Diode lasers use nearly microscopic chips of gallium-arsenide or other exotic semiconductor material to generate coherent light in a very small package. Their compact size, reliability, and low cost means that they find applications in all aspects of modern technology-most importantly they drive modern optical telecommunication systems.
Diode Lasers presents a comprehensive introduction to the principles and operation of diode lasers. It begins with a review of semiconductor physics and laser fundamentals, before describing the most basic homojunction laser. Later chapters describe more advanced laser types and their applications, and the book concludes with chapters describing the most recently developed and exotic laser designs. The author's intuitive style, coupled with an extensive set of worked examples and sample problems, make this the ideal introduction for undergraduate and graduate level students.
"Sand's 'Diode Lasers' will be an invaluable companion book to any student doing a final year course on lasers or starting a postgraduate career in laser diode research. Established researchers in this field will also find it a good refresher text covering a broad subject area starting from basics. Written in a clear, intuitive, easy to read style (rare for any textbook in science), Sands manages to convey an enthusiasm for his subject and avoids diving into unnecessary details which so often confuse researchers new to a field and make so-called 'introductory' text inaccessible. …Sands has an excellent knowledge of the historical development of the field. …Sands gives fascinating glimpses into the thinking of the inventors of each new development. Sands also seems to have a knack of being able to recognize where a student might have difficulty with a concept and then explain it in simple terms. Sand's style of writing, historical understanding and ability to explain difficult ideas simply, have turned what might easily have been a rather 'dry' text book into 'a good read'. …this paper back book is reasonably and competitively priced for a specialist text. It would make an ideal course text for final year graduates, MSc or beginning PhD students and an excellent general text for the bookshelf of any researcher working in a related field who needs a good, readable, overview of this field."
-G. Dunn, Optics in Lasers and Engineering
Essential Semiconductor Physics
Optical Properties of Semiconductor Materials
The Double Heterostructure Laser
Quantum Well Lasers
The Vertical-Cavity Surface Emitting Laser
Diode Laser Modeling
Lightwave Technology and Fiber Communications
High Power Laser Diodes
Blue Lasers and Quantum Dots
Quantum Cascade Lasers