Introduction to Nitride Semiconductor Blue Lasers and Light Emitting Diodes
}Ui)xi:8 By Shuji Nakamura, Shigefusa F. Chichibu
tb>Q#QB&u Publisher: CRC
[s+FX5' K Number Of Pages: 386
_}j6Pw' Publication Date: 2000-03-09
?Ld:HE ISBN-10 / ASIN: 0748408363
P_P~c~o ISBN-13 / EAN: 9780748408368
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r3Kx )h]tKYx sZwa#CQK q The "blue laser" is an exciting new device used in physics. The potential is now being recognized for its development into a commercial lighting system read.freeduan.com using about a tenth of the power and with a thousand times the operating lifetime of a comparable conventional system. This comprehensive work introduces the subject at a level suitable for graduate students. It covers the basics physics of light emitting diodes (LEDs) and laser diodes (LDs) based on gallium nitride and related nitride semiconductors, and gives an outline of their structural, transport and
optical properties, and the relevant device physics. It begins with the fundamentals, and covers both theory and experiment, as well as an examination of actual and potential device applications. Shuji Nakamura and Nichia Chemicals Industries made the initial breakthroughs in the field, and these have revealed that LEDs and LDs are a sophisticated physical phenomenon and a commercial reality.
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P@<K&S+f MRS Bulletin: Ultrafast Lasers in Materials Research
?'>[nm Ko!a`I2M} iA4VT, Ultrafast Lasers in Materials Research
#bb$Icmtk Volume 31, No. 8
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BA9;=orx Guest Editors: David G. Cahill and Steve M. Yalisove
lrgvY>E0 With the availability of off-the-shelf commercial ultrafast lasers, a small revolution in materials research is underway, as it is now possible to use these tools without being an expert in the development of the tools themselves. Lasers with short-duration optical pulses—in the sub-picosecond (less than one-trillionth of a second) range—are finding a variety of applications, from basic research on fast processes in materials to new methods for microfabrication by direct writing. So, how fast is ultrafast? The answer often depends on the characteristic time scale of the application or the science being studied. The selection of topics in this issue is intended to illustrate the breadth of this new area of ultrafast lasers in materials research and the applications that have already been generated. We invite you to view the introductory article for this issue, "Ultrafast Lasers in Materials Research" by David G. Cahill and Steve M. Yalisove, Guest Editors.
}5d|y* On the Cover | Masthead
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