4 edition of Laser optics for intracavity and extracavity applications found in the catalog.
|Statement||Philippe M. Fauchet, Karl H. Guenther, chairs/editors ; sponsored by SPIE--the International Society for Optical Engineering ; cooperating organizations, American Academy of Otolaryngology--Head and Neck Surgery ... [et al.].|
|Series||Proceedings of SPIE--the International Society for Optical Engineering ;, v. 895|
|Contributions||Fauchet, Philippe Max., Guenther, Karl H., Society of Photo-optical Instrumentation Engineers.|
|LC Classifications||TA1505 .L34 1988|
|The Physical Object|
|Pagination||viii, 289 p. :|
|Number of Pages||289|
|LC Control Number||88060249|
Whether for use within or outside the laser cavity, PulseLine laser optics are designed to meet strict. specifications for group delay (GD) and group delay dispersion (GDD) from the ultraviolet (UV) to the near-infrared (NIR), and are designed for . In this paper, we demonstrated a continuous-wave intracavity singly resonant optical parametric oscillator based on periodically poled MgO:LiNbO3 (MgO:PPLN) pumped by a diode-pumped Nd:YVO4 laser at nm. The singly resonant optical parametric oscillator only outputs the idler light as its cavity high reflectivity was coated at the signal by: 1.
The simplest scheme for frequency doubling is extracavity doubling. The laser passes through the nonlinear crystal only once. However, if the power density of laser is low, focused beam, intracavity doubling and external resonant cavity are normally used to . BOHEMIA, N.Y., Oct. 23, -- Innovative products and customer-focused support have been two critical factors in the success of Photonics Industries International Inc., a Bohemia, N.Y. (Long Island)-based maker of intracavity solid-state harmonic lasers for a wide variety of industrial and scientific applications. Since its first high-power green harmonic laser was introduced in
Abstract. Since second-harmonic generation (SHG) was regarded as the basis of the frequency conversion, the SHG laser has been viewed as the most typical application of the frequency conversion techniques, e.g., acousto-optic Q-switch intracavity SHG YAG (or YLF) and cw active mode locked intracavity SHG YAG (or YLF) : Jianquan Yao, Yuye Wang. Introduction to Laser Technology, Third Edition is intended for those who are familiar with the principles of electro-optical technology, but possess limited formal training. This comprehensive treatment is essential, one-stop shopping for professionals, students, and non-engineer executives interested in the design, sales, or applications of /5(2).
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Get this from a library. Laser optics for intracavity and extracavity applications: JanuaryLos Angeles, California. [Philippe Max Fauchet; Karl H Guenther; Society of Photo-optical Instrumentation Engineers.; American Academy of Otolaryngology.
Various papers on laser optics for intracavity and extracavity applications are presented. The general topics addressed include: design and requirements for high-power lasers, active elements, damage in optical components, FELs, and thin films.
Intracavity and Extracavity Control of Laser Beam Properties Editor(s): Roger Lee Facklam; Karl H. Guenther; Stephan P. Velsko *This item is only available on the SPIE Digital Library. Intracavity laser absorption spectroscopy is a method of laser spectroscopy, based on the evolution of the optical spectrum of intracavity radiation under the influence of narrowband absorption features.
The basic configuration for energy addition of four lasers with six-mirror cavity is schematically presented in Figure cavity is based on close-ended resonator, which is composed of six end mirrors M 1-M 6.M 1-M 5 are flat % reflectors at the laser wavelength (nm) and M 6 is the output mirror with 80% transmission at nm.
Thanks to two 50/50 beam splitters, BS, Author: Ming Lei. The first radial mode of a cylindrical resonator was excited in extracavity and intracavity configurations employing a modulated μm HeNe laser.
The resonance curves were measured as a function of pressure by a computer‐controlled method Cited by: 6. Beam shaping can be performed by use of soft diaphragms, spatial-frequency filtration, conical mirrors. A specified laser intensity distribution can generally be formed with either extracavity or intracavity methods.
In this paper we consider both methods. We use 40 mm in diameter, electrode bimorph flexible mirror extracavity and intracavity. In tunable laser resonators, intracavity beam expansion usually illuminates the whole width of a diffraction grating.
Thus beam expansion reduces the beam divergence and enables the emission of very narrow linewidths which is a desired feature for many analytical applications including laser spectroscopy. Multiple-prism beam expanders. Intracavity flat-top beam generation. There are many applications where a laser beam with an intensity The new type laser resonator employs an intracavity phase plate and a.
A type II phase-matched frequency doubler is suitable for a laser with unpolarized emission. In both cases, the frequency-doubled light is linearly polarized. Many continuous-wave green and blue laser sources are actually based on intracavity frequency doubling.
This paper describes the advances in the state of the art solid-state laser technology made by researchers at Lawrence Livermore National Laboratory and their contractors.
Analyses and experiments indicate that a good understanding of the design and implementation of the thermal optical control of laser plates required for high power, high Author: Shen Y Shey. Beck, RJ, Parry, JP, Shephard, JD & Hand, DPAdaptive extracavity beam shaping for application in nanosecond laser micromachining.
in Laser Resonators and Beam Control XIII. vol. Quantum Sensing and Nanophotonic Devices VIII, Cited by: 4. Purchase Tunable Laser Optics - 1st Edition. Print Book & E-Book. ISBNBook Edition: 1. Many of the damage problems experienced by intracavity laser optics, particularly for discharge-pumped and electron-beam-pumped laser systems, arise from the electronic interactions of low-energy electrons, ions and ultraviolet photons with the surface and near-surface regions of the optical material.
We shall describe results of recent experiments Author: Richard F Haglund. Intracavity and extracavity detection techniques were tested on the ν1 fundamental band of isothiocyanic acid and on the hydrofluoric acid P(4) vibration–rotation transition, indicating a resolution limit of.
Tunable group velocity dispersion interferometer for intracavity and extracavity applications. Abstract. Recent developments in femtosecond laser technology have demostrated the importance of controlling both intracavity and extracavity group velocity by: Intracavity and extracavity photoacoustic resonance experiments have been performed for C2H4, using a cylindrical acoustic resonator and a m HeNe laser as a light source.
Vol number 4 3. Adjustable dispersion using a Gires-Tournois interferometer Adjustable GVD is important for intracavity applications in femtosecond laser systems and extracavity applications such as compression experiments and compensation in by: Intracavity applications.
CEOWedges allows for intracavity carrier-envelope control with practically negligible impact on the cavity roundtrip time. This is particularly interesting when the laser repetition rate needs to be independently locked to an external frequency standard.
Tunable group velocity dispersion interferometer for intracavity and extracavity applications: Authors: Affiliation: AA(Laser Optics Group, Imperial College of Science and Technology, Blackett Laboratory, Prince Consort Road, London SW7 2BZ, UK; Permanent address: Xian Institute of Optics and Precision Mechanics, China.; Present address.
Broadly tunable microcomputer-controlled color-center laser for intracavity and extracavity sub-Doppler spectroscopy H. Adams, R. Bruggemann, P. Dietrich, D. Kirsten, H. Solka, (Journal of the Optical Society of America B ). The wavelength and intensity characteristics of the ILS laser output and any superimposed intracavity absorption features are preserved quantitatively for propagation through an extracavity single-mode optical fiber.
Feedback from the front surface of the optical fiber and its associated optics can modify the ILS laser by: 2.This paper is directed at proposing a new technique for building high energy optical components that will permit the use of heat transfer techniques that will remove substantially more thermal load than is presently possible.
This paper will describe the use of impingement and nucleate boiling heat transfer in concert with an optical component that is made up of optical : J R Palmer.