Nano and Quantum Optics By Ulrich Hohenester
- Publisher: PHYSICS
- Availability: In Stock
- SKU: 49586
- Number of Pages: 677
Rs.1,190.00
Rs.1,495.00
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Nano and Quantum Optics
Author: Ulrich Hohenester
Paper Quality: Black White Paper
Category: Physics, Optics, Nanophotonics, Quantum Science
Recommended For:
Graduate and postgraduate students, researchers, and professionals in physics, material science, nanotechnology, and optical engineering.
Key Points
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Introduction to Nano-Optics
Nano-optics studies the behavior of light on the nanometer scale, focusing on how light interacts with particles smaller than its wavelength. -
Quantum Optics Fundamentals
Quantum optics examines the quantum mechanical nature of light, explaining phenomena like photon entanglement and superposition. -
Light-Matter Interaction
The interaction of light with matter at the nanoscale is crucial for understanding processes like scattering, absorption, and emission in nano-structures. -
Plasmonics
Plasmonics involves the study of plasmons, which are quasiparticles resulting from the interaction of light with free electrons in a material. -
Photonics at the Nanoscale
Photonics at the nanoscale involves manipulating and controlling photons in nanostructures to develop advanced optical devices. -
Quantum Dots and Nanostructures
Quantum dots are semiconductor nanocrystals that exhibit quantum mechanical properties, including discrete energy levels and size-dependent optical properties. -
Optical Cavities and Resonators
Optical cavities and resonators are structures that confine light in a small volume, enhancing light-matter interactions in nano-optical systems. -
Nonlinear Optics
Nonlinear optics studies the behavior of light in nonlinear media, where the response of the material is not directly proportional to the light intensity. -
Quantum Electrodynamics (QED)
QED is a field of study that describes how light and matter interact at the quantum level, using the principles of quantum mechanics and relativity. -
Applications of Nano and Quantum Optics
Applications of nano and quantum optics range from the development of new materials and devices to advancements in telecommunications, imaging, and sensing technologies.
Nano and quantum optics represent a convergence of classical and quantum theories to explain and manipulate light at the smallest scales. This field is not only fundamental to advancing our understanding of light-matter interactions but also holds immense potential for technological innovation. By comprehensively covering these topics, Ulrich Hohenester's book serves as a valuable resource for students, researchers, and professionals looking to deepen their knowledge in this rapidly evolving area.
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Writer ✤ Ulrich Hohenester