Photoacoustic, Photothermal, and Photochemical Processes at Surfaces and in Thin FilmsPeter Hess This book explores the role of surface effects in optical phenomena in nanoscience, from two different perspectives. When systems are reduced in volume, the ratio of surface versus volume increases. At the level of single nanostructures this translates into an enhanced role of interfacial chemistry and thermodynamics. At the level of systems of nanostructures, it translates into larger density on interfaces, which in turn leads to such intriguing collective effects as plasmonics or multiple reflection and refraction phenomena. The book highlights both perspectives presenting sample applications. Without claiming to be exhaustive, the book aims to stimulate readers in this potentially rewarding field. |
Contents
Introduction | 1 |
Desorption Stimulated by Electronic Excitation with Laser Light | 11 |
2 | 17 |
Copyright | |
18 other sections not shown
Other editions - View all
Photoacoustic, Photothermal and Photochemical Processes at Surfaces and in ... Peter Hess Limited preview - 2012 |
Photoacoustic, Photothermal and Photochemical Processes at Surfaces and in ... Peter Hess No preview available - 2011 |
Photoacoustic, Photothermal and Photochemical Processes at Surfaces and in ... Peter Hess No preview available - 2011 |
Common terms and phrases
ablation absorbed acoustic waves acoustoelectric amplitude analysis Appl applications band gap bandwidth beam deflection Chem components CrO2 delay density dependence depth profiling desorbed desorption detection detector diffusion length domain effect electronic emission excitation experimental experiments ferrochrome fluence FMR signal fractal function impulse response input intensity interaction ionization ions irradiation laser beam laser pulse laser-induced layer Lett magnetic field magnetostatic materials measured mechanism metal methods microwave modes modulation frequency molecules multiphoton observed obtained optical parameters particles Pelzl phase angle phase velocity photoacoustic photoacoustic spectroscopy photon photothermal photothermally modulated Phys piezoelectric PM-FMR probe beam propagation properties PVDF radiation range resonance scan semiconductor shown in Fig solid spatial spectral spectrometer spectroscopy spectrum spin wave Springer structure substrate Surface Acoustic Waves surface temperature tape technique thermal diffusion thermal diffusion length thermal wave thickness thin films transducer ultrasonic velocity waveform wavelength