Solid State Properties: From Bulk to Nano: Graduate Texts in Physics
Autor Mildred Dresselhaus, Gene Dresselhaus, Stephen B. Cronin, Antonio Gomes Souza Filhoen Limba Engleză Hardback – 29 ian 2018
This book fills a gap between many of the basic solid state physics and materials science
books that are currently available. It is written for a mixed audience of electrical
engineering and applied physics students who have some knowledge of elementary
undergraduate quantum mechanics and statistical mechanics. This book, based on a
successful course taught at MIT, is divided pedagogically into three parts: (I) Electronic
Structure, (II) Transport Properties, and (III) Optical Properties. Each topic is explainedin the context of bulk materials and then extended to low-dimensional materials where
applicable. Problem sets review the content of each chapter to help students to understand
the material described in each of the chapters more deeply and to prepare them to master
the next chapters.
| Toate formatele și edițiile | Preț | Express |
|---|---|---|
| Paperback (1) | 595.71 lei 6-8 săpt. | |
| Springer Berlin, Heidelberg – 7 iun 2019 | 595.71 lei 6-8 săpt. | |
| Hardback (1) | 695.16 lei 3-5 săpt. | +36.56 lei 7-13 zile |
| Springer Berlin, Heidelberg – 29 ian 2018 | 695.16 lei 3-5 săpt. | +36.56 lei 7-13 zile |
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Specificații
ISBN-13: 9783662559208
ISBN-10: 366255920X
Pagini: 515
Ilustrații: XVIII, 517 p. 247 illus., 46 illus. in color.
Dimensiuni: 155 x 235 x 37 mm
Greutate: 0.92 kg
Ediția:1st ed. 2018
Editura: Springer Berlin, Heidelberg
Colecția Springer
Seria Graduate Texts in Physics
Locul publicării:Berlin, Heidelberg, Germany
ISBN-10: 366255920X
Pagini: 515
Ilustrații: XVIII, 517 p. 247 illus., 46 illus. in color.
Dimensiuni: 155 x 235 x 37 mm
Greutate: 0.92 kg
Ediția:1st ed. 2018
Editura: Springer Berlin, Heidelberg
Colecția Springer
Seria Graduate Texts in Physics
Locul publicării:Berlin, Heidelberg, Germany
Cuprins
Crystal Lattices in Real and Reciprocal Space.- Electronic Properties of Solids.- Weak and Tight Binding Approximations for Simple Solid State Models.- Examples of Energy Bands in Solids.- Effective Mass Theory.- Lattice Vibrations.- Basic Transport Phenomena.- Thermal Transport.- Electron and Phonon Scattering.- Magneto-transport Phenomena.- Transport in Low Dimensional Systems.- Two Dimensional Electron Gas, Quantum Wells & Semiconductor Superlattices.- Magneto-Oscillatory and Other Effects Associated with Landau Levels.- The Quantum Hall Effect (QHE).- Review of Fundamental Relations for Optical Phenomena.- Drude Theory–Free Carrier Contribution to the Optical Properties.- Interband Transitions.- Absorption of Light in Solids.- Optical Properties of Solids Over a Wide Frequency Range.- Impurities and Excitons.- Luminescence and Photoconductivity.- Optical Study of Lattice Vibrations.
Notă biografică
Mildred S. Dresselhaus is professor of physics and electrical engineering and emeriti institute professor, Massachusetts Institute of Technology, Cambridge, USA. She is recipient of numerous awards, including the National Medal of Science, the Enrico Fermi Award (2012) and the Kavli Prize in Nano science (2012). Known for her work on carbon nano tubes, graphite, graphite intercalation compounds, fullerenes and low dimensional thermoelectric, she lends her name to several physical theories. Positions and awards of Mildred Dresselhaus:
• Professor, MIT Department of Electrical Engineering and Computer Science, 1968–present
• Professor, MIT Department of Physics, 1983–present
• Treasurer, National Academy of Sciences, 1992–96
• Director, Office of Science, US Department of Energy, August 2000–January 2001
• Chair, American Institute of Physics Governing Board, March 2003–2008
• Awarded National Medal of Science by President George Bush, November 1990
• 20 x Doctorate Honoris Causa
• Professor Honoris Causa, Federal University of Ceara, Fortaleza, Brazil, September 2006
• Elected to membership in the National Academy of Engineering, 1974
• Corresponding Member, Brazilian Academy of Sciences, 1976
• Elected to membership in the National Academy of Sciences, 1985
• Elected as a Foreign Associate of the Engineering Academy of Japan, 1993
• Elected to Membership in the American Philosophical Society, 1995
• Sigri-Great Lakes Carbon Lifetime Achievement Award, American Carbon Society, 1997
• Hall of Fame Award by Women in Technology International (WITI), 1998
• Elected to Fellow of the American Carbon Society, 1999
• Nicholson Medal for Humanitarian Service, American Physical Society, 2000
• Weizmann Women & Science Millennial Lifetime Achievement Award, 2000
• National Materials Advancement Award of the Federation of Materials Societies, 2000
• Karl T. Compton Medal for Leadership in Physics, American Institute of Physics, 2001
• Honorary Member of the Ioffe Institute, Russian Academy of Sciences, St. Petersburg, Russia, 2001
• Honorary Fellow, Institute of Physics (UK), January 2005
• Heinz Award for Technology, the Economy, and Employment, May 2005
• Elected Foreign Fellow of the National Academy of Sciences of India, 2006
• North American Laureate L’Oreal-UNESCO Award for Women in Science, February 2007
• Honored Academician of the International Thermoelectric Academy, July 2007
• Oliver E. Buckley Condensed Matter Physics Prize of the American Physical Society, March 2008
• Elected Fellow of the Materials Research Society, April 2009
• 2008, advising the U.S. Secretary of Energy, Samuel Bodman pursuant to the Energy Policy Act
• Member of National Academy of Engineering
• Professor, MIT Department of Electrical Engineering and Computer Science, 1968–present
• Professor, MIT Department of Physics, 1983–present
• Treasurer, National Academy of Sciences, 1992–96
• Director, Office of Science, US Department of Energy, August 2000–January 2001
• Chair, American Institute of Physics Governing Board, March 2003–2008
• Awarded National Medal of Science by President George Bush, November 1990
• 20 x Doctorate Honoris Causa
• Professor Honoris Causa, Federal University of Ceara, Fortaleza, Brazil, September 2006
• Elected to membership in the National Academy of Engineering, 1974
• Corresponding Member, Brazilian Academy of Sciences, 1976
• Elected to membership in the National Academy of Sciences, 1985
• Elected as a Foreign Associate of the Engineering Academy of Japan, 1993
• Elected to Membership in the American Philosophical Society, 1995
• Sigri-Great Lakes Carbon Lifetime Achievement Award, American Carbon Society, 1997
• Hall of Fame Award by Women in Technology International (WITI), 1998
• Elected to Fellow of the American Carbon Society, 1999
• Nicholson Medal for Humanitarian Service, American Physical Society, 2000
• Weizmann Women & Science Millennial Lifetime Achievement Award, 2000
• National Materials Advancement Award of the Federation of Materials Societies, 2000
• Karl T. Compton Medal for Leadership in Physics, American Institute of Physics, 2001
• Honorary Member of the Ioffe Institute, Russian Academy of Sciences, St. Petersburg, Russia, 2001
• Honorary Fellow, Institute of Physics (UK), January 2005
• Heinz Award for Technology, the Economy, and Employment, May 2005
• Elected Foreign Fellow of the National Academy of Sciences of India, 2006
• North American Laureate L’Oreal-UNESCO Award for Women in Science, February 2007
• Honored Academician of the International Thermoelectric Academy, July 2007
• Oliver E. Buckley Condensed Matter Physics Prize of the American Physical Society, March 2008
• Elected Fellow of the Materials Research Society, April 2009
• 2008, advising the U.S. Secretary of Energy, Samuel Bodman pursuant to the Energy Policy Act
• Member of National Academy of Engineering
Textul de pe ultima copertă
This book fills a gap between many of the basic solid state physics and materials science
books that are currently available. It is written for a mixed audience of electrical
engineering and applied physics students who have some knowledge of elementary
undergraduate quantum mechanics and statistical mechanics. This book, based on a
successful course taught at MIT, is divided pedagogically into three parts: (I) Electronic
Structure, (II) Transport Properties, and (III) Optical Properties. Each topic is explainedin the context of bulk materials and then extended to low-dimensional materials where
applicable. Problem sets review the content of each chapter to help students to understand
the material described in each of the chapters more deeply and to prepare them to master
the next chapters.
Caracteristici
Covers both background and applications of main solid state properties Gives a hand-in-hand description of theory models and experiments Contains special sections on the novel developments in solid state nanoscience Based on a successful course at MIT