Untitled - X-Ray and Neutron Science

... a component can be done. The third chapter introduces in finer details the generation of synchrotron radiation, whose precise modelling is explained via the wavefronts propagation package SRW. Chapter four shows the simulation of the small-angle scattering instrument: the X-ray beam’s propagation wa ...

Fluorescence

Main_Article_revised_version

... 20 µs / 20 ms after 355 nm laser excitation (6 ns pulse width, 1 Hz, 250 μJ.cm-2.pulse-1). Dotted arrows indicate which y axis to refer to. To identify the regions where photo-generated electrons and holes were present in TAS spectra, chemical scavengers were employed. For holes, the well known elec ...

Quasi Light Fields: Extending the Light Field to Coherent Radiation

... field and later generate images focused at different depths, after the picture is taken [2]. In electronic displays, an array of projectors can present multiple viewpoints encoded in the light field, enabling 3D television [3]. Many recent incoherent imaging innovations have been made possible by ex ...

VCE Physics 2013–2016 Written examination Examination specifi cations Overall conditions

Noise analysis of spectrometers based on speckle pattern

... typically used to record the spatial pattern produced by each wavelength of interest. These patterns are used as a sort of “fingerprint” to uniquely identify an input wavelength and are stored in a transmission matrix. After calibration, recording the spatial pattern generated by an arbitrary probe ...

Pluggable Optical Interfaces and Their Compatibility with Xilinx FPGAs

... Single-mode fiber consists of a single strand of fiber that the data is transmitted across. Multi-mode fiber is composed of multiple strands of fiber bundled together, where light can pass across each strand. In either case, an effect known as dispersion can impact the fidelity of the transmit signa ...

T R ECHNICAL ESEARCH

... measure wave-front phase with resolution and speed that are currently only available in intensity imagers.1,2 The key requirement of the optical part of the system is to provide an image with sufficient contrast that can be further transformed by electronic processing, using highly parallel algorith ...

Microscopy - PSSurvival.com

... imaged without the need for scanning. High intensities are required to induce non-linear optical processes such as two-photon fluorescence or second harmonic generation. In scanning multiphoton microscopes the high intensities are achieved by tightly focusing the light, and the image is obtained by ...

ORB: An On-chip Optical Ring Bus Communication Architecture for Multi-Processor Systems-on-Chip

... total number of stages N is given as N = log ...

Photoelectron Spectroscopy of SO3 at 355 and 266 nm

Technologies - E

... In many cases it’s necessary to affect a field’s polarization • Line up with the main axis in a semiconductor, etc. We can build such device, based on a bi-refringent material on a fiber loop • In a fiber loop, the suffered tensions and compressions by the fiber bending, are in many cases enough to ...

optical properties of skin, subcutaneous, and muscle tissues

... 2. Basic Principles of Measurements of Tissue Optical Properties Methods for determining the optical parameters of tissues can be divided into two large groups, direct and indirect methods.112 Direct methods include those based on some fundamental concepts and rules such as the BouguerBeerLambert ...

$1 Non-Diffracting Waves: An Introduction1 - Wiley-VCH$

1 Non-Diffracting Waves: An Introduction1 - Wiley-VCH

Laser cooling in thulium-doped solids

Silicon optical modulators - Optoelectronics Research Centre

Mechanisms of Pulsed Laser Ablation of

DesignCon 2013 Advances in Onboard Optical Interconnects: A New Generation of Miniature Optical

... Single-mode fibers have tiny cores, generally less than 10 μm in diameter. This dimension is so small that only one “optical mode” will transmit through the fiber, which means that the light can only take one single path following the center of the fiber to reach its destination. For this reason, th ...

Axial intensity of apertured Bessel beams

... have attracted the attention of many scientists, who have proposed a great number of applications.8–12 Since finite-aperture optical elements are always present in any practical realization,13–18 a more realistic model for a Bessel beam has to include the presence, at a certain plane (z 5 0), of a w ...

Basic Principles and Applications of Holography

Creating Strontium Rydberg Atoms

Aperture interference and the volumetric resolution of light field

Optical Comms 2004 (Summer)

... the most common impurities is dissolved water in the glass, present as the hydroxyl or OH ion. In this case the fundamental processes takes place between 2700 nm and 4200 nm, but gives rise to so called absorption overtones at 1380, 950 and 720 nm. Extrinsic absorption depends only on the absorption ...

Measuring and Modelling Light Scattering in Paper

... the reflected light. The angular distribution is for most materials determined almost exclusively by the surface characteristics of the object. Paper however, can be classified as a turbid medium, where the angular distribution of the reflected light is governed to a large extent by the light scatte ...

Nonlinear polarization effects in optical fibers: polarization attraction

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Ultrafast laser spectroscopy

Ultrafast laser spectroscopy is a spectroscopic technique that uses ultrashort pulse lasers for the study of dynamics on extremely short time scales (attoseconds to nanoseconds). Different methods are used to examine dynamics of charge carriers, atoms and molecules. Many different procedures have been developed spanning different time scales and photon energy ranges; some common methods are listed below.

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Ultrafast laser spectroscopy