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E-grāmata: Handbook of Lasers

(Lawrence Berkeley National Laboratory, California, USA)
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Handbook of LasersPalielināt
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Lasers continue to be an amazingly robust field of activity. Anyone seeking a photon source is now confronted with an enormous number of possible lasers and laser wavelengths to choose from, but no single, comprehensive source to help them make that choice.

The Handbook of Lasers provides an authoritative compilation of lasers, their properties, and original references in a readily accessible form. Organized by lasing media-solids, liquids, and gases-each section is subdivided into distinct laser types. Each type carries a brief description, followed by tables listing the lasing element or medium, host, lasing transition and wavelength, operating properties, primary literature citations, and, for broadband lasers, reported tuning ranges.

The importance and value of the Handbook of Lasers cannot be overstated. Serving as both an archive and as an indicator of emerging trends, it reflects the state of knowledge and development in the field, provides a rapid means of obtaining reference data, and offers a pathway to the literature. It contains data useful for comparison with predictions and for developing models of processes, and may reveal fundamental inconsistencies or conflicts in the data.

Recenzijas

"The Handbooks are particularly valued for their breadth and authoritytheir success has undoubtedly been due to the most professional approach and guidance of the Editor-in-Chief, Marvin Weber, who has had a most distinguished and active research career in the laser field." -C.L.M. Ireland in Optics & Laser Technology, 30, 1998

Preface
Solid State Lasers
Introduction
3(2)
Crystalline Paramagnetic Ion Lasers
5(156)
Introduction
5(14)
Host Crystals Used for Transition Metal Laser Ions
19(1)
Host Crystals Used for Lanthanide Laser Ions
20(9)
Tables of Transition Metal Ion Lasers
29(7)
Tables of Divalent Lanthanide Ion Lasers
36(1)
Tables of Trivalent Lanthanide Ion Lasers
37(63)
Actinide Ion Lasers
100(1)
Other Ions and Crystals Exhibiting Gain
101(1)
Self-Frequency-Doubled Lasers
101(2)
Commercial Crystalline Transition Metal Ion Lasers
103(1)
Commercial Crystalline Lanthanide Ion Lasers
104(2)
References
106(55)
Glass Lasers
161(34)
Introduction
161(6)
Tables of Glass Lasers
167(14)
Glass Amplifiers
181(1)
Commercial Glass Lasers
182(1)
References
183(12)
Solid State Dye Lasers
195(22)
Introduction
195(1)
Dye Doped Organic Lasers
196(9)
Silica and Silica-Gel Dye Lasers
205(4)
Dye Doped Inorganic Crystal Lasers
209(1)
Dye Doped Glass Lasers
209(1)
Dye Doped Gelatin Lasers
210(1)
Dye Doped Biological Materials Lasers
210(1)
Commercial Solid State Dye Lasers
210(1)
References
211(6)
Color Center Lasers
217(14)
Introduction
217(2)
Centers and Crystals Used for Color Center Lasers
219(2)
Table of Color Center Lasers
221(5)
Commercial Color Center Lasers
226(1)
References
226(5)
Semiconductor Lasers
231(42)
Introduction
231(4)
II-VI Compound Lasers
235(2)
Mercury II-VI Compound Lasers
237(1)
III-V Compound Lasers
238(4)
III-V Compound Antimonide Lasers
242(1)
Nitride Lasers
243(1)
Lead IV-VI Compound Lasers
244(1)
Germanium-Silicon Intervalence Band Lasers
245(1)
Other Semiconductor Lasers
246(1)
Quantum Cascade and Intersubband Lasers
247(2)
Vertical Cavity Lasers
249(2)
Commercial Semiconductor Lasers
251(1)
References
252(21)
Polymer Lasers
273(16)
Introduction
273(1)
Pure Polymer Lasers
274(4)
Dye Doped Polymer Lasers
278(10)
Rare Earth Doped Polymer Lasers
288(1)
Solid State Excimer Lasers
289(2)
Raman, Brillouin, and Soliton Lasers
291(14)
Introduction
291(1)
Crystalline Raman Lasers
292(3)
Fiber Raman Lasers and Amplifiers
295(1)
Fiber Soliton Lasers
296(1)
Fiber Brillouin Lasers
297(1)
References
298(7)
Liquid Lasers
Liquid Organic Dye Lasers
305(70)
Introduction
305(2)
Chemical Nomenclature
307(3)
Tables of Liquid Organic Dye Lasers
310(50)
Commercial Dye Lasers
360(1)
Dye Laser Tuning Curves
360(7)
References
367(8)
Rare Earth Liquid Lasers
375(10)
Introduction
375(1)
Chelate Liquid Lasers
375(6)
Aprotic Liquid Lasers
381(4)
Liquid Polymer Lasers
385(2)
Liquid Excimer Lasers
387(4)
Gas Lasers
Introduction
391(2)
Neutral Atom Gas Lasers
393(70)
Introduction
393(2)
Tables of Neutral Atom Gas Lasers
395(68)
Ionized Gas Lasers
463(68)
Introduction
463(2)
Energy Level Diagrams
465(15)
Tables of Ionized Gas Lasers
480(51)
Molecular Gas Lasers
531(190)
Electronic Transition Gas Lasers
531(78)
Vibrational Transition Gas Lasers
609(112)
Far Infrared and Millimeter Wave Gas Lasers
721(122)
Introduction
721(2)
Tables of Atomic Far Infrared Gas Lasers
723(2)
Tables of Far Infrared and Millimeter Wave Gas Lasers
725(118)
Commercial Gas Lasers
843(4)
Comments
847(184)
References
1031(82)
Other Lasers
Extreme Ultraviolet and Soft X-Ray Lasers
1113(16)
Introduction
1113(3)
Lasing Transitions of H-like Ions
1116(1)
Lasing Transitions of Li-like Ions
1117(1)
Lasing Transitions of Be-like Ions
1118(1)
Lasing Transitions of Ne-like Ions
1118(4)
Lasing Transitions of Co-like Ions
1122(1)
Lasing Transitions of Ni-like Ions
1122(2)
Lasing Transitions of Pd-like Ions
1124(1)
References
1125(4)
Free Electron Lasers
1129(10)
Introduction
1129(2)
Short Wavelength Free Electron Lasers
1131(4)
Long Wavelength Free Electron Lasers
1135(4)
Nuclear Pumped Lasers
1139(8)
Introduction
1139(2)
Reactor Pumped Lasers
1141(2)
Nuclear Device Pumped Lasers
1143(1)
References
1143(4)
Natural Lasers
1147(4)
Inversionless Lasers
1151(4)
Amplification of Core-Valence Luminescence
1155(4)
APPENDICS
Appendix I Laser Safety
1159(8)
Appendix II Acronyms, Abbreviations, Initialisms, and Common Names for Types of Lasers, Laser Materials, Laser Structures and Operating Configurations, and Systems Involving Lasers
1167(12)
Appendix III Electron Configurations of Neutral Atoms in the Ground State
1179(4)
Appendix IV Fundamental Physical Constants
1183(4)
Index 1187


Marvin J. Weber
Biežāk uzdotie jautājumi par e-grāmatām Biežāk uzdotie jautājumi par e-grāmatām
Permanent link: https://www.kriso.lv/db/97814200501722e.html
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