plane-polarized
plane-polarized

... A phase difference of 90° means that when one wave is at its peak then the other one is just crossing the zero line. Special electromagnetic wave. At any fixed point in space that is in the line of the propagation of this wave, the electric field vector rotates in a circle while its length remains c ...
Design of a video interface controller for color sequential liquid
Design of a video interface controller for color sequential liquid

Document
Document

Design technique for all-dielectric non
Design technique for all-dielectric non

... plate has a certain degree of polarization depending on the refractive index of the glass plate and the angle of incidence of radiation [1,2]. In this proposed application, the light is incident from air to a BK7 optical glass plate (nd »1.52), un− der an incidence angle of q0 = 45°. Under such cond ...
Document
Document

... that will allow multiple users to work and interact. Perceptive Pixel’s technology is currently being utilized, in the form of the Multi-Touch Collaboration Wall. ...
Photonic bandgap
Photonic bandgap

... Tubes are packed in a hexagonal shape with hollow, solid, birefringent, doped or tubular core elements. ...
Full Text PDF
Full Text PDF

LN 7
LN 7

... the light is re ected at the boundary between the two media when the incoming angle is larger than a critical angle c : sin c = n2=n1,(n1 > n2).  Re ected and refracted light is partially polarized. For a certain angle the re ected light is completely polarized (Brewster angle): tan B = n2=n1. ...
The Refraction of Light
The Refraction of Light

Negative refraction and Negative refractive index
Negative refraction and Negative refractive index

... is refracted by a metamaterial with a negative index of refraction would propagate in the direction of the negative refractive angle to satisfy Snell’s law (3). Some materials with a positive real refractive index can also bend light toward the incident direction as a phenomenon of negative refracti ...
Wang Lecture - math550mathsciencetechnology
Wang Lecture - math550mathsciencetechnology

... 2. Polarization of Light 2.1 Definition of the polarization direction of light The polarization direction of light is defined as in the direction of its electric field. 1) Since Fe = qE, the polarization determines the force direction. Most light phenomena are governed by the fact that the electron ...
chapter 7 calcite - Microlab Gallery
chapter 7 calcite - Microlab Gallery

PDF Format
PDF Format

PHYS 1111 Mechanics, Waves, & Thermodynamics
PHYS 1111 Mechanics, Waves, & Thermodynamics

... Dispersion and Prisms For a given material (and nearly all materials), the index of fraction is a function of the wavelength of the incident light, n=n() This implies that the speed of light inside the medium depends on  The dependence of wave speed v and n on  is called dispersion Since n=n(), ...
Physics 123 “Majors” Section Unit 1
Physics 123 “Majors” Section Unit 1

... Location: room C258 ESC Exam 3 starts Saturday, goes through next Saturday. Exam not written yet… on Friday I’ll be able to give you some details. If you used the Tutorial Lab, please rate the TAs: http://gardner.byu.edu/tas/tutorrating.html (rating form has photos) ...
Science Olympiad 2011 Practice Optics C
Science Olympiad 2011 Practice Optics C

Reflection - E. R. Greenman
Reflection - E. R. Greenman

... Law of Reflection ...
Laser beam shaping in industrial applications Wei-Yuen Tan 84717925
Laser beam shaping in industrial applications Wei-Yuen Tan 84717925

... • Lasers: light is directional, monochromatic and coherent in phase. ...
Chiroptical Spectroscopy - Ruhr
Chiroptical Spectroscopy - Ruhr

... grid lines induce oscillation of electrons in metal wires:  reflection of the wave  Waves hitting the polarizer with their electric field vector perpendicular to the grid lines show weak to no interaction with the grid  transmission of the wave ...
1 Introduction to Electromagnetic Waves 2 Speed of an
1 Introduction to Electromagnetic Waves 2 Speed of an

... plane of incidence: the plane containing the incident and reflected rays and the normal to the surface. ~ is perpendicular to the plane of incidence (and parallel to the reflecting polarizing angle: the angle for which E surface), thus the reflected light is linearly polarized perpendicular to the p ...
Chapter 23 notes
Chapter 23 notes

... plane of incidence: the plane containing the incident and reflected rays and the normal to the surface. ~ is perpendicular to the plane of incidence (and parallel to the reflecting polarizing angle: the angle for which E surface), thus the reflected light is linearly polarized perpendicular to the p ...
Light-matter interaction Hydrogen atom Ground state – spherical
Light-matter interaction Hydrogen atom Ground state – spherical

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

... The wave plates operate on the principle that two orthogonally oriented polarization states experience two different indices of refraction. Consequently, one polarization of light travels faster in the wave plate compared to the other. The birefringent material of the wave plate are asymmetric in th ...
The pinhole camera
The pinhole camera

... Rays generated from axial point at infinity (i.e., forming a ray bundle parallel to the optical axis) and entering an optical system intersect the optical axis at the Focal Points. The intersection of the extended entering parallel rays and the extended exiting convergent rays forms the Principal Su ...
Lecture 24
Lecture 24

... (a) Wavevector surface cuts in the xz plane for o- and e-waves. (b) An extraordinary wave in an anisotropic crystal with a ke at an angle to the optic axis. The electric field is not normal to ke. The energy flow (group velocity) is along Se which is different than ke. ...

Birefringence



Birefringence is the optical property of a material having a refractive index that depends on the polarization and propagation direction of light. These optically anisotropic materials are said to be birefringent (or birefractive). The birefringence is often quantified as the maximum difference between refractive indices exhibited by the material. Crystals with asymmetric crystal structures are often birefringent, as are plastics under mechanical stress.Birefringence is responsible for the phenomenon of double refraction whereby a ray of light, when incident upon a birefringent material, is split by polarization into two rays taking slightly different paths. This effect was first described by the Danish scientist Rasmus Bartholin in 1669, who observed it in calcite, a crystal having one of the strongest birefringences. However it was not until the 19th century that Augustin-Jean Fresnel described the phenomenon in terms of polarization, understanding light as a wave with field components in transverse polarizations (perpendicular to the direction of the wave vector).