PowerPoint (PPT) One: The theories of light in historical perspective

... get help? In google, type in: “total internal reflection” + “underwater observer looking up”, first with quotation marks, then without them, and you should get links to Web documents in which the problem is discussed. PPT Four – it’s “self-explanatory”, I believe. Ray focusing by a concave mirror: T ...

L2 REFLECTION AND REFRACTION

... one of the expanding circles corresponding to a particular wave crest or trough. For sound waves the wavefront would be a surface containing all adjacent points where the wave pressure is in step. For light the wavefronts are surfaces connecting adjacent points where the oscillating electric fields ...

Observation of coupling between surface plasmons in index

... corresponds to the normal situation, where the resonant channel is out of phase with the direct channel. This choice does not affect the values of the other fit parameters significantly. The crosses in Fig. 3共a兲 refer to the frequencies of the transmission maxima determined directly from the experim ...

Wollaston and Nomarski Prisms

... prisms are composed of two precisely ground and polished wedge-shaped slabs produced from high-grade optical quartz, a uniaxial birefringent crystal. Two quartz wedges having perpendicular orientations of the optical axis must be fabricated to produce a single Wollaston (or Nomarski) prism. The wedg ...

Interferometric back focal plane microellipsometry

... Precision topography-profiling optical interferometers are typically capable of subnanometer surface height resolution.1 Such interferometers cannot distinguish phase shifts that are due to sample topography from phase shifts that are due to local variations in the refractive index.2– 4 Phase change ...

Molecular beam epitaxy of periodic BaF2 /PbEuSe layers on Si„111…

... GaAs/AlGaAs heterostructures, a large number of layers of exactly the same optical thickness are required to achieve high reflectivity. For fabrication of Bragg reflectors with center wavelengths in the range of 1.3–5.0 mm, it is desirable to grow heterostructures with high refractive index ratio. O ...

Science Focus 8 Light and Optical Systems Topic 7 Topic 7 – The

... Sunsets can be explained using the wave model of light. As light waves from the sun travel through Earth's atmosphere, they strike particles of different sizes, including dust and other elements. The longer wavelengths of the reds and oranges tend to pass around these particles, whereas, the shorter ...

Speed of Light Measurement Utilizing Octagonal

... speed of light. One should be able to obtain very precise results from simply lengthening 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 le ...

IO.5 Elliptically Polarized Light - FSU

... the axis of the quarter-wave plate). Suppose the semi-axes of the unknown ellipse are OB and OC. If the quarter-wave plate is rotated through an angle α so that its axis lies along one of the axes of the ellipse, it will add or subtract a phase difference of π/2 to the existing phase difference of π ...

Optical Properties of Condensed Matters

... Semiclassical: apply quantum mechanics to atoms, treat light as a classical electromagnetic wave; Fully quantum: both atoms and light are treated quantum mechanically. ...

Electricity & Optics Physics 24100 Lecture 22 – Chapter 31 sec. 1-4,6

Physics 316 B2 1 Revised 3/7/08 Experiment B2: Monochromatic

$Refraction$

Refraction

... 1. Place a block of Perspex on a piece of paper and draw around the block. 2. Shine a ray of light at the Perspex block and mark it on the paper. 3. Mark on the path of the light ray through the glass block. 4. Mark on the path of the light ray as it leaves the block. 5. What do you observe? ...

Acousto-Optic Modulators

... Definitions of L and H based on the transducer and the AO modulator geometry used ...

Neutron reflection: Principles and examples of applications

... in-plane polarised beam but can cause spin flip; i.e., a completely polarised beam will have a certain fraction polarised in the opposite direction after reflection. This can only be measured by the use of a second flipper and polariser or analyser. Figure 3 shows the four combinations of the initia ...

Presentation for chapter 6

... In pure aquatic media Density fluctuations lead to Rayleigh-like scattering. ...

没有幻灯片标题

... If the intensity of incident polarized light is I0, and the polarizing axis makes an angle  with the displacement of the incident light, the intensity of the light transmitted through the polarizer is: I=I0 cos 2 ...

Fiber Optics - University of Calgary

Optical Properties of Silica-Copper Oxide Thin Films Prepared by Spin Coating

... Over the last few years, different metal oxides have become interesting for solar absorption applications due to their suitable optical properties [1]. One promising material is copper oxide, CuO [2]. However, a good solar selective absorber has to be able to operate at high temperatures, up to at l ...

Electromagnetic Black Hole Made of Metamaterials

... Lossless circular shell—I-shaped metamaterials (40 layers) ...

INTRODUCTION

Modal and Material Dispersion

... In general, a linearly polarized mode is a combination of both of the degenerate modes. As the modal wave travels along the fiber, the difference in the refractive indices would change the phase difference between these two components & thereby the state of the polarization of the mode. However afte ...

Hybrid Dielectric/Surface Plasmon Polariton Waveguide P. David Flammer

Module 27: Polarization-II Lecture 27: Polarization-II

... no when E is perpendicular to the x axis. Here the x axis is referred to as the optic axis. The optical properties are the same in all directions perpendicular ~ is along the optic axis. Crystals may to the optic axis and it is different if E have more than one optic axis. Here we only consider a si ...

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Anti-reflective coating

An antireflective or anti-reflection (AR) coating is a type of optical coating applied to the surface of lenses and other optical elements to reduce reflection. In typical imaging systems, this improves the efficiency since less light is lost. In complex systems such as a telescope, the reduction in reflections also improves the contrast of the image by elimination of stray light. This is especially important in planetary astronomy. In other applications, the primary benefit is the elimination of the reflection itself, such as a coating on eyeglass lenses that makes the eyes of the wearer more visible to others, or a coating to reduce the glint from a covert viewer's binoculars or telescopic sight.Many coatings consist of transparent thin film structures with alternating layers of contrasting refractive index. Layer thicknesses are chosen to produce destructive interference in the beams reflected from the interfaces, and constructive interference in the corresponding transmitted beams. This makes the structure's performance change with wavelength and incident angle, so that color effects often appear at oblique angles. A wavelength range must be specified when designing or ordering such coatings, but good performance can often be achieved for a relatively wide range of frequencies: usually a choice of IR, visible, or UV is offered.

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Anti-reflective coating