focal length, and rotational frequencies were low intensity was not a problem. ...

Applied Optics - Purdue College of Engineering

... References: ...

n - Purdue Physics

... The Evanescent Wave Problem with total internal reflection: with only two waves it is impossible to satisfy the boundary conditions Consequence: • There must be transmitted wave even for total internal reflection • It cannot, in average, carry energy across the interface Solution: There is an evane ...

Lab 3: Wave Plates and Polarization of Light – Physical Science

... 1) In your lab report, plot your experimental data (as points with no line) and theoretical data (as solid line) of III.3 on the same graph. Plot both the experimental and theoretical data as P/Po (or V/Vo) on the y axis and  on the x axis. For Vo, use the highest voltage value for the 0 degree mea ...

Polarization of light II

... When an electromagnetic wave is incident upon the interface of two dielectric media then part of that wave is reflected and remaining part is transmitted as shown in Fig 1 (incorporate fig 1 of module 13, lecture 2). The magnitude of reflected and the transmitted wave for s and p polarization are go ...

9.Wave Properties

Student Checklist

... Optics Unit Timeline & Evaluations ALL mastery checks should be completed, demonstrating mastery (≥ 80%), by the dates indicated. If they are not completed by this time they must be completed after school. Check-Ins must also be completed by the dates indicated. ...

ELEG 640/440 Homework 3

... cladding index of 1.46. The core diameter is 30 μm. If lightwaves are coupled with their ray making an angle of 18.7 degrees with the z axis (direction of propagation) of the fiber, will they be accepted into a guided mode? ...

~ ) Pergamon

... optical angular encoder. The encoder output provides a synchronizing pulse for each complete rotation. These pulses trigger an analog-digital (A/D) converter which converts the analog signal from the photo-detector to digital form, which is in turn read by an on-line personal computer. The digital i ...

Suman-AE-AOTFIntro-2..

... wavelength of light that is diffracted is determined by the "phase matching" condition as described: ...

Invisibility Cup - Purdue Engineering

... of light. Any object you put inside will disappear as if dissolved in air, provided it is viewed through polarizing tinted glasses of precisely that colour. Instead of gold nanoparticles embedded in glass, Cai et al. used nanosized metal wires in their calculations, which play a similar role. They s ...

STATE UNIVERSITY OF NEW YORK COLLEGE OF TECHNOLOGY CANTON, NEW YORK

$Direct detection of acoustic waves by laser light diffraction and$

Direct detection of acoustic waves by laser light diffraction and

... technique todetect theacoustic \vaves, themicrophone has been developed and used over one hundred years, It, however, always uses a diaphragm or any vibrating object and has many restrictions on the practical applications, On the other hand, the light diffraction is very effective and has been used ...

The Laser Marketplace

Birla Institute of Technology and Science, Pilani and Elite School of Optometry

... Course Objective: The objectives of this course are to describe the wave nature of light and apply the wave theory to explain classic phenomena such as interference, diffraction and polarization. Working of some optical instruments and a brief description of scattering and laser will also be include ...

Material and design choices for a small movement +

... the precision optical platform needs to be able to be moved and then moved back to the same location within the range of motion throughout the life time of the system. Orientation Independence; many times it is unknown what orientation relative to the gravity field will be the final orientation of t ...

INTRODUCTION

... The choice of wavelength depends upon the loss profile of the medium. For optical fiber the wavelength has to be 1300nm or 1550nm for low loss. The spectral width has direct bearing on the data rate which the medium can support. Larger the spectral width, smaller is the data rate. A semiconductor la ...

$Determination of Absolute Values of Refractive Index of Liquids$

Determination of Absolute Values of Refractive Index of Liquids

... ∂n/∂T ≈ 10−4 K−1 a measured index with 6 significant digits is only meaningful if the temperature is declared with precision of the order of δT ≈ 0.01 K. The temperature was measured with a F3141 platinum resister using a four wire configuration with the multimeter HP34401Av 10 . The thermometer had ...

FA15Lec17 Optical Traps.Two

... Physics: use lasers and optical traps to control individual molecular motors. Biology: can study how forces operate on these motors. ...

Document

... the reflectivity as far as possible. One very effective way of reducing the reflectivity of a glass surface is to coat it with an antireflection (AR) coating (giving an ARC). A good ARC can cut the percentage of light reflected from >5% to <0.2%. One example is the purple colored ARC on binocular an ...

Beam Splitters A beam splitter is a device that`s used to divide an

... light aluminum is better, and gold may be preferred at longer wavelengths. ...

PhysicsTutor

... • An extremely thin film of soapy water (n=1.35) sits on top of a flat glass plate with n=1.50. The soap film has an orange-red colour when ...

Production of Linearly Polarized Brewster`s Law

4.8 Acceptance Angle and Numerical Aperture

... The fibre output is a cone of light that spreads out wider as the distance from the fibre exit increases. The grid slide or screen and ruler can be used to measure diameters. The edges of the cone of light may appear fuzzy so there will be an error introduced into your measurements. Measurement of t ...

PH 481 - Physics | Oregon State University

... ensure that the rotation axis lies on the reflecting surface, which is important so that the laser beam remains on the glass surface as the sample is rotated. The rotatable mount described below will permit you to rotate the glass plate and measure angles. A schematic for the general layout to be us ...

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Ellipsometry

Ellipsometry is an optical technique for investigating the dielectric properties (complex refractive index or dielectric function) of thin films. Ellipsometry can be used to characterize composition, roughness, thickness (depth), crystalline nature, doping concentration, electrical conductivity and other material properties. It is very sensitive to the change in the optical response of incident radiation that interacts with the material being investigated.Typically, the measured signal is the change in polarization as the incident radiation (in a known state) interacts with the material structure of interest (reflected, absorbed, scattered, or transmitted). The polarization change is quantified by the amplitude ratio, Ψ, and the phase difference, Δ (defined below). Because the signal depends on the thickness as well as the materials properties, ellipsometry can be a universal tool for contact free determination of thickness and optical constants of films of all kinds.This technique has found applications in many different fields, from semiconductor physics to microelectronics and biology, from basic research to industrial applications. Ellipsometry is a very sensitive measurement technique and provides unequaled capabilities for thin film metrology. As an optical technique, spectroscopic ellipsometry is non-destructive and contactless. Because the incident radiation can be focused, small sample sizes can be imaged and desired characteristics can be mapped over a larger area (m^2).The one weakness of ellipsometry is the need to model the data. Entire courses are taught in the modeling of the raw data. Models can be physically based on energy transitions or simply free parameters used to fit the data.Upon the analysis of the change of polarization of light, ellipsometry can yield information about layers that are thinner than the wavelength of the probing light itself, even down to a single atomic layer. Ellipsometry can probe the complex refractive index or dielectric function tensor, which gives access to fundamental physical parameters like those listed above. It is commonly used to characterize film thickness for single layers or complex multilayer stacks ranging from a few angstroms or tenths of a nanometer to several micrometers with an excellent accuracy.The name ""ellipsometry"" stems from the fact that Elliptical polarization of light is used. The term ""spectroscopic"" relates to the fact that the information gained is a function of the light's wavelength or energy (spectra). The technique has been known at least since 1888 by the work of Paul Drude, (the term ""ellipsometry"" being first used probably in 1945 ) and has many applications today. A spectroscopic ellipsometer can be found in most thin film analytical labs. Ellipsometry is also becoming more interesting to researchers in other disciplines such as biology and medicine. These areas pose new challenges to the technique, such as measurements on unstable liquid surfaces and microscopic imaging.

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Ellipsometry