1 edition of Optical processes in microparticles and nanostructures found in the catalog.
Optical processes in microparticles and nanostructures
Richard K. Chang
Includes bibliographical references and index.
|Statement||editors, Ali Serpengüzel, Andrew W Poon|
|Series||Advanced series in applied physics -- vol. 6|
|The Physical Object|
|Pagination||vii, 477 p. :|
|Number of Pages||477|
We present a review of plasmonic nanostructures in which the constituent materials are coupled together by optical interactions. The review first provides a comprehensive coverage of theoretical framework where the optical interactions are described by the multiple scattering among the nanostructures. We then discuss the two limiting cases of weak and Cited by: Due primarily to structural, electrical, optical, plasmonic, and mechanical properties, CPs and MOPC nanostructures have emerged as platforms for bio and chemical sensing, drug delivery channels, wound healing, filtration and separation membranes, antireflective surfaces, electrodes, diodes, and field effect transistors.
The fovea centralis is a small, central pit composed of closely packed cones in the is located in the center of the macula lutea of the retina.. The fovea is responsible for sharp central vision (also called foveal vision), which is necessary in humans for activities for which visual detail is of primary importance, such as reading and driving. The fovea is surrounded by the FMA: sive discussion of SHG in plasmonic nanostructures. Diﬀerently from the broader scope of the review recently published by Kauranen and Zayats,8 we choose here to focus on a single nonlinear optical process, namely, SHG, and give an in-depth overview of its basic features and applications. As opposed to odd nonlinear processes involving odd.
1. Introduction. The optical trapping/manipulation of single microparticles was first demonstrated by Ashkin in and, later, the technique spread widely into various scientific research fields. The fundamental physics and history of optical trapping were reviewed recently by Ashkin in and and, in the latter review, he has predicted that the “use of optical manipulation Cited by: The formation of gold microparticles on a silicon substrate through the use of energetic surface plasmons is reported. A laser-assisted plasmonics system was assembled and tested to synthesize gold particles from gold thin film by electrical field enhancement mechanism. A mask containing an array of nm diameter holes with a periodicity of nm was prepared and Cited by: 1.
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Buy Optical Processes in Microparticles and Nanostructures: A Festschrift Dedicated to Richard Kounai Chang on His Retirement from Yale University (Advanced Series in Applied Physics) on FREE SHIPPING on qualified orders.
The topics cover important optical science and technology areas including linear and nonlinear spectroscopy, linear and nonlinear optics in microparticles, linear and nonlinear spectroscopy of bioaerosols, optical microcavities and nanostructures, and photoscapes or multidisciplinary applications.
Optical Processes in Microparticles and Nanostructures: A Festschrift Dedicated to Richard Kounai Chang on His Retirement from Yale University Ali Serpengüzel, Andrew W. Poon This Festschrift is a tribute to an eminent scholar, scientist and engineer, Professor Richard Kounai Chang, on his retirement from Yale University on J Optical Processes in Microparticles and Nanostructures, A Festschrift dedicated to Richard Kounai Chang on his Retirement from Yale University, edited by.
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() No Access ELECTRO-OPTICAL APPLICATIONS OF HIGH-Q CRYSTALLINE WGM RESONATORS VLADIMIR S. ILCHENKO. Get this from a library. Optical processes in microparticles and nanostructures: a festschrift dedicated to Richard Kounai Chang on his retirement from Yale University. [Ali Serpengüzel; Andrew W Poon; N Bloembergen;] -- This Festschrift is a tribute to an eminent scholar, scientist and engineer, Professor Richard Kounai Chang, on his retirement from Yale University on.
Optical Processes In Microparticles And Nanostructures: A Festschrift Dedicated To Richard Kounai Chang On His Retirement From Yale University evaporation and condensation processes. Throughout the book the main concern of the authors was to provide the reader with a visualization of the significance and application of the theory by.
We demonstrate selective trapping or rotation of optically isotropic dielectric microparticles by plasmonic near field in a single gold plasmonic Archimedes spiral. Depending on the handedness of circularly polarized excitation, plasmonic near fields can be selectively engineered into either a focusing spot for particle trapping or a plasmonic vortex for particle rotation.
Recommended Textbook: Optical Processes in Microparticles and Nanostructures A Festschrift Dedicated to Richard Kounai Chang on His Retirement from Yale University (Advanced Series in Applied Physics) by Ali Serpengüzel (Editor) and Andrew W.
Poon (Editor), World Scientific Press, Singapore (). (e-book through the library). This book includes an introduction to the relevant nonlinear optical processes associated with very short laser pulses for the generation of structures far below the classical optical diffraction.
Optical Processes in Organic Materials and Nanostructures II Editor(s): Manfred Eich ; Jean-Michel Nunzi ; Rachel Jakubiak For the purchase of this volume in printed format, please visit "The greatest value of Optical Diagnostics for Thin Film Processing is a comprehensive reference text.
I highly recommend it to anyone who wants to seriously delve into the field of thin film optical diagnostics or wants a single source book of well-organized Cited by: “Model for optical propagation in randomly coupled birefringent fiber and its implementation,” D.
Chowdhury, M. Mlejnek and S. Kumar, in the book “Optical Processes in Microparticles and Nanostructures”, World Scientific Publishing, 4. We demonstrate the use of antireflection (AR) coated microparticles for the enhanced optical manipulation of cells.
Specifically, we incubate CHO-K1, HL60, and NMuMG cell lines with AR-coated titania microparticles and subsequently performed drag force measurements using optical trapping. Direct comparisons were performed between native, polystyrene microparticle and. Optical tweezers, formed by a highly focused laser beam, have intriguing applications in biology and physics.
Inspired by molecular rotors, numerous optical beams and artificial particles have been proposed to build optical tweezers trapping microparticles, and extensive experiences have been learned towards constructing precise, stable, flexible and controllable by: 2.
Optical trap assisted laser nanostructuring in the near-field of microparticles Ulf Quentina) and Karl-Heinz Leitz Chair of Photonic Technologies, University of Erlangen-Nuremberg, Paul-Gordan-St. 3, Erlangen, Germany and Erlangen Graduate School in Advanced Optical Technologies (SAOT), Paul-Gordan-St.
6, Erlangen, Germany Lutz Cited by: 9. Photocontrol of mechanical motions of small objects has attracted much attention to develop mesoscopic remote actuators. For this purpose, photoinduced morphological changes of molecules, molecular aggregates, and crystals have been extensively studied in the field of chemistry and materials science.
Here, we propose direct use of momenta of light (i.e. Author: Kenji Setoura, Ahsan M. Memon, Syoji Ito, Yuki Inagaki, Katsuya Mutoh, Jiro Abe, Hiroshi Miyasaka. 41 Optical Thin Film Technician jobs available on Apply to Optical Technician, Technician, Process Technician and more. Contribution to Book Chapters.
Leung and J. Wu, “Applications of Quasi-Normal Mode Expansion—From Microdroplets to Compact Stellar Objects." Optical processes in Microparticles and nanostructures-A Festschrift dedicated to Richard Kounai Chang on his retirement from Yale University. World Scientific Publishing Company.
Optical Processes in Microparticles and Nanostructures This Festschrift is a tribute to an eminent scholar, scientist and engineer, Professor Richard Kounai Chang, on his retirement from Yale University on J Three-dimensional optical manipulation of microparticles, cells, and biomolecules in a noncontact and noninvasive manner is crucial for biophotonic, nanophotonic, and biomedical fields.
Optical tweezers, as a standard optical manipulation technique, have some limitations in precise manipulation of micro-objects in microfluidics and in vivo because of their bulky lens system .Including metamaterials.
This journal establishes a dedicated channel for physicists, material scientists, chemists, engineers and computer scientists who are interested in photonics and nanostructures, and especially in research related to photonic crystals, photonic band gaps and Journal sheds light on the latest developments in this growing field of .