Skip to product information
1 of 1
Regular price £122.79 GBP
Regular price £157.00 GBP Sale price £122.79 GBP
Sale Sold out
Free UK Shipping

Freshly Printed - allow 10 days lead

Nanostructured Nonlinear Optical Materials
Formation and Characterization

Provides tools for the analysis of the formation, characterization and optical nonlinearities of various nanostructures using a range of methods

Rashid A. Ganeev (Author)

9780128143032, Elsevier Science

Paperback, published 20 June 2018

432 pages
23.4 x 19 x 2.7 cm, 0.88 kg

Nanostructured Nonlinear Optical Materials: Formation and Fabrication covers the analysis of the formation, characterization and optical nonlinearities of various nanostructures using different methods. It addresses many areas of research in the field, including the modification of the surfaces of materials for the formation of various nanostructures, transmission electron microscopy and time-of-flight mass spectroscopy studies of ablated bulk and nanoparticle targets, the low-order nonlinearities of metal and semiconductor nanoparticles, the nonlinear refraction and nonlinear absorption of carbon-contained nanoparticles, and low- and high-order harmonic generation in nanoparticle-contained plasmas, amongst other topics.

The book is an essential reference for all nanomaterials researchers in the fields of photonics, materials, physics, chemistry and nanotechnology.

1. Extended nanoripples formation using a few-cycle pulses2. Analysis of nanoripples produced on the semiconductors possessing different bandgaps3. Formation of nanopores, nanoholes, and nanowires using different conditions of laser-matter interaction4. Transmission electron microscopy and time-of-flight mass spectroscopy of ablated bulk and nanoparticle targets5. Low-order nonlinearities of metal and semiconductor nanoparticles6. Carbon-contained nanoparticles: nonlinear refraction and nonlinear absorption7. Low- and high-order harmonic generation in nanoparticle-contained plasmas8. Role of small clusters in harmonic enhancement using ablation of nanoparticles and bulk targets9. Comparative studies of high-order harmonic generation in the plasmas produced during ablation of bulk and nanoparticle materials of the same origin10. Correlation between efficient harmonic generation and TEM/ToFMS of the plasmas containing nanoparticles

Subject Areas: Materials science [TGM], Mechanical engineering & materials [TG], Biotechnology [TCB], Biomedical engineering [MQW]

View full details