Optical Nanospectroscopy
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Edited by:
Alfred J. Meixner
This comprehensive two-volume graduate textbook presents the theoretical basis of optics and spectroscopy together with their advancement to the nanoscale, relevant experimental and numerical techniques, and selected emerging applications of nanospectroscopy. The work aims at students of the natural sciences and interested readers entering this fascinating interdisciplinary field.
Vol. 1 "Fundamentals & Methods" covers the basics of optical nanospectroscopy from the fundamentals of light-matter-interaction, through an overview over optical spectroscopies in general, to the specific techniques in nanospectroscopy that either offer nanoscale resolution or are addressed to nano-objects.
Vol. 2 "Instrumentation, Simulation & Materials" presents theoretical and experimental methods essential for nanospectroscopy. The work explains necessary instrumentation, gives insights into simulation tools and introduces a wide variety of nanomaterials typically investigated by nanospectroscopy.
Set price EUR 99.95 instead of EUR 139.90.
Also from the Editors: "Optical Nanospectroscopy. Applications" presentíng numerous examples in modern photonics and optical sensing or state-of-the-art applications in material, chemical and biological sciences.
This comprehensive two-volume graduate textbook presents the theoretical basis of optics and spectroscopy together with their advancement to the nanoscale, relevant experimental and numerical techniques, and selected emerging applications of nanospectroscopy. The work aims at students of the natural sciences and interested readers entering this fascinating interdisciplinary field.
Volume 1 covers the basics of optical nanospectroscopy from the fundamentals of light-matter-interaction, through an overview over optical spectroscopies in general, to the specific techniques in nanospectroscopy that either offer nanoscale resolution or are addressed to nano-objects.
Vol. 2: Instrumentation, Simulation & Materials.
The work "Optical Nanospectroscopy. Applications" presents numerous examples in modern photonics and optical sensing or state-of-the-art applications in material, chemical and biological sciences.
This comprehensive two-volume graduate textbook presents the theoretical basis of optics and spectroscopy together with their advancement to the nanoscale, relevant experimental and numerical techniques, and selected emerging applications of nanospectroscopy. The work aims at students of the natural sciences and interested readers entering this fascinating interdisciplinary field.
Volume 2 covers theoretical and experimental methods essential for nanospectroscopy. The work explains necessary instrumentation, gives insights into simulation tools and introduces a wide variety of nanomaterials typically investigated by nanospectroscopy.
Vol. 1: Fundamentals & Methods.
The work "Optical Nanospectroscopy. Applications" presents numerous examples in modern photonics and optical sensing or state-of-the-art applications in material, chemical and biological sciences.
Nanospectroscopy addresses the spectroscopy of very small objects down to single molecules or atoms, or high-resolution spectroscopy performed on regions much smaller than the wavelength of light, revealing their local optical, electronic and chemical properties. This work highlights modern examples where optical nanospectroscopy is exploited in photonics, optical sensing, medicine, or state-of-the-art applications in material, chemical and biological sciences. Examples include the use of nanospectroscopy in such varied fields as quantum emitters, dyes and two-dimensional materials, on solar cells, radiation imaging detectors, biosensors and sensors for explosives, in biomolecular and cancer detection, food science, and cultural heritage studies.
Also by the editors: Textbook "Optical Nanospectroscopy":
_"Fundamentals & Methods" (Vol. 1) and
_"Instrumentation, Simulation & Materials" (Vol. 2).
