دانلود کتابهای تخصصی نانوتکنولوژ،لیزر وفیزیک
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1- Carbon Nanomaterials
ISBN: 0849393868 | Publisher: CRC | Publication Date: 2006-06-20 | Number Of Pages: 344 | PDF | 32,4 MB
Featuring the contributions of exceptional leaders in the field, Carbon Nanomaterials examines the special properties and practical synthesis for numerous carbon-based nanomaterials in the context of commercially available nanomaterials, emerging technologies, and future applications including composite materials, hydrogen storage medium, electrodes in batteries and supercapacitors and field-emitting devices. It emphasizes the the importance of nanotexture and surface chemistry in various modification methods used to customize properties for a wide range of applications and draws attention to challenges that must be addressed before they are fully integrated into the next generation of science and engineering applications.
2- Mathematical Physics
ISBN: 0226288617|Publisher: Univ of Chicago Pr (Tx)|Publication Date: 1985-10|Number Of Pages: 351|DjVu|6,4 MB
Mathematical Physics is an introduction to such basic mathematical structures as groups, vector spaces, topological spaces, measure spaces, and Hilbert space. Geroch uses category theory to emphasize both the interrelationships among different structures and the unity of mathematics. Perhaps the most valuable feature of the book is the illuminating intuitive discussion of the "whys" of proofs and of axioms and definitions. This book, based on Geroch's
3- Problems in Laser Physics
G. Cerullo, S. Longhi, M. Nisoli,
Kluwer Academic / Plenum Publishers | ISBN 0-306-46649-X | 2001 | 308 pages | DJVU | 5.1 MB
This book presents the first comprehensive collection of solved problems in laser physics covering both fundamental and applied aspects of laser science and technology. The framework of the book, including structuring of topics and notations, closely follows that adopted in the Principles of Laser book by Professor O. Svelto. The collection of problems presented in this book appears therefore a natural complement to Svelto's textbook for testing and developing the skills acquired in the reading of the theory; however, it may also be a useful support to any general textbook on laser physics, wherein problems are usually not solved in detail. We remark that this is, to our knowledge, the first book to provide a complete and satisfactory set of solved problems in such a highly developing field of science and technology.
The problems fall mainly into three distinct categories: (i) numerical/applied problems, which help the reader to become confident and familiar with the basic concepts and methods of laser physics, and to acquire a feeling for numerical parameters entering in real-world laser systems; (ii) complementary problems, that present in detail demonstrations of some analytical parts not given in the textbook; and (iii) advanced problems, aimed either to provide a deeper understanding of the subject or to cover more recent developments in the field. Audience: This book is primarily intended for undergraduate and graduate students in physics, engineering, and chemistry. However, it may also be a useful tool for industrial professionals working in the field of laser technologies and laser applications, as well as for researchers interested in basic aspects of real-world lasers and related fields.