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Thursday, July 16, 2020 | History

1 edition of Solid-State Lasers for Materials Processing found in the catalog.

Solid-State Lasers for Materials Processing

Fundamental Relations and Technical Realizations

by Reinhard Iffländer

  • 235 Want to read
  • 40 Currently reading

Published by Springer Berlin Heidelberg in Berlin, Heidelberg .
Written in English

    Subjects:
  • Engineering,
  • Physics,
  • Surfaces (Physics)

  • About the Edition

    This book explains in detail the technical and physical basic principles of solid-state lasers for material processing. The characteristic parameters of laser beams, such as beam quality, power and efficiency, are related to parameters of practical use. Conventional applications of high power lasers, such as laser welding, cutting and scribing, as well as the basics of laser-matter interactions, are also discussed in the book. The types of lasers considered include: high power Nd, Yb:YAG, Nd-glass lamp- or laserdiode-pumped. Data on potential materials for solid-state lasers such as alexandrite, GGG, YVO, YLF and others are presented. Aspectys of laser device design, for example, beam optics and beam guiding by fiber, are discussed. Many tables and graphics make this a useful handbook for scientists, process engineers, laser physicists and advanced students.

    Edition Notes

    Statementby Reinhard Iffländer
    SeriesSpringer Series in Optical Sciences -- 77, Springer series in optical sciences -- 77.
    Classifications
    LC ClassificationsTA1671-1707, TA1501-1820
    The Physical Object
    Format[electronic resource] :
    Pagination1 online resource (xvii, 353 p.)
    Number of Pages353
    ID Numbers
    Open LibraryOL27088315M
    ISBN 103642086306, 3540465855
    ISBN 109783642086304, 9783540465850
    OCLC/WorldCa851775408

    In this class of lasers, optical amplification is produced by using insulating crystals or glasses doped with rare-earth or transition-metal ions. Many favorable characteristics such as chemical stability, mechanical durability, and long operational lifetime have put these laser systems among the most preferred candidates for a wide range. Coverage of the most recent advancements and applications in laser materials processing This book provides state-of-the-art coverage of the field of laser materials processing, from fundamentals to applications to the latest research topics. The content is divided into three succinct parts: Principles of laser engineering-an introduction to the basic concepts and .

    This book provides a comprehensive overview of laser sources and their applications in various fields of science, industry, and technology. After an introduction to the basics of laser physics, different laser types and materials for lasers are summarized in the context of a historical survey, outlining the evolution of the laser over the past five decades. Solid state lasing media are typically optically pumped, using either a flashlamp or arc lamp, or by laser diodes. Diode-pumped solid-state lasers tend to be much more efficient and have become much more common as the cost of high-power semiconductor lasers has decreased.. Mode locking. Mode locking of solid-state lasers and fiber lasers has wide applications, as large .

    - Laser Congress Participant. Advanced Solid State Lasers Conference (ASSL) Addresses improving the operation and application of solid state lasers. Laser Applications Conference (LAC) Focusing on materials processing and applications for high power lasers. Important Dates. Chapter 4 Fundamentals of Laser-Material Interaction and Application to Multiscale Surface Modification Matthew S. Brown and Craig B. Arnold Abstract Lasers provide the ability to accurately deliver large amounts of energy into confined regions of a material in order to achieve a desired response.


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Solid-State Lasers for Materials Processing by Reinhard Iffländer Download PDF EPUB FB2

This book explains in detail the technical and physical basic principles of solid-state lasers for material processing. The characteristic parameters of laser beams, such as beam quality, power and efficiency, are related to parameters of practical use.

Conventional applications of high power lasers, such as laser welding, cutting and scribing Cited by: Buy Solid-State Lasers for Materials Processing: Fundamental Relations And Technical Realizations (Springer Series In Optical Sciences) on FREE SHIPPING on Cited by: Lasers now play a major part in the processing of the disparate materials used in engineering and manufacturing.

The range of procedures in which they are involved is ever increasing. With this growing prominence comes a need for clear and instructive textbooks to teach the next generation of laser users. The informal style of Laser Material Processing (3rd Edition) will guide you /5(2).

This book explains in detail the technical and physical basic principles of solid-state lasers for material processing. The characteristic parameters of laser beams, such as beam quality, power and efficiency, are related to parameters of practical use.

Conventional applications of high power. Solid-state lasers which offer multiple desirable qualities, including enhanced reliability, robustness, efficiency and wavelength diversity, are absolutely indispensable for many applications. The Handbook of solid-state lasers reviews the key materials, processes and applications of solid-state lasers across a wide range of fields.

This book explains in detail the technical and physical basic principles of solid-state lasers for material processing. The characteristic parameters of laser beams, such as beam quality, power and efficiency, are related to parameters of practical use.

Solid-state lasers include all optically pumped lasers in which the gain medium is a solid. The best-known solid-state lasers are the: a) ruby laser ( nm) (visible region).

b) Nd:YAG laser with neodymium-doped yttrium–aluminum garnet matrix ( nm). c) Titanium–sapphire laser (– nm) and other solid-state tunable vibronic lasers. d) rare-earth elements other than. This book explains in detail the basics of laser-matter interactions.

The complete spectrum of applications of high-intensity laser processing of materials is presented. Conventional applications such as laser welding are part of the book as well as laser ablation, surface processing, pattering and micro-techniques.

The characteristic parameters of laser beams. Book January Solid-State Lasers for Materials Processing; pp; Reinhard Iffländer Dipl.-Phys. In this chapter the material parameters. Solid State Lasers for Materials Processing Book Summary: From the reviews: "Takes the reader on a journey that covers all the basic science and engineering related to the topic of developing a solid-state laser for common materials processing problems.

[ ] Entrants to the field will certainly find it a book to keep for future reference.". However, at the end of the century the world market for solid state lasers and CO 2 gas lasers in materials processing have been almost the same, but much higher growth is nowadays expected for solid state lasers in future.

This is a consequence of the appearance of extremely small, reliable and efficient diode lasers – invented as early as. The Handbook of solid-state lasers reviews the key materials, processes and applications of solid-state lasers across a wide range of fields.

Part one begins by reviewing solid-state laser materials. The active optical fiber is the central part of such lasers. Chapter 4 Disk Lasers Authors: U Brauch. The first laser ever, Maiman's ruby laser, was a flashlamp pumped rod laser, and this laser design became the standard design of solid-state lasers for the next 30 years.

Chapter 5 Generation of 3D Parts with LasersAuthor: Dieter Schuocker, Georg Dieter Schuocker. (This book is a printed edition of the Special Issue Solid State Lasers Materials, Technologies and Applications that was published in Applied Sciences) Your book will be printed and delivered directly from one of three print stations, allowing you to profit from economic shipping to any country in the world.

Contact Article Processing. Solid-State Lasers for Materials Processing: Fundamental Relations and Technical RealizationsCited by: Get this from a library. Solid-state lasers for materials processing: fundamental relations and technical realizations.

[Reinhard Iffländer]. The high-power fiber laser. The development in the output power of solid-state fiber laser source has resulted in the increasing interest in the use of the high brightness fiber laser in macro laser material processing applications, especially cutting and welding of metal [].The essence of the design of the high-power fiber laser (a solid-state laser) is the improved cooling of the laser Author: Catherine Wandera.

The long upper-state lifetimes makes solid-state lasers very suitable for Q switching: the laser crystal can easily store an amount of energy which, when released in the form of a nanosecond pulse, leads to a peak power which is orders of magnitude above the achievable average power.

Bulk lasers can thus easily achieve millijoule pulse energies and megawatt peak powers. Solid-state lasers that offer a number of desirable qualities including high robustness, reliability, efficiency and wavelength diversity, are highly indispensable for a number of applications.

The Handbook Of Solid-State Lasers focuses on the key processes, materials, and applications of solid-state lasers in a broad variety of fields. Get this from a library. Solid-State Lasers for Materials Processing: Fundamental Relations and Technical Realizations.

[Reinhard Iffländer] -- This book explains in detail the technical and physical basic principles of solid-state lasers for material processing. The characteristic parameters of laser beams, such as beam quality, power and. We review the generation of these DUV lasers by nonlinear frequency conversion processes using solid-state/fiber lasers as the fundamental frequency.

A DUV laser at nm by fourth harmonics generation (FHG) could achieve an average power of 10 W with a .ESI offers a solid state laser portfolio ideal for many applications including material processing, scientific research, and LCD panel repair. Solid state lasers provide high reliability and compact size.

ESI also provides individual solid state lasers without the micromachining kit.This book deals with theoretical and experimental aspects of solid-state lasers, including optimum waveguide design of end pumped and diode pumped lasers.

Nonlinearity, including the nonlinear conversion, up frequency conversion and chirped pulse oscillators are discussed. Some new rare-earth-doped lasers, including double borate and halide crystals, and feedback in quantum dot Cited by: 2.