a flat high-frequency scanning micromirror - EECS: www

... This torsional electrostatic combdrive offers several advantages over other electrostatic-actuator designs. First, the actuator applies torque to the mirror directly – there are no hinges to couple linear motion of an actuator into torsional mirror motion. This greatly simplifies the design of the s ...

11. Electro

...  If we confine the photons in a tube or crystal rod with a mirror at one end and a half –silvered mirror at the other end, photons with a very specific wavelength and phase will reflect off the mirrors and travel back and forth through the crystal  In the process, they stimulate other electrons to ...

Plane mirrors

... 1. There are 3 types of mirrors: Plane, concave, and convex. A. Plane Mirrors: 1. Plane mirrors- flat sheet of glass that has a smooth, silvercolored coating on one side. When light strikes a mirror, the coating reflects the light forming an image. 2. Image- a copy of an object formed by reflected o ...

Precision High Numerical Aperture Scanning System for

... stages with ±9 mm travel. In this mode, a sample is attached to the stages and is moved through the focal region, which is stationary. This method of scanning is not ideal because it requires the sample to move, which becomes impractical when writing structures in clinical applications. It was also ...

Quantum Imaging using Non-linear Optics 1 Introduction and Motivation December 15, 2011

... single-photon-sensitive integrating sphere that comprises the wall of the chamber concealing the hidden object (bust of Plato). D is a (local) 2-D singlephoton-sensitive scanning or array detector. h1 and h2 represent the optical systems that deliver the entangled photons from S to C and D, respecti ...

ME 615 Engineering Optics and Optical Techniques

... atoms/molecules at high altitude absorb most of UV coming from the outer space including the sun. This will make the survival of living cells on the earth ever possible. … What a God’s trick! The atom or molecules are called submicroscopic scatterers. No scattering exists in free space, because of ...

Novel 3-D microscopy techniques - Purdue University Cytometry

... confocal and multiphoton microscopy. Optical sections through a glomerulus from an acid-fucsinstained monkey kidney pathology sample imaged by confocal microscopy with 2 µW of 532-nm light (left, columns 1 and 2) and multiphoton microscopy with 4.3 mW of 1047-nm light (descanned; right, columns 3 an ...

All Facts for Choosing LED Optics Correctly

... One may simplified say that the easier and the more controlled the requested light distribution is, the better is the performance. Spoken in practical terms, often a pure collimator lens has the best overall performance, for the best ones highly over 90%. Making optical versions of the same collimat ...

Program - swisseyeweek.ch

... titles will start October 1st 2014 and end on December 30 th, 2014. ...

Spectral Brightness of Synchrotron Radiation

... ◦ Send light through a retarder that adds a phase difference of φ between the x and y components of the electric field ◦ Send the light from the retarder through a polarizer that only allows the electric field components at an angle of θ to be ...

Analysis of the detective quantum efficiency of

... The resulting combined MTF, T,,(f), is given by the magnitude of the Fourier transform of L,(x). It should be noted that the effect of fl,,““’as well as the fact that the transmittancesdecreaseas a function of ‘angle,actually reducesthe LSF width, and therefore improves the MTF at the ...

PASSIVE MILLIMETER-WAVE IMAGING WITH EXTENDED DEPTH OF FIELD AND SPARSE DATA

... interest is, in part, driven by the ability to penetrate poor weather and other obscurants such as clothes and polymers. Millimeter waves are high-frequency electromagnetic waves usually defined to be in the 30 to 300 GHz range with corresponding wavelengths between 10 to 1mm. Radiation at these the ...

Confocal Microscopy

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Introduction to Multiplexing in Fiber Optics

... Document Number 213 Halifax Operation ...

Inverse Design of Optical Antennas for Sub-Wavelength Energy Delivery

... Assisted Magnetic Recording (HAMR). This data-recording scheme relies on focusing optical energy to locally heat the area of a single datum, several hundred square nanometers on the hard disk. In order to write data with a scan rate of up to 10 m/s, the optical system must heat the media by 200 K wi ...

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

... * Turn to page 238 and 239 and read “Looking at Wavelength”. The Wave Model of Light The WAVE MODEL OF LIGHT pictures light travelling as a wave. It doesn't explain everything about how light behaves but it helps us visualize certain things about it. Thinking about light travelling in waves, helps t ...

Research Express@NCKU Form (English example) Item Content

... To understand the polarization-dependent optical enhancements of metal nanoparticle pairs in more detail, we held the fiber probe at the central position between two nanoparticles and recorded the near-field optical signal once every 15 degrees of polarization rotation angle (θ). R is the radius of ...

Chapter 6: Conclusions and Proposal for Future Research

... optimum value of m. Moreover use of the preamplifier receiver in a spectrum-sliced system shows the potential of transmitting ~ 23 Gb/s at an error probability of 10-12 , assuming conservative values for power and bandwidth. 2. Operation at the optimum optical bandwidth results in the strong depende ...

I. Introduction - ER Publications

... higher performance to the communication system.FSO links improve data rate transmission and overall SNR of the system for deep-space communication applications. The most important parameter for an optical system is low weight and coast of system are improving fast. For a system by improving signal q ...

Highly parallel CMOS lock-in optical sensor array for hyperspectral

... The sensor offers flexibility in its operation to suit a range of experiments. In addition to the modulated detection described in this paper, it may be used in any application that requires a high degree of temporal resolution. When being used as a modulated light camera, the operation depends on t ...

n - LSU Physics

... distances (like the thickness of a soap bubble), since we are able to resolve distances of the order of the wavelength of the light (for instance, for yellow light, we are talking about 0.5 of a millionth of a meter, 500nm). This has therefore technological applications. In the Michelson interferome ...

what is light? - Fort Thomas Independent Schools

... Optical fibers, sometimes called light pipes, are transparent fibers that pipe light from one place to another. They do this by a series of total internal reflections. Optical fibers are useful for getting light to inaccessible places. Mechanics and machinists use them to look at the interiors of en ...

Michelson interferometer

... Figure 8.1: Principles of the Michelson interferometer (plane view). only at discrete, well defined wavelengths. A filter F is employed to suppress light of wavelengths other than the green line of the mercury spectrum. Further requirements on the source that will not be discussed in detail here, is ...

Absolute phase and amplitude mapping of surface acoustic wave

... towards the optical fiber collimator, acting as the reference arm of the interferometer. The second beam (corresponding to the horizontal polarization) is directed trough the Acoustic Optical Modulator (AOM). The angle between the incident beam and the AOM is set in order to obtain the first diffrac ...

Full Paper

... Humans perceive color through wavelength-sensitive sensory cells called cones. There are three different types of cones, each with a different sensitivity to electromagnetic radiation (light) of different wavelength. One type of cone is mainly sensitive to red light, one to green light, and one to b ...

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Optical coherence tomography

Optical coherence tomography (OCT) is an established medical imaging technique that uses light to capture micrometer-resolution, three-dimensional images from within optical scattering media (e.g., biological tissue). Optical coherence tomography is based on low-coherence interferometry, typically employing near-infrared light. The use of relatively long wavelength light allows it to penetrate into the scattering medium. Confocal microscopy, another optical technique, typically penetrates less deeply into the sample but with higher resolution.Depending on the properties of the light source (superluminescent diodes, ultrashort pulsed lasers, and supercontinuum lasers have been employed), optical coherence tomography has achieved sub- micrometer resolution (with very wide-spectrum sources emitting over a ~100 nm wavelength range).Optical coherence tomography is one of a class of optical tomographic techniques. A relatively recent implementation of optical coherence tomography, frequency-domain optical coherence tomography, provides advantages in signal-to-noise ratio, permitting faster signal acquisition. Commercially available optical coherence tomography systems are employed in diverse applications, including art conservation and diagnostic medicine, notably in ophthalmology and optometry where it can be used to obtain detailed images from within the retina. Recently it has also begun to be used in interventional cardiology to help diagnose coronary artery disease. It has also shown promise in dermatology to improve the diagnostic process.

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Optical coherence tomography