5 edition of Pulsed metal vapour lasers found in the catalog.
|Statement||edited by Chris E. Little and Nikola V. Sabotinov.|
|Series||NATO ASI series., vol. 5|
|Contributions||Little, Chris E., Sabotinov, Nikola V., North Atlantic Treaty Organization. Scientific Affairs Division.|
|LC Classifications||TA1695 .N37 1995|
|The Physical Object|
|Pagination||xiii, 479 p. :|
|Number of Pages||479|
|LC Control Number||96013620|
An examination of the latest materials and applications in pulsed laser deposition. Following up on the book Pulsed Laser Deposition of Thin Films, this current version summarizes the state of the technology in pulsed laser deposition (PLD) techniques, new materials that have been grown, and their applications. Self-terminating Metal Vapour Lasers. Copper Vapour Lasers. Molecular-donor Copper Lasers. Engineering and Electrical Excitation of Pulsed Copper Lasers. Gain Behaviour, Optical Resonators and Beam Quality of Pulsed Copper Lasers. Frequency Extension of Copper Lasers and Other Resonance-metastable MVLs.
Copper vapor laser (CVL) uses vapors of copper as the lasing medium in a 4-level produces green laser light at nm and yellow laser light at nm. The pulse width is typically from 5 to 60 ns, and peak power from 50 to kW. Its pulse repetition frequencies can be 2 to kHz. The average power of CVLs can range from 25 W to more than 2 kW. Pulsed operation of lasers refers to any laser not classified as continuous wave, so that the optical power appears in pulses of some duration at some repetition rate. This encompasses a wide range of technologies addressing a number of different motivations. Some lasers are pulsed simply because they cannot be run in continuous mode.. In other cases the application requires the production of.
urenco PULSED Copper metal vapor laser Cu 29 power 1 watt at nm Program solar Warden VARDA ORC VARUNA Pulsed metal vapor ion lasers Pulsed metal vapor ion lasers Sem, Miroslav F. The paper reports up to day progress in investigations and developments of ion metal vapor lasers, excited by three of the most effective processes in gas discharge plasma, namely, by collisions of metal atoms with electrons, by the collisional-radiative recombination of doubly-charged metal ions.
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A comprehensive, up-to-date review of the physics and applications of a major class of laser, the most important example of which is the copper vapour laser. A collection of 50 papers written by the world's leaders in the field. Papers cover: the early history of pulsed metal vapour lasters;Brand: Springer Netherlands.
Pulsed Metal Vapour Lasers (Nato Science Partnership Subseries: 1) th Edition by C.E. Little (Editor), N.V. Sabotinov (Editor) ISBN A practical source of information on the physics, engineering and applications of metal vapour lasers.
Audience: scientists, teachers and graduate researchers working in the fields of gas lasers, laser optics, gas discharges, optoelectronics and laser applications in industry, science and medicine. ISBN: OCLC Number: Notes: Collection of papers given at the NATO Advanced Research Workshop (ARW) on Pulsed Metal Vapour Lasers, Physics and Emerging Applications in Industry, Medicine, and Science, held at the University of St.
Andrews, August, Undoubtedly a book you must buy if you are working in the field." (Optics Laser Technology, 4th March, ) "This book provides a comprehensive overview of the most important types of these lasers [metal vapour lasers]." (La Doc Sti, Vol.March )Cited by: Metal Vapour Lasers Christopher E.
Little University of St Andrews, St Andrews, Scotland Since the first successful demonstration of a metal vapour laser (MVL) inthis class of laser has become widely used in a broad range of fields including precision materials processing, isotope separation and medicine.
The MVLs that are used today have a range of impressive characteristics that are. The mercury laser, as far as metal vapor lasers were concerned, was relatively simple to construct because the Hg metal could be placed anywhere in the discharge tube and the necessary vapor pressure was automatically achieved at room temperature or slightly : William T.
Silfvast. Abstract. Parameters of metal vapour lasers for remote sensing of atmospheric aerosol and ozone are examined. The lasers under review are also useful for ship beacon systems operating in poor visibility conditions and for laboratory experiments aimed at simulation of characteristics of laser radiation propagation through different media.
Abstract. Hollow-cathode discharge sputtering allows the immediate production of metal vapour together with efficient charge-transfer pumping of ultraviolet (~ – nm) metal ion laser transitions, most notably those for copper, silver and gold. Abstract. The expanded applications of copper vapor lasers have prompted increased demand for higher power and better beam quality.
This paper reports recent progress in laser power scaling, MOPA operation, and beam quality improvement, along with applications in precision laser machining and second harmonic generation. High brightness metal vapor lasers have become the most bright and powerful in the visible spectral range among all existing laser types, resulting in numerous applications ranging from purely fundamental research to practical application in large-scale commercial problems such as isotope selection.
This book presents a full series of fundamental problems on the development of physical. This book presents a full series of fundamental problems on the development of physical fundamentals and mathematical models for practical realization of a high-power laser radiation on self-contained transitions in metal atoms.
It is the first fundamental review on physics and the technique of high-brightness metal vapor lasers. Results of an experimental study of the properties of barium vapor lasers and the associated physical processes are reported. In particular, the lasing characteristics at the atomic transition of barium and transitions in the barium ion are discussed in relation to the experimental conditions.
The maximum specific output power achieved under the experimental condition is microjoules/cu cm. This book presents a full series of fundamental problems on the development of physical fundamentals and mathematical models for practical realization of a high-power laser radiation on self-contained transitions in metal atoms.
It is the first fundamental review on physics and the technique of high-brightness metal vapor lasers. Get this from a library. Pulsed Metal Vapour Lasers. [Chris E Little; Nikola V Sabotinov] -- A comprehensive, up-to-date review of the physics and applications of a major class of laser, the most important example of which is the copper vapour laser.
A collection of 50 papers written by the. These lasers have found numerous applications due to their ability to emit large average powers in the green at λ = nm and, at their secondary emission wavelength, at λ = Such CVLs use a buffer gas, such as He or Ne, and operate at a high pulse repetition frequency (prf) in order to attain the necessary metal vapor pressure.
InSem and Ivanov listed 17 R–M transition laser lines that had been realized in seven metal univalent ions by a comprehensive analysis of pulsed discharge-excited metal ion vapor lasers. The G criterion is also proved to be necessary for efficient pulsed metal ion lasers through the validation of these 17 R–M transition laser lines.
The physical model of LCVD under consideration is illustrated in Fig. A substrate made of Incoloy with a thickness of h is located in the bottom of a chamber.
Before the vapor deposition starts, the chamber is evacuated and then filled with a mixture of H 2, N 2, and TiCl 4.A laser beam moves along the surface of the substrate with a constant velocity, u b.
Free 2-day shipping. Buy NATO Science Partnership Subseries: 1: Pulsed Metal Vapour Lasers (Hardcover) at The conditions for the numerical calculations were chosen based on the analysis of the operating mode of the high-voltage pulse-periodic discharge in copper vapour lasers : the pumped inert.
The DUV family of lasers offer nm and nm for fraction of the cost of the competition. The laser is the size, weight and power consumption of a HeNe laser but with output in the deep UV. The self contained, integrated, laser controller enables remote computer control for ease of operation and flexible data collection via.Helium–silver (HeAg) metal-vapor laser: nm Scientific research Strontium vapor laser: nm Scientific research Neon–copper (NeCu) metal-vapor laser: nm Electrical discharge in metal vapor mixed with neon buffer gas.
Scientific research: Raman and fluorescence spectroscopy: Copper vapor laser: nm, nm.This paper considers the important characteristics of light sources for PDT, including dye lasers pumped by argon or metal vapour lasers and frequency-doubled Nd:YAG lasers.