Andere Kunden interessierten sich auch für
![Two-Dimensional Photonic Crystal Nano-Cavities]( "Two-Dimensional Photonic Crystal Nano-Cavities")
Two-Dimensional Photonic Crystal Nano-Cavities23,99 €![Future of Nanotechnology in Communications and Information Technology]( "Future of Nanotechnology in Communications and Information Technology")
Future of Nanotechnology in Communications and Information Technology50,99 €![Microwave photonic based angle of arrival estimation]( "Microwave photonic based angle of arrival estimation")
Microwave photonic based angle of arrival estimation36,99 €![Chip-Scale Photonic Circuits]( "Chip-Scale Photonic Circuits")
Chip-Scale Photonic Circuits44,99 €![Medical applications in nanotechnology - A mini review]( "Medical applications in nanotechnology - A mini review")
Medical applications in nanotechnology - A mini review29,99 €![Handbook of Organic Materials for Electronic and Photonic Devices]( "Handbook of Organic Materials for Electronic and Photonic Devices")
Handbook of Organic Materials for Electronic and Photonic Devices231,99 €![Photonic Packaging Sourcebook]( "Photonic Packaging Sourcebook")
Photonic Packaging Sourcebook85,99 €
The increasing density of data transmission, speed of all-optical signal processing, and demand for higher resolution microscopy and spectroscopy stimulate the development of the nanophotonics. Near- field microscopy is not limited by light diffraction and thus it can achieve sufficiently subwavelength resolution. Therefore this approach is perfect for nanophotonic device characterization. Heterodyne detection allows resolution of the optical phase and improves signal-to-noise performance in near-field microscopy. The book describes a Heterodyne Near- field Scanning Optical Microscope (HNSOM) and applications of this approach to characterization of several classes of the photonic nanodevices.