Introduction to Nitride Semiconductor Blue Lasers and Light Emitting Diodes
F�l+�+rUT� By Shuji Nakamura, Shigefusa F. Chichibu
%�3T:�W\h� Publisher: CRC
,&�jjp�eZP Number Of Pages: 386
�x5,|�kJ9S Publication Date: 2000-03-09
iBC�IJ!��; ISBN-10 / ASIN: 0748408363
a]�4|XJ�_� ISBN-13 / EAN: 9780748408368
�0�����p�= Binding: Library Binding
�2>im�'x 5 ;�(IAhWE?7 BXr._y, cr 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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||.Ve,<:�� MRS Bulletin: Ultrafast Lasers in Materials Research
�7/BA!V(na I#��|�ib�� {>l`P�{�{y Ultrafast Lasers in Materials Research
Ls���NJ3oy Volume 31, No. 8
g'V,��K\TG BUY THIS ISSUE
!}HT�&N8[r Guest Editors: David G. Cahill and Steve M. Yalisove
�}j�,G)\g# 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.
Wl3fR[�@3Q On the Cover | Masthead
#4!6pMW(&7 All visitors have access to the article abstracts.
RueL~$*6.~ MRS Members (login for access) and those with institutional access may view the complete article by selecting the "View Paper" button beneath each article. (NOTE: "View Paper" will only appear for logged-in users with the appropriate access.)
UbSD?Ew@35 Non-Members can purchase individual articles by selecting the "Purchase Paper" button beneath each article.
G�_?�qY#"( Theme Article - Ultrafast Dynamics of Laser-Excited Solids
*�JVJKqed� D.A. Reis, K.J. Gaffney, G.H. Gilmer, and B. Torralva
�6d��YUMqQ n/IDq�$�/P I)4NCj�cCw Theme Article - Characterization of Mechanical and Thermal Properties Using Ultrafast Optical Metrology
Fi"TY^-�E; G. Andrew Antonelli, Bernard Perrin, Brian C. Daly, and David G. Cahill
ooT~R2u�� RTT�E�Ah:. el,n5O��Z7 Theme Article - Ultrafast Imaging of Materials: Exploring the Gap of Space and Time
SMh[7lU��` Wayne E. King, Michael Armstrong, Victor Malka, Bryan W. Reed, and Antoine Rousse
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KdCG.E9^ Theme Article - Ultrafast Processes for Bulk Modification of Transparent Materials
�JC4Z^/�\. Kazuyoshi Itoh, Wataru Watanabe, Stefan Nolte, and Chris B. Schaffer
E�)F"!56lV Q� |^c5� N9cUl�rD�O Theme Article - Silicon Surface Morphologies after Femtosecond Laser Irradiation
x��<{)xP+| Brian R. Tull, James E. Carey, Eric Mazur, Joel P. McDonald, and Steven M. Yalisove
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�K}�&3 Theme Article - Material Processing Using Femtosecond Lasers: Repairing Patterned Photomasks
xr���-v"-� Richard Haight, Peter Longo, and Alfred Wagner
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[n�# �KR/�SMwy� Laser Material Processing
C�E�p @-R� Laser Material Processing
z� c,����Q By William M. Steen
�OA��tn.LU #��m�e'1/z W=T,hOyh<W * Publisher: Springer-Verlag
w�mG[*a_�H * Number Of Pages:
M]OZS\9�.B * Publication Date: 1991-10
��7 {#^�zr * ISBN-10 / ASIN: 0387196706
.(2u�i~ed� * ISBN-13 / EAN: 9780387196701
h�^�"OC$� * Binding: Paperback
|#-GH�$.�v ��=qVD"Z]z ��dz�Z�75 rui]_F�n]I Summary: Invaluable general introduction to laser processing
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%�"�C& Rating: 5
?AJ�E�*=b� >D�/+0�4w This book provides a extremely useful general introduction to laser material processing. The new sections added to it from previous editions (rapid prototyping, laser forming and laser cleaning) reflect how lasers are being used more in manufaturing. A very short section on laser safety is also added. The result, however, is an even wider subject field than previously (it could fill 100 books if covered in depth). I would recommend anyone beginning a course of study or career in laser processing to sit down and read this book first to put everything in perspective. It is written in a way that makes it firstly readable and only secondarily a reference book. More in-depth books in more specific interest areas will be required for specialists.
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V�tr5<:eEx Laser Material Processing(7.62M)
)Y��P���9 Title: Laser Material Processing
+=A53V[C�� ISBN: 3540196706
�vL�"�[7' Author: W. M. Steen
�&%�4*~�;o Publisher: Springer
gnN"�pa!&~ Edition: (January, 1991)
s0�x;<si_ Pages: 266 pages
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���&*wc` U Summary:
Z>z�W8�3a� 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 smoothly from the basics of laser physics to the detailed treatment of all the major materials processing techniques for which lasers are now essential.
J ���4OgV? Helps you to understand how the laser works and to decide which laser is best for your purposes
B)4>:j:{?W New chapters on bending and cleaning reflect the changes in the field since the last edition completing the range of practical knowledge about the processes possible with lasers already familiar to users of this well-known text.
oaJnLd90�W Provides a firm grounding in the safety aspects of laser use.
c/G�]r�|k� Professor Steen´s lively presentation is supported by a number of original cartoons by Patrick Wright and Noel Ford which will bring a smile to your face and ease the learning process. Laser Material Processing (3rd Edition) will be of use as university or industrial course material for senior undergraduate, graduate and non-degree technical training in optoelectronics, laser processing and advanced manufacturing. Practising engineers and technicians in these areas will also find the book an authoritative source of information on the rapidly expanding use of industrial lasers in material processing.
�+Qe&#�"O0 --Written in a style that includes both technical detail and humor, Bill Steen´s book on laser material processing is the standard by which others are judged. It is the text in my graduate-level course on the subject.-- C.E. Albright, The Ohio State University
�e[a?5,s�2 --I have used two previous editions for my class. The third edition has included some of the more recent applications. It is easy to read and explanations are lucid. I expect it will receive wide acceptance in class rooms world wide.-- J. Mazumder, University of Michigan
D27MT/=7�� --It is the great merit of this book to offer a compact survey on laser material processing. A useful and fascinating book, pleasant to read with many useful figures and examples of industrial applications. It is a textbook for advanced students in this field, but also a reference book for engineers.-- H. Weber, Technische Universitat Berlin
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�< Recent Advances in Laser Processing of Materials
7��#B�U�d/ Recent Advances in Laser Processing of Materials (European Materials Research Society Series)
(NBq!;_2,x By Jacques Perriere, Eric Millon, Eric Fogarassy
PHh&��@�:� Publisher: Elsevier Science
C{�8d^SCA" Number Of Pages: 472
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F}�;G��&�� ISBN-10 / ASIN: 0080447279
;{k�`�nv_6 ISBN-13 / EAN: 9780080447278
s;;��"^5B. Binding: Hardcover
��h^}r$k_n ��c$>$2[*= �ZOK�,P��� &g�L &@';, Laser materials interaction and processing is an established and growing field within the materials science community. By taking a detailed look at the fundamentals of laser read.freeduan.com matter interaction, this book charts the recent progress of laser materials interaction and processing in various emerging materials science domains.
|�4@su�"OA Mh+ym]6\(k With special emphasis placed on nanostructures and future developments, this book provides an interdisciplinary support for basic and applied photo-assisted processing research.
-}Iw�!p#O3 Cd"iaiTD0� Coverage includes:
����*l�[;g >[ox�|_�o - laser assisted synthesis of new materials (nanoparticles, nanotubes, active molecules, new phases...)
PnKgUJoa0� -laser assisted surface transformation (nanostructuring, lithography, etching...)
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?�U`~,oI�0 6HW8mXQh<h - laser assisted synthesis of new materials (nanoparticles, nanotubes, active molecules, new phases...)
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JP��t=~e�( a\Ond�#1p� �0�;�kp`hB ��}sm�PP�* ���1��%nE� Optical Trapping and Manipulation of Neutral Particles Using Lasers
4{s3S2f��= Hardcover: 940 pages
Yc��,qXK- Publisher: World Scientific Publishing Company (December 29, 2006)
`b�J�+r)+5 Language: English
�X.� =�%�� ISBN-10: 9810240570
5Cp6$V|/kv ISBN-13: 978-9810240578
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��)e$}sw{t By Jacques Perriere, Eric Millon, Eric Fogarassy
FG^�J�h�5� Publisher: Elsevier Science
"lF��S{7� Number Of Pages: 472
�.@������3 Publication Date: 2006-06-16
`��n�*�e8T ISBN-10 / ASIN: 0080447279
W_%�p'��8, ISBN-13 / EAN: 9780080447278
}�W:Rg��}v Binding: Hardcover
���=peodj^ O]>�FNsh�! Laser materials interaction and processing is an established and growing field within the materials science community. By taking a detailed look at the fundamentals of laser read.freeduan.com matter interaction, this book charts the recent progress of laser materials interaction and processing in various emerging materials science domains.
UkE� ��fuH �w$X"E*~>8 With special emphasis placed on nanostructures and future developments, this book provides an interdisciplinary support for basic and applied photo-assisted processing research.
Y~P1r]piB w&vZ$n�-| Coverage includes:
�<��}@*�i� 4�pin\ZS:C - laser assisted synthesis of new materials (nanoparticles, nanotubes, active molecules, new phases...)
[IF5I�v�\b -laser assisted surface transformation (nanostructuring, lithography, etching...)
s\�)0��f_I -laser assisted bulk material transformation (doping, marking, crystallisation...)
s+@+<QE��� ��Sc�g�aWJ - laser assisted synthesis of new materials (nanoparticles, nanotubes, active molecules, new phases...)
m5wfQ_}}ss -laser assisted surface transformation (nanostructuring, lithography, etching...)
Z#�O )�0ou -laser assisted bulk material transformation (doping, marking, crystallisation...)
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http://rapidshare.com/files/70102801/9780080447278-0080447279.pdf.rar ��m�44"qp &%@b;�)]J ^/0c`JG�!x 4@iMGYR9!s Pulsed Laser Deposition of Thin Films: Applications-Led Growth of Functional Mat
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\gB�sA�Z�E By Robert Eason
kBh*��@g�f 1BA�/��$8G Publisher: Wiley-Interscience
�>��FVBn;1 Number Of Pages: 682
H�wz.�5hV" Publication Date: 2006-11-28
u<V�R;�p:y ISBN-10 / ASIN: 0471447099
#2���/2X�v ISBN-13 / EAN: 9780471447092
��F�Zt a� Binding: Hardcover
w$�XqxI/&� �J�v,*r�QH Edited by major contributors to the field, this text summarizes current or newly emerging pulsed laser deposition application areas. It spans the field of optical devices, electronic materials, sensors and actuators, biomaterials, and organic polymers. Every scientist, technologist and development engineer who has a need to grow and pattern, to apply and use thin film materials will regard this book as a must-have resource.
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~yIL m]7o�T��mS c�%��jW'�� Ultraviolet Spectroscopy and UV Lasers
\CY_nn|&�g �>FR�;Ux~a ISBN: 0824706684
U.$7=Z�l8t Title: Ultraviolet Spectroscopy and UV Lasers (Practical Spectroscopy)
kBRy(?Mft& Author: by Prabhakar Misra (Editor), Mark A. Dubinskii (Editor)
`k�Rv+Qwfa Publisher: CRC
69/br @j%` Publication Date: 2002-01-15
Rk8oshS+�2 Number Of Pages: 584
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l_E�S�$�%d .�|V�WYN� Editorial Description
��,\DSi&T� This volume presents a complete and thorough examination of advances in the instrumentation, evaluation, and implementation of UV technology for reliable and efficient data acquisition and analysis. It provides real-world applications in expanding fields such as chemical physics, plasma science, photolithography, laser spectroscopy, astronomy and atmospheric science. ...read whole description
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f]*TIYi�cc Number Of Pages: 558
��8H�aB�il Publication Date: 2007-11-26
wn&5Ul9Elb ISBN-10 / ASIN: 0387723439
dfa^5��`_� ISBN-13 / EAN: 9780387723433
a3Fe42G2c| Binding: Hardcover
7rZE7+%�]� V�GVb���3@ D�-S"�?aO- z~�f;5�xtI Laser machining is an emerging area with a wide variety of applications, ranging from bulk machining in metal forming to micromachining and microstructuring in electronics and biomedical applications. The unique properties of lasers allow for use in flexible manufacturing techniques such as laser-assisted mechanical machining (LAM) and laser-assisted chemical machining (LCM). Laser Fabrication and Machining of Materials provides a comprehensive overview of the fundamental principles and emerging applications of lasers related to material removal and forming processes, and also provides a link between advanced materials and advanced processing and manufacturing techniques.
y.6�Yl**�l Wu�1"�>��| Laser Fabrication and Machining of Materials introduces readers to the fundamental properties and physical phenomena of laser machining and its applications on the macro, micro, and nano scales. Examples of existing, emerging, and potential techniques are discussed, giving students and practicing engineers alike the opportunity to expand their use of lasers in such disciplines as mechanical processes, electronics, materials, and manufacturing.
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