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Changing Face of Letterpress:
Alan Kitching and Celia Stothard are partners in life, letters and The Typography Workshop Print Room and Studio in Kennington south London. In this talk they show and share work, motivations and inspirations
Alan Kitching & Celia Stothard
This channel provides information about SCC's hydraulic and pneumatic automation technology program.
Hydraulic and Pneumatic Automation Technology Program - Spokane Community College
a 12 lesson series by Rabbi Horowitz for beginners in Jewish insights, released once a month and recorded in The Jerusalem Academy of Jewish Studies
by FabTV
Fundamentals of Judaism
Established in 1816, The Fitzwilliam Museum is the principal art museum of the University of Cambridge. These podcasts offer the chance to learn more about the Museum's treasures, which range from Ancient Egyptian, Greek and Roman antiquities to the arts of the 21st century, with exclusive introductions to exhibitions, interviews with expert curators and previews of Museum events. (This the standard video version of our podcast, suitable for iPods. Elsewhere, an audio-only podcast in mp3 format is available. Please check our website or the iTunes store for alternative versions.)
The Fitzwilliam Museum Podcast
On these video pages, the emphasis is on dynamic visual possibilities in active language systems --possibilities that arise from interactions and associations between sights, sounds, and textures, on multiple scales in multiple locations. These visual experiments in poetry are Video POAMS (products of acts of making) that explore what happens when the visual is allowed to extend beyond visible text, and when the page is not required to be paper (though it may still exist that way). The Limited Fork Video Anthology features examples of some of the forms of poetry that Limited Fork Poetics enables and encourages. Look for video poams from student and other practitioners (forkers) of Limited Fork Poetics in this frequently updated podcast. Visit the Limited Fork podcast to learn more about Limited Fork Poetics and to see video poams by the mother of Limited Fork Poetics. And for the the sounds of Limited Fork, visit the Limited Fork Music podcast. Many of the soundtracks from the Video Poams are available at the Limited Fork Music podcast.
Limited Fork Video Anthology
Changing Face of Letterpress:
Professor Phil Baines and Dr Catherine Dixon are freelance designers, writers and both teach typography on the BA (Hons) Graphic Design at Central Saint Martins College of Art and Design.
Phil Baines & Catherine Dixon
Short animation films and documentaries created by Art+Design students at North Carolina State University College of Design.
Art+Design Animation Podcast
1D waveguides
Higher Education
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We look at both the ray picture and field picture of modes in a 1D waveguide.
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Physics 208
We derive the wave equation in isotropic materials from Maxwell's laws and we introduce phasor notation as a method for simplifying calculations.
Waves in Isotropic Materials
01:11:00
We derive the wave equation in isotropic materials from Maxwell's laws and we introduce phasor notation as a method for simplifying calculations.
Waves in Isotropic Materials
01:11:00
We look at the third order nonlinear effect and uses for Kerr lenses.
4 wave mixing
01:18:41
We use coupled mode analysis to investigate the field amplitudes in three wave mixing, and look at the effect of phase mismatch on the conversion efficiency of nonlinear processes.
Nonlinear Wave Equation
01:13:44
We look at the phase matching condition for Second Harmonic Generation and also do a tuning curve example for an OPO
Phase Matching of SHG
01:09:35
We introduce non-linear optics and discuss various forms of 3 wave mixing including frequency converters, optical parametric amplifiers (OPAs), optical parametric oscillators (OPOs) and second harmonic generation (SHG)
Nonlinear optics 1
01:13:05
We generalize the expressions for 1D waveguide to 2 dimensions and focus on the calculation of power coupled into a waveguide from a Gaussian beam.
2D Waveguides
01:14:30
We look at both the ray picture and field picture of modes in a 1D waveguide.
1D waveguides
01:12:46
We look at the unusual properties of 2d and 3d photonic crystals
Photonic Crystals
01:12:05
We look at Bloch Wave solutions to propagation in a periodic material using Fourier analysis of the material permittivity.
Propagation in periodic media
01:05:59
We introduce the electrooptic tensor and do examples using the linear electrooptic effect.
Electrooptics
01:03:05
We look at figures of merit for acoustooptic materials and limitation on modulation bandwidth in acoustooptic modulators.
Acoustooptic devices
00:53:53
We look at the Bragg condition in anisotropic materials and solve for the diffracted beam amplitude using coupled mode theory.
Acoustooptics
01:08:50
We introduce Jones calculus to keep track of polarization direction and use it to describe a number of examples including polarization rotation in a twisted nematic liquid crystal.
Jones Calculus and Liquid Crystals
01:15:57
We look at how aspects of this class relate to the Laser Interferometer Gravitational Wave Observatory (LIGO) and investigate the design of the LIGO Faraday Isolators
Faraday Rotators in LIGO
00:59:18
We provide a physical description for the origin of optical activity and faraday rotation in a material and useeigenmodes as well as coupled mode analysis to solve for the behavior of fields propagating through an optically active material.
Optical Activity
01:17:14
We introduce the index ellipsoid and show how it can be used to find the indices of refraction for light propagating in a crystal in an arbitrary direction.
Index Ellipsoid
01:18:52
We look at solutions to the wave equation in anisotropic materials and the "normal shells" that describe of those solutions.
Propagation in Anisotropic Materials
01:16:32
We consider Maxwell's equations in matter and use them to find the boundary conditions at an interface, and the wave equation in anisotropic materials.
Maxwell's Equations in Matter
01:16:59
We derive the wave equation in isotropic materials from Maxwell's laws and we introduce phasor notation as a method for simplifying calculations.
Waves in Isotropic Materials
01:11:00
We look at how the various pieces of optics we have studied throughout the course are integrated in to devices.
Photonic Circuits
01:05:56
Physics 208
4/7/2009
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