Progress in Nanophotonics 2 (Nano-Optics and Nanophotonics)

Colloids and the Depletion Interaction.

Quantum Dot Solar Cells. Biophysical Chemistry of Biointerfaces. Orbital Interactions in Chemistry. Imaging and Manipulating Molecular Orbitals. Laser Processing and Chemistry. Physical Properties of Nanorods. Progress in Ultrafast Intense Laser Science. Physics of Quantum Fluids. Novel Functional Magnetic Materials.

References

Studying Kinetics with Neutrons. Electrodeposition of Nanostructured Materials. Clusters in Nuclei, Volume 3.

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• Contacto Ovni en Morelia (Spanish Edition).
• What is Nanophotonics? - Definition from Techopedia.

Magnetic Fields in Diffuse Media. Particle Confinement in Penning Traps. Modern Theory of Magnetism in Metals and Alloys. Operando Research in Heterogeneous Catalysis. Dynamics at Solid State Surfaces and Interfaces. In-situ Characterization of Heterogeneous Catalysts. The Physics of Ferromagnetism. Quantum Chemistry of Solids. Novel Optical Technologies for Nanofabrication.

Inorganic Scintillators for Detector Systems. Extreme States of Matter.

Kinetics and Spectroscopy of Low Temperature Plasmas. This article is part of the Thematic Series "Nanophotonics, nano-optics and nanospectroscopy".

This Thematic Series of the Beilstein Journal of Nanotechnology is devoted to nanophotonics, nano-optics and nanospectroscopy, and covers the field where nanoscience meets photonics, optics and spectroscopy. Since the pioneering days of scanning near-field optical microscopy [1,2] , one of the main goals has been to combine scanning probe microscopy techniques with the spectroscopic means to characterize the chemical structure of materials with nanometer spatial resolution [].

This has turned out to be a demanding but, at the same time, rewarding endeavor.

The scaling down of optics and spectroscopy to the length scale of molecules is not simply a matter of making things smaller; the optical phenomena and spectroscopic behavior at the nanoscale are indeed markedly different from those at the macroscopic scale. This challenge continues to fascinate researchers all around the world and has led to many new discoveries concerning the interaction between light and matter at dimensions much smaller than the wavelength of electromagnetic radiation [].

Well-known examples are the negative refractive index created by metamaterials [10,11] , the quantum confinement observed in the absorption and luminescence spectra of semiconductor nanoparticles [12] , and the plasmon resonances of silver and gold nanoparticles. The concept of plasmon resonance has led to broad applications, such as optical antennas made from noble metals, which have been used to locally focus light into volumes with dimensions far below the diffraction limit and to enhance the emission of locally excited states into the far field [13]. Equally important are fundamental studies of the optical properties of individual quantum systems, such as single atoms, single molecules [14] or single quantum dots, with high spectral resolution and high time resolution.

A single molecule is the smallest chemical unit and can be regarded as a single-photon source; its optical properties demonstrate most naturally the quantum characteristics of light and reveal details of intermolecular interactions that would be otherwise hidden in an ensemble.

Nanophotonics and nanospectroscopy shine light into this intriguing new world. Stefano Maci University of Siena Italy. Parak Hamburg University Germany. Proposals should be completed by using this template. Anastasia Kaptsova no later than 16 December Each proposal should include the following information: Title of the special session 2.

Brief description of the topic 3.

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Explanation of the relevance of the topic as a Special session 4. Full name, position and affiliation of the Special session's organizers 5. The TPC will score and rank submitted proposals based on scientific quality, timeliness, and interest from the conference community.