3 edition of Dye lasers. found in the catalog.
Published
1977
by Springer-Verlag in Berlin, New York
.
Written in
Edition Notes
Bibliography: p. [269]-287.
| Series | Topics in applied physics, v. 1, Topics in applied physics -- v. 1 |
| Contributions | Drexhage, K.H. |
| The Physical Object | |
|---|---|
| Pagination | x, 299 p. illus. ; |
| Number of Pages | 299 |
| ID Numbers | |
| Open Library | OL22361534M |
| ISBN 10 | 0387084703 |
the dye. This means that the exciting light should be bluer than the desired laser emission wavelength. Xenon lamps are commonly used to excite, or "pump", dye lasers. In this lab we will use a pulsed nitrogen laser to excite our dye. The wavelength of emission of a nitrogen laser is between and nm, in the Size: 64KB. A comparison of the Cassegrain and other beam expanders in high-power pulsed dye lasers R. Trebino, J. P. Roller, A. E. Siegman (IEEE Journal of Quantum Electronics ) Efficiency and linewidth improvements in a grazing incidence dye laser using an intracavity lens and spherical end mirror R. S. Smith, L. F. DiMauro (Applied Optics ).
Dye Lasers Book 1 VI spectrum of potential applications is outlined by T. W. HANSCH, who also touches briefly on the exciting field of laser spectroscopy, a most important application to which a forthcoming volume is devoted. All special data are noticed in the table of our dye poster, already mentioning the pumplaser which is used. Also we offer solvents in laser quality, which are the optimum solvents for Coumarine, Rhodamine and Cyanine dyes because of their high polarity. The high viscosity of Ethylene glycol shows to be an advantage for the use of cw-dye lasers.
A tutorial introduction to the field of dye lasers, Dye Laser Principles also serves as an up-to-date overview for those using dye lasers as research and industrial tools. A number of the issues discussed in this book are pertinent not only to dye lasers but also to lasers in general. Most of the chapters in the book contain problem sets that expand on the material covered in the The general principles of dye lasers are described giving a definition of dyes and discussing the optical properties and the optical gain of dye solutions. Different dye laser systems are considered including laser-pumped dye lasers with longitudinal and transverse pumping and flashlamp-pumped dye lasers. Other topics of recent research interest are discussed: mode-locked dye lasers (with.
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A tutorial introduction to the field of dye lasers, Dye Laser Principles also serves as an up-to-date overview for those using dye lasers as research and industrial tools. A number of the issues discussed in this book are pertinent not only to dye lasers but also to lasers in general.
A dye laser is a laser which uses an organic dye as the lasing medium, usually as a liquid ed to gases and most solid state lasing media, a dye can usually be used for a much wider range of wavelengths, often spanning 50 to nanometers or wide bandwidth makes them particularly suitable for tunable lasers and pulsed lasers.
The dye rhodamine 6G, for example. The third edition of Dye Lasers has been prepared in response to demand for an updated version of this well-known Topics volume. The classic chapters on continuous-wave dye lasers and properties of dye lasers are unchanged, but are now complemented by an additional chapter on continuous-wave dye lasers that takes account of recent advances.
Dye Laser Principles: With Applications Paperback – Novem by Frank J. Duarte (Editor) See all 6 formats and editions Hide other formats and editions. Price New from Used from Kindle "Please retry" $ — Format: Paperback. The treatment, being tutorial in nature, is suitable both for graduate students and for scientists working in the dye-laser field or applying a dye laser in another research discipline.
The book will also prove to be an indispensable and Dye lasers. book source of information for the specialist. The Dye Laser is a Liquid Laser. Liquid lasers are those lasers which uses liquid as an active medium.
In dye laser the liquid material called dye (for example rhodamine B, sodium fluoresein and rhodamie 6G) uses as an active medium, which causes to produce laser light. The third edition of Dye Lasers has been prepared in response to demand for an updated version of this well-known Topics volume.
The classic chapters on continuous-wave dye lasers and properties of dye lasers are unchanged, but are now complemented by an additional chapter on continuous-wave dye lasers that takes account of recent by: Dye Lasers - Ebook written by F.P. Schäfer. Read this book using Google Play Books app on your PC, android, iOS devices.
Download for offline reading, highlight, bookmark or. A tutorial introduction to the field of dye lasers, Dye Laser Principles also serves as an up-to-date overview for those using dye lasers as research and industrial tools. A number of the issues discussed in this book are pertinent not only to dye lasers but also to lasers in general.
Most of the chapters in the book contain problem sets that expand on the material covered in the chapter. Halina Abramczyk, in Introduction to Laser Spectroscopy, LIQUID DYE LASERS.
In liquid dye lasers the gain-medium is a liquid organic dye dissolved in liquid solvents. With a broad band between – nm and either a pulsed or cw output, dye lasers were workhorses in scientific laboratories for many years. The dye lasers were employed commonly to study ultrafast phenomena and were.
This book contains rather more than the title would suggest. In all chapters the presentation leads from the history and the very fundamentals to the latest research developments.
The physics as well as the practical aspects of high-power dye lasers are discussed extensively. This book is written for general users of dye lasers.
Researchers of laser dyes may refer to the mentioned publications for more detailed information. July 1 Dye Lasers and Laser Dyes Dye lasers are "the fulfillment of an experimenter's pipe dream that was as old as the laser itself: To have a laser that is easily tunable over a wide.
In Dye Lasers: 25 years, the pioneers and leading experts in the field of dye lasers present the current status and bright future perspectives of dye lasers and their applications in physics and chemistry. Particular topics covered include: new sources of ultrashort pulses, novel aspects.
Other articles where Dye laser is discussed: laser: Types of lasers: In dye lasers the laser medium is a liquid containing organic dye molecules that can emit light over a range of wavelengths; adjusting the laser cavity changes, or tunes, the output wavelength.
Chemical lasers are gas lasers in which a chemical reaction generates the excited molecules. lasers, which can produce 1 W of output in a spectral width of about nm (“1 MHz) with a pump power of 6 W. More detailed discussion of the early cw dye lasers can be found in Tuccio and Strome ().
Development of the cw dye laser since has been extensive and continues in. The classic chapters on continuous-wave dye lasers and properties of dye lasers are unchanged, but are now complemented by an additional chapter on continuous-wave dye. Genre/Form: Aufsatzsammlung: Additional Physical Format: Online version: Dye lasers.
Berlin ; New York: Springer-Verlag, (OCoLC) Document Type. A tutorial introduction to the field of dye lasers, Dye Laser Principles also serves as an up-to-date overview for those using dye lasers as research and industrial tools. A number of the issues discussed in this book are pertinent not only to dye lasers but also to lasers in Edition: 1.
Introduction to Home-Built Dye Laser Dye lasers are unique in that they are a class of lasers whose lasing medium is a liquid.
Depending on the particular dye used, output can be at a wide range of wavelengths spanning the visible spectrum and beyond. Commercial dye lasers are often pumped by. Dye lasers have been made using food stuffs, like jello. I even got mine to produce a beautiful yellow beam with beer.) So, unlike the Nd:YAG laser, the dye can be replaced with another type of dye to get just about any color you could think of.
Furthermore, dye lasers require the awkward handling of poisonous, often even carcinogenic materials. For such reasons, solid-state lasers, in particular Ti:sapphire lasers and later on also fiber lasers, took most of the business from dye lasers (at least in the domain of ultrashort pulse generation) as soon as they were sufficiently developed.View Otis Peterson, PhD’S profile on LinkedIn, the world's largest professional community.
Otis has 9 jobs listed on their profile. See the complete profile on LinkedIn and discover Otis Title: Chief Technical Officer at IX Power.Most dye lasers use a thin jet (with or without a thin cuvette) of dye solution.
The dye molecules are exposed to the pump light only for a short time interval. From time to time, the dye solution has to be exchanged because it degrades during operation.
