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Fiber and Integrated Optics
The Advanced Study Institute on Fiber and Integrated Optics was held at Cargese from June 23 to July 7, 1978, at a time when both fields were undergoing a very rapid evolution. Fiber optics communications systems, in a multimode form, are moving out of laboratories and into practical use, and integrated optics is beginning to produce high performance, single-mode devices. In addition, the spin-off from the technological developments in both fields is beginning to have a growing impact on the general field of experimental physics. The lectures given at Cargese and assembled here illustrate these points and will be of considerable interest to both newcomers and people already in these fields. ...
Fundamentals of Fibre Optics in Telecommunication and Sensor Systems
Fibre Optics Is A Very Important Constituent Of Modern Information Technology. One Major Economic Benefit Offered By Fibre Optics Is Very High Information Transmission Rate At Low Cost Per Circuit-Km. The First Fibre Optic Telephone Link Went Public In Late 1970S. Ever Since, The Industrially Advanced Nations Around The World Have Been Striving To Deploy Fibre Optics In Almost Every Sector Of Communication Including Computer Networks And Data Links. Rarely, Since The Discovery Of Transistors, Have We Noticed Such A Fantastic Growth Rate Of A New Technology. As An Important Byproduct Of This Phenomenal Progress, A New Class Of Ultra-Sensitive Optical Sensors And Devices Based On Fibre Optics ...
Tunable Lasers
Ever since the invention of the laser itself, the spectroscopist has dreamed of lasers that could be tuned continuously over whatever set of resonances he wished to study. Two developments of the mid-1960s - the optical paramet ric oscillator and the dye laser - were the first to begin to fulfill that dream. The cw dye laser, with its ability to produce extremely narrow linewidths, was particularly successful and revitalized the study of atomic physics. Other, complementary developments soon followed. These included the excimer, color center, and high pressure gas lasers, as well as Raman shifting and four wave mixing techniques for further extending the tuning ranges of such primary tunable...
Fiber Optics
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New Directions in Guided Wave and Coherent Optics
As optical fiber communication systems have moved out of the laboratory and into commercial use over the past several years, the general field of guided wave and coherent optics has undergone a radical transformation. Research in optical communication has turned heavily towards single-mode technology and, totally new phenomena and applications of the existing technology, outside the communication field, have begun to proliferate. It was for this reason that we decided to organize a NATO Advanced Study Institute assembling the leading workers in this new domain, in order to define the state of the art, and, develop an idea of the new directions the field might take. The lectures and seminars ...
Fiber Bragg Gratings
Forward. Preface. Introduction. Photosensitivity and Photosensitization of Optical Fibers. Fabrication of Bragg Gratings. Theory of Fiber Bragg Gratings. Apodisation of Fiber Gratings. Fiber Grating Band-Pass Filters. Chirped Fiber Bragg Gratings. Fiber Grating Lasers and Amplifiers. Measurement and Characterization of Gratings. Index.
Optical Amplifiers
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Advances in Lasers and Electro Optics
Lasers and electro-optics is a field of research leading to constant breakthroughs. Indeed, tremendous advances have occurred in optical components and systems since the invention of laser in the late 50s, with applications in almost every imaginable field of science including control, astronomy, medicine, communications, measurements, etc. If we focus on lasers, for example, we find applications in quite different areas. We find lasers, for instance, in industry, emitting power level of several tens of kilowatts for welding and cutting; in medical applications, emitting power levels from few milliwatt to tens of Watt for various types of surgeries; and in optical fibre telecommunication systems, emitting power levels of the order of one milliwatt. This book is divided in four sections. The book presents several physical effects and properties of materials used in lasers and electro-optics in the first chapter and, in the three remaining chapters, applications of lasers and electro-optics in three different areas are presented
Ultrafast Phenomena IV
The motivating idea of the first Topical Meeting on Picosecond Phenomena, which took place at Hilton Head Island in 1978, was to bring together scien tists and engineers in a congenial setting who were developing picosecond lasers with those who were applying them to problems in chemistry, physics, electronics, and biology. The field has advanced remarkably in the following six years. This is reflected in the size of the conference which has more than doubled in the past six years and now includes scientists from many countries around the world. As evidenced by the papers in this volume, the appl ication of ultrafast 1 ight pulses continues to grow in new and diverse directions encompassing ...
