What is What in the Nanoworld: A Handbook on Nanoscience and Nanotechnology, 2nd, Revised and Enlarged Edition
The second, completely revised and enlarged edition of this introductory reference handbook summarizes the terms and definitions, most important phenomena, and regulations occurring in the physics, chemistry, technology, and application of nanostructures. A representative collection of fundamental terms and definitions from quantum physics and chemistry, special mathematics, organic and inorganic chemistry, solid state physics, material science and technology accompanies recommended second sources (books, reviews, websites) for an extended study of any given subject.
Each entry interprets the term or definition under consideration and briefly presents the main features of the phenomena behind it. Additional information in the form of notes ("First described in", "Recognition", "More details in") supplements the entries and gives a historical perspective of the subject with reference to further sources.
Ideal for answering questions related to unknown terms and definitions among undergraduate and PhD students studying the physics of low-dimensional structures, nanoelectronics, and nanotechnology.
Preface to the Second Edition VII
Preface to the First Edition IX
Source of Information XI
A From Abbe’s principle to Azbel’–Kaner cyclotron resonance 1
B From B92 protocol to Burstein–Moss shift 27
C From cage compound to cyclotron resonance 53
D From D’Alembert equation to Dzyaloshinskii–Moriya interaction 81
E From (e,2e) reaction to Eyring equation 109
F From Fabry–P´erot resonator to FWHM (full width at half maximum) 133
G From gain-guided lasers to gyromagnetic frequency 159
H From habit plane to hyperelastic scattering 175
I From ideality factor to isotropy (of matter) 199
J From Jahn–Teller effect to Joule’s law of electric heating 207
K From Kane model to Kuhn–Thomas–Reiche sum rule 211
L From lab-on-a-chip to Lyman series 225
M From Mach–Zender interferometer to Murrell–Mottram potential 251
N From NAA (neutron activation analysis) to Nyquist–Shannon sampling theorem 285
O From octet rule to oxide 299
P From PALM (photoactivable localization microscopy) to pyrrole 307
Q From Q-control to qubit 341
R From Rabi flopping to Rydberg gas 363
S From Saha equation to synergetics 381
T From Talbot’s law to type II superconductors 443
U From ultraviolet photoelectron spectroscopy (UPS) to Urbach rule 461
V From vacancy to von Neumann machine 465
W From Waidner–Burgess standard to Wyckoff notation 473
X From XMCD (X-ray magnetic circular dichroism) to XRD (X-ray diffraction) 483
Y From Yasukawa potential to Yukawa potential 487
Z From Zeeman effect to Zundel ion 489
A list and a presentation of Scientific Journals which contain
the stem Nano in their title 493
Abbreviations for the scientific journals which appear as sources in the text 507
Appendix – main properties of intrinsic (or lightly doped) semiconductors 513
His research team focuses on fundamental electronic and optical properties of semiconducting silicides and low dimensional silicon based nanostructures, carrier transport in semiconductor/dielectric multiquantum wells and DNA, design of novel nanoelectronics and nanophotonic devices, quantum computing.
Stefano Ossicini is Full Professor of General Physics at the Faculty of Engineering (Reggio Emilia) of the University of Modena and Reggio Emilia (Italy) and Director of the PhD School in "Physical and NanoSciences" of the University of Modena and Reggio Emilia. He also work a researcher within the CNR-National Institute for the Physics of Matter (INFM) at the INFM National Center S3 "nanoStructures and bioSystems at Surfaces". He graduated in Physics in 1976 at the University of Rome. From 1978 to 1982 he was active as post-doc and assistant at the Department of Theoretical Physics of the Free University in Berlin (Germany). From 1982 to 1984 researcher at the University of Calabria (Italy). 1984 he went to the University of Modena and Reggio Emilia (Italy). His research activity has mainly focused on the theory of low-dimensional- and nano- systems. In recent years the central topic of his research has been, in particular, the investigation of the structural, electronic and optical properties of semiconductor nanostructures.
"... a useful and readable resource, especially for undergraduate students and those elements in the general public interested in nanotechnology."
American Reference Books Annual
"...a useful handbook for undergraduate and PhD students as well as for teachers and researchers interested in nanoscience and nanotechnology from the physical/solid-state viewpoint. But is is also useful to chemists who are trying to move towards broader horizons."
"The book is very useful to both workers in the field and those who are interested in understanding the term and expression used in greater detail and the book will make a valuable addition to any bookshelf of the interested reader. It will be of use to university teachers, managers and media professionals dealing with nanoscience and nanotechnology."
Journal of Materials Technology
"... useful to advanced graduate students beginning research projects, or to scientists and engineers reaching outside the bounds of their disciplines for work in nanotechnology."
"Borisenko and Ossicini, both professors of physics, have filled a gap in nanoscience by writing this book. Overall, it promises to be a valuable source of information for scientists, researchers and research students who are dealing with materials and nanotechnology."
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What is What in the Nanoworld: A Handbook on Nanoscience and Nanotechnology, 2nd, Revised and Enlarged Edition (US $230.00)
-and- Inorganic Nanostructures: Properties and Characterization (US $145.00)
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