Tekijä: Carlos Orozco Alvarez; Gerardo Albarran Torres; Sergio Garcia Salas Kustantaja: Eae Editorial Academia Espanola (2012) Saatavuus: Noin 13-16 arkipäivää
Tekijä: Emanuella Pinheiro de Farias Bispo; Carlos H F Tavares; Jerzuí Mendes Tôrres Tomaz Kustantaja: Novas Edicoes Academicas (2017) Saatavuus: Noin 13-16 arkipäivää
Tekijä: Carlos Alberto Torres; Richard A. Young Kustantaja: Bloomsbury Publishing Plc (1992) Saatavuus: | Arvioimme, että tuote lähetetään meiltä noin 1-3 viikossa
Tekijä: Carlos Canales Torres; Miguel Del Rey Vicente Kustantaja: Editorial Edaf (2014) Saatavuus: | Arvioimme, että tuote lähetetään meiltä noin 1-3 viikossa
Tekijä: Luis Carlos Torres Soler; N Stor Manuel Garz N Torres; Nestor Manuel Garzon Torres Kustantaja: Eae Editorial Academia Espanola (2012) Saatavuus: Noin 13-16 arkipäivää
Springer Sivumäärä: 169 sivua Asu: Kovakantinen kirja Julkaisuvuosi: 2022, 03.09.2022 (lisätietoa) Kieli: Englanti
This book provides readers with a detailed overview of second- and third-order nonlinearities in various nanostructures, as well as their potential applications. Interest in the field of nonlinear optics has grown exponentially in recent years and, as a result, there is increasing research on novel nonlinear phenomena and the development of nonlinear photonic devices. Thus, such a book serves as a comprehensive guide for researchers in the field and those seeking to become familiar with it.
This text focuses on the nonlinear properties of nanostructured systems that arise as a result of optical wave mixing. The authors present a review of nonlinear optical processes on the nanoscale and provide theoretical descriptions for second and third-order optical nonlinearities in nanostructures such as carbon allotropes, metallic nanostructures, semiconductors, nanocrystals, and complex geometries. Here, the characterization and potential applications of these nanomaterials are alsodiscussed. The factors that determine the nonlinear susceptibility in these systems are identified as well as the influence of physical mechanisms emerging from resonance and off-resonance excitations. In addition, the authors detail the effects driven by important phenomena such as quantum confinement, localized surface plasmon resonance, Fano resonances, bound states, and the Purcell effect on specific nanostructured systems. Readers are provided with a groundwork for future research as well as new perspectives in this growing field.
