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1.


    Jumpertz, Louise.
    Nonlinear Photonics in Mid-infrared Quantum Cascade Lasers [[electronic resource] /] : монография / Louise. Jumpertz ; . - 1st ed. 2017. - [S. l. : s. n.]. - XXIII, 134 p. 100 illus., 6 illus. in color. - Б. ц.
    Зміст:
Introduction --
Quantum Cascade Lasers: Performant Mid-infrared Sources --
Optical Feedback in Interband Lasers --
Impact of Optical Feedback on Quantum Cascade Lasers --
Beam Shaping in Broad-Area Quantum Cascade Lasers Using Optical Feedback --
Impact of Optical Injection on Quantum Cascade Lasers --
Conclusions and Perspectives.
Рубрики: Lasers.
   Photonics.
   Statistical physics.
   Semiconductors.
   Optics, Lasers, Photonics, Optical Devices.
   Applications of Nonlinear Dynamics and Chaos Theory.
   Semiconductors.
Анотація: This thesis presents the first comprehensive analysis of quantum cascade laser nonlinear dynamics and includes the first observation of a temporal chaotic behavior in quantum cascade lasers. It also provides the first analysis of optical instabilities in the mid-infrared range. Mid-infrared quantum cascade lasers are unipolar semiconductor lasers, which have become widely used in applications such as gas spectroscopy, free-space communications or optical countermeasures. Applying external perturbations such as optical feedback or optical injection leads to a strong modification of the quantum cascade laser properties. Optical feedback impacts the static properties of mid-infrared Fabry–Perot and distributed feedback quantum cascade lasers, inducing power increase; threshold reduction; modification of the optical spectrum, which can become either single- or multimode; and enhanced beam quality in broad-area transverse multimode lasers. It also leads to a different dynamical behavior, and a quantum cascade laser subject to optical feedback can oscillate periodically or even become chaotic.  A quantum cascade laser under external control could therefore be a source with enhanced properties for the usual mid-infrared applications, but could also address new applications such as tunable photonic oscillators, extreme events generators, chaotic Light Detection and Ranging (LIDAR), chaos-based secured communications or unpredictable countermeasures.

Перейти: https://doi.org/10.1007/978-3-319-65879-7

Дод.точки доступу:
Jumpertz, Louise. \.\; SpringerLink (Online service)
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2.


   
    Quantum Plasmonics [[electronic resource] /] : монография / ed.: Bozhevolnyi, Sergey I., Martin-Moreno, Luis., Garcia-Vidal, Francisco. - 1st ed. 2017. - [S. l. : s. n.]. - XVII, 327 p. 139 illus., 74 illus. in color. - Б. ц.
    Зміст:
Waveguide Quantum Electrodynamics --
Quantum Emitters for Plasmonics --
New Materials for Quantum Plasmonics --
Collective Strong Coupling --
Lasing in Plasmonic Structures --
Quantum Effects in Nanogaps.
Рубрики: Lasers.
   Photonics.
   Quantum optics.
   Semiconductors.
   Microwaves.
   Optical engineering.
   Optical materials.
   Electronic materials.
   Nanotechnology.
   Optics, Lasers, Photonics, Optical Devices.
   Quantum Optics.
   Semiconductors.
   Microwaves, RF and Optical Engineering.
   Optical and Electronic Materials.
   Nanotechnology and Microengineering.
Анотація: This book presents the latest results of quantum properties of light in the nanostructured environment supporting surface plasmons, including waveguide quantum electrodynamics, quantum emitters, strong-coupling phenomena and lasing in plasmonic structures. Different approaches are described for controlling the emission and propagation of light with extreme light confinement and field enhancement provided by surface plasmons. Recent progress is reviewed in both experimental and theoretical investigations within quantum plasmonics, elucidating the fundamental physical phenomena involved and discussing the realization of quantum-controlled devices, including single-photon sources, transistors and ultra-compact circuitry at the nanoscale. .

Перейти: https://doi.org/10.1007/978-3-319-45820-5

Дод.точки доступу:
Bozhevolnyi, Sergey I. \ed.\; Martin-Moreno, Luis. \ed.\; Garcia-Vidal, Francisco. \ed.\; SpringerLink (Online service)
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3.


   
    Advances in Optical Science and Engineering [[electronic resource] :] : proceedings of the Third International Conference, OPTRONIX 2016 / / ed. Bhattacharya, Indrani. [et al.]. - 1st ed. 2017. - [S. l. : s. n.]. - XLIII, 689 p. 429 illus. - Б. ц.
    Зміст:
Preface --
Dedication --
About the editors --
Conference Organizing Committee --
Table of Contents --
Part I Keynote Address --
Part II Plenary Address --
Part III Green Photonics --
Part IV Fibre and Integrated Optics --
Part V Lasers, Interferometry, Imaging, Devices --
Part VI Optical Communication and Networks --
Part VII Optical and Digital Data and Image Processing --
Part VIII Opto-Electronic Devices, Terahertz Technology --
Part IX Nano-Photonics, Bio-Photonics, Bio-medical Optics --
Part X Lasers, Quantum Optics and Information Technology --
Part XI E.M.Radiation Theory and Antenna --
Part XII Cryptography, Micro-Electronics & VLSI --
Part XIII Nonlinear Optics, Opto-Electronic Devices --
Part XIV Non-Linear Waveguides, Optical Fiber Devices, Photonic Crystal --
Part XV Optical and Digital Image Processing Devices --
Part XVI Micro-Electronics and VLSI --
Part XVII Interdisciplinary, Lasers, Interferometry and Devices --
Author Index.
Рубрики: Lasers.
   Photonics.
   Quantum optics.
   Optics.
   Electrodynamics.
   Energy systems.
   Optics, Lasers, Photonics, Optical Devices.
   Quantum Optics.
   Classical Electrodynamics.
   Energy Systems.
Анотація: The Proceedings of 3rd International Conference on Opto-Electronics and Applied Optics, OPTRONIX 2016 is an effort to promote and present the research works by scientists and researchers including students in India and abroad in the area of Green Photonics and other related areas as well as to raise awareness about the recent trends of research and development in the area of the related fields. The book has been organized in such a way that it will be easier for the readers to go through and find out the topic of their interests. The first part includes the Keynote addresses by Rajesh Gupta, Department of Energy Science and Engineering, Indian Institute of Technology, Bombay; P.T. Ajith Kumar, President and Leading Scientist Light Logics Holography and Optics, Crescent Hill, Trivandrum, Kerala; and K.K. Ghosh, Institute of Engineering & Management, Kolkata, India.  The second part focuses on the Plenary and Invited Talks given by eminent scientists namely, Vasudevan Lakshminarayanan, University of Waterloo, Canada; Motoharu Fujigaki, University of Fukuii, Japan; Takeo Sasaki, Tokyo University of Science, Japan; Kehar Singh, Former Professor, Indian Institute of Technology, Delhi, India; Rajpal S. Sirohi, Tezpur University, India; Ajoy  Kumar Chakraborty, Institute of Engineering & Management, India; Lakshminarayan Hazra, Emeritus Professor, Calcutta University, India; S.K. Bhadra, Emeritus Scientist, Indian Institute of Chemical Biology, India; Partha Roy Chaudhuri, Department of Physics, Indian Institute of Technology, Kharagpur, India; Navin Nishchal, Indian Institute of Technology, Patna, India; Tarun Kumar Gangopadhyay, CSIR-Central Glass and Ceramic Research Institute, India; Samudra Roy, Department of Physics, Indian Institute of Technology, Kharagpur, India; Kamakhya Ghatak, University of Engineering & Management, India. The subsequent parts focus on contributory papers in : Green Photonics; Fibre and Integrated Optics; Lasers, Interferometry; Optical Communication and Networks; Optical and Digital Data and Image Processing; Opto-Electronic Devices, Terahertz Technology; Nano-Photonics, Bio-Photonics, Bio-Medical Optics; Lasers, Quantum Optics and Information Technology; E. M. Radiation Theory and Antenna; Cryptography; Quantum and Non-Linear Optics, Opto-Electronic Devices; Non-Linear Waveguides; Micro-Electronics and VLSI; Interdisciplinary.

Перейти: https://doi.org/10.1007/978-981-10-3908-9

Дод.точки доступу:
Bhattacharya, Indrani. \ed.\; Chakrabarti, Satyajit. \ed.\; Reehal, Haricharan Singh. \ed.\; Lakshminarayanan, Vasudevan. \ed.\; SpringerLink (Online service)
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4.


    Fang, Zujie.
    Single Frequency Semiconductor Lasers [[electronic resource] /] : монография / Zujie. Fang, Cai, Haiwen., Chen, Gaoting., Qu, Ronghui. ; . - 1st ed. 2017. - [S. l. : s. n.]. - XIII, 306 p. 188 illus., 4 illus. in color. - Б. ц.
    Зміст:
Chapter 1 Introduction --
Chapter 2 Characteristics of Semiconductor Laser --
Chapter 3 Linewidth and Noise of Semiconductor Laser --
Chapter 4 Monolithic Single Frequency Semiconductor Lasers --
Chapter 5 External Cavity Semiconductor Lasers --
Chapter 6 Frequency Stabilization of Semiconductor Lasers    --
Chapter 7 Frequency Sweeping --
Chapter 8 Frequency Translation and Optical Phase Locked Loop --
Chapter 9 Applications of Single Frequency Semiconductor Lasers.
Рубрики: Lasers.
   Photonics.
   Microwaves.
   Optical engineering.
   Semiconductors.
   Optics, Lasers, Photonics, Optical Devices.
   Microwaves, RF and Optical Engineering.
   Semiconductors.
Анотація: This book systematically introduces the single frequency semiconductor laser, which is widely used in many vital advanced technologies, such as the laser cooling of atoms and atomic clock, high-precision measurements and spectroscopy, coherent optical communications, and advanced optical sensors. It presents both the fundamentals and characteristics of semiconductor lasers, including basic F-P structure and monolithic integrated structures; interprets laser noises and their measurements; and explains mechanisms and technologies relating to the main aspects of single frequency lasers, including external cavity lasers, frequency stabilization technologies, frequency sweeping, optical phase locked loops, and so on. It paints a clear, physical picture of related technologies and reviews new developments in the field as well. It will be a useful reference to graduate students, researchers, and engineers in the field.

Перейти: https://doi.org/10.1007/978-981-10-5257-6

Дод.точки доступу:
Cai, Haiwen.; Chen, Gaoting.; Qu, Ronghui.; Fang, Zujie. \.\; SpringerLink (Online service)
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5.


   
    Nano-Optics: Principles Enabling Basic Research and Applications [[electronic resource] /] : монография / ed.: Di Bartolo, Baldassare., Collins, John., Silvestri, Luciano. - 1st ed. 2017. - [S. l. : s. n.]. - XVIII, 584 p. 222 illus., 175 illus. in color. - Б. ц.
    Зміст:
Part I: Lectures --
Light-Matter Interactions: A Coupled Oscillator Description --
Luminescence Spectroscopy of Nanophosphors --
Nanomaterials: basic concepts and quantum models --
Non-Radiative Processes In Nanocrystals --
3d Optical Laser Lithography --
Nanostructures And Nanocrystals With Radiation Color Centers: Characteristics And Some Applications --
Colloidal Nanophotonics: State-Of-The-Art And Prospective --
Ultrafast Nano-Biophotonics --
Circuit Optomechanics With Diamond Integrated Optical Devices --
Terahertz Sensing At The Nanoscale --
How Latitude Location On A Micro-World Enables Real-Time Nanoparticle Sizing --
Nanoplasmonic And Microfluidic Devices For Biological Sensing --
High-Throughput And Ultra-Sensitive Biosensing And Spectroscopy By Plasmonics --
Photoemission From Nanomaterials In Strong Few-Cycle Laser Fields --
Luminescence Of Er 3+ Ions In Nanocrystalline Glass-Ceramics --
Localization Of Yb3+, Er3+ And Co2+ Dopants In An Optical Glass Ceramic Of Mgal2o4 Spinel Nano-Crystals Embedded In Sio2 Glass --
Nd3+, Eu3+ And Yb3+ Ions As Structural Probes In The Scheelite-Type Cadmium Molybdates With Vacancies --
Medical Applications Of Nanomaterials --
Emission Cross Section, Fuchtbauer-Ladenburg Equation, And Purcell Factor --
Surface Plasmon Enhanced Fluorescence Of Glycine-Dimer-Functionalized Silver Nanoparticles --
Part II: Interdisciplinary Lecturers --
Andrea Pozzo: The Art of Perspective --
Part III: Short Seminars --
Part IV: Posters --
Part V: List of Participants --
Index.
Рубрики: Nanoscale science.
   Nanoscience.
   Nanostructures.
   Lasers.
   Photonics.
   System safety.
   Spectroscopy.
   Microscopy.
   Nanoscale Science and Technology.
   Optics, Lasers, Photonics, Optical Devices.
   Security Science and Technology.
   Spectroscopy and Microscopy.
Анотація: This book provides a comprehensive overview of nano-optics, including basic theory, experiment and applications, particularly in nanofabrication and optical characterization. The contributions clearly demonstrate how advances in nano-optics and photonics have stimulated progress in nanoscience and -fabrication, and vice versa. Their expert authors address topics such as three-dimensional optical lithography and microscopy beyond the Abbe diffraction limit, optical diagnostics and sensing, optical data- and telecommunications, energy-efficient lighting, and efficient solar energy conversion. Nano-optics emerges as a key enabling technology of the 21st century. This work will appeal to a wide readership, from physics through chemistry, to biology and engineering. The contributions that appear in this volume were presented at a NATO Advanced Study Institute held in Erice, 4-19 July, 2015.

Перейти: https://doi.org/10.1007/978-94-024-0850-8

Дод.точки доступу:
Di Bartolo, Baldassare. \ed.\; Collins, John. \ed.\; Silvestri, Luciano. \ed.\; SpringerLink (Online service)
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6.


   
    Progress in Nanophotonics 4 [[electronic resource] /] : монография / ed.: Ohtsu, Motoichi., Yatsui, Takashi. - 1st ed. 2017. - [S. l. : s. n.]. - XIII, 146 p. 91 illus., 26 illus. in color. - Б. ц.
    Зміст:
Progress in dressed photon technology and the future --
Nonequilibrium statistical mechanical models for photon breeding processes assisted by dressed-photon-phonons --
Nearfield-assisted chemical reactions and its applications --
Nanophotonics-based self-optimization for macro-optical applications --
Ultraflexible organic electronics and photonics.
Рубрики: Lasers.
   Photonics.
   Quantum optics.
   Nanotechnology.
   Optics.
   Electrodynamics.
   Nanoscale science.
   Nanoscience.
   Nanostructures.
   Optics, Lasers, Photonics, Optical Devices.
   Quantum Optics.
   Nanotechnology and Microengineering.
   Nanotechnology.
   Classical Electrodynamics.
   Nanoscale Science and Technology.
Анотація: This book presents the recent progress in the field of nanophotonics. It contains review-like chapters focusing on various but mutually related topics in nanophotonics written by the world’s leading scientists. Following the elaboration of the idea of nanophotonics, much theoretical and experimental work has been carried out, and several novel photonic devices, high-resolution fabrication, highly efficient energy conversion, and novel information processing have been developed in these years. Novel theoretical models describing the nanometric light-matter interaction, nonequilibrium statistical mechanical models for photon breeding processes and near-field?assisted chemical reactions as well as light?matter interaction are also explained in this book. It describes dressed photon technology and its applications, including implementation of nanophotonic devices and systems, fabrication methods and performance characteristics of ultrathin, ultraflexible organic light?emitting diodes, organic solar cells and organic transistors. .

Перейти: https://doi.org/10.1007/978-3-319-49013-7

Дод.точки доступу:
Ohtsu, Motoichi. \ed.\; Yatsui, Takashi. \ed.\; SpringerLink (Online service)
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7.


    Bettini, Alessandro.
    A Course in Classical Physics 4 - Waves and Light [[electronic resource] /] : монография / Alessandro. Bettini ; . - 1st ed. 2017. - [S. l. : s. n.]. - XIX, 361 p. 189 illus., 12 illus. in color. - Б. ц.
    Зміст:
1. Oscillations of systems with one degree of freedom --
2. Oscillations of systems with several degrees of freedom --
3. Waves --
4. Dispersion --
5. Oscillations of systems with several degrees of freedom --
6. Polarisation --
7. Optical images --
8. Coherent images.
Рубрики: Optics.
   Electrodynamics.
   Acoustics.
   Lasers.
   Photonics.
   Classical Electrodynamics.
   Acoustics.
   Optics, Lasers, Photonics, Optical Devices.
Анотація: This fourth volume of a four-volume textbook covers the oscillations of systems with one or more degrees of freedom; the concept of waves, focusing on light and sound; phase and group velocities, their physical meaning, and their measurement; diffraction and interference of light; polarization phenomena; and the formation of images in the eye and in optical instruments. The textbook as a whole covers electromagnetism, mechanics, fluids and thermodynamics, and waves and light, and is designed to reflect the typical syllabus during the first two years of a calculus-based university physics program. Throughout all four volumes, particular attention is paid to in-depth clarification of conceptual aspects, and to this end the historical roots of the principal concepts are traced. Emphasis is also consistently placed on the experimental basis of the concepts, highlighting the experimental nature of physics. Whenever feasible at the elementary level, concepts relevant to more advanced courses in quantum mechanics and atomic, solid state, nuclear, and particle physics are included. The textbook offers an ideal resource for physics students, lecturers and, last but not least, all those seeking a deeper understanding of the experimental basics of physics. .

Перейти: https://doi.org/10.1007/978-3-319-48329-0

Дод.точки доступу:
Bettini, Alessandro. \.\; SpringerLink (Online service)
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8.


   
    The Theory of Laser Materials Processing [[electronic resource] :] : heat and Mass Transfer in Modern Technology / / ed.: Dowden, John., Schulz, Wolfgang. - 2nd ed. 2017. - [S. l. : s. n.]. - XVII, 432 p. 177 illus., 15 illus. in color. - Б. ц.
    Зміст:
1 Mathematics in Laser Processing; John Dowden --
2 Simulation of Laser Cutting; Wolfgang Schulz, Markus Nie?en, Urs Eppelt and Kerstin Kowalick --
3 Glass Cutting; Wolfgang Schulz --
4 Keyhole Welding: the Solid and Liquid Phases ; Alexander Kaplan --
5 Laser Keyhole Welding: The Vapour Phase; John Dowden --
6 Basic Concepts of Laser Drilling; Wolfgang Schulz and Urs Eppelt --
7 Arc Welding and Hybrid Laser-Arc Welding; Ian Richardson. - 8 Metallurgy and Imperfections of Welding and Hardening; Alexander Kaplan --
9 Laser Cladding; Frank Bruckner and Dietrich Lepski --
10 Laser Forming; Thomas Pretorius --
11 Femtosecond Laser Pulse Interactions with Metals; Bernd Huttner --
12 Meta-Modelling and Visualisation of Multi-Dimensional Data for Virtual Production Intelligence; Wolfgang Schulz --
13 Comprehensive Numerical Simulation of Laser Materials Processing; Markus Gross --
Index.
Рубрики: Lasers.
   Photonics.
   Thermodynamics.
   Heat engineering.
   Heat transfer.
   Mass transfer.
   Metals.
   Engineering—Materials.
   Manufactures.
   Optics, Lasers, Photonics, Optical Devices.
   Engineering Thermodynamics, Heat and Mass Transfer.
   Metallic Materials.
   Materials Engineering.
   Manufacturing, Machines, Tools, Processes.
Анотація: The revised edition of this important reference volume presents an expanded overview of the analytical and numerical approaches employed when exploring and developing modern laser materials processing techniques. The book shows how general principles can be used to obtain insight into laser processes, whether derived from fundamental physical theory or from direct observation of experimental results. The book gives readers an understanding of the strengths and limitations of simple numerical and analytical models that can then be used as the starting-point for more elaborate models of specific practical, theoretical or commercial value. Following an introduction to the mathematical formulation of some relevant classes of physical ideas, the core of the book consists of chapters addressing key applications in detail: cutting, keyhole welding, drilling, arc and hybrid laser-arc welding, hardening, cladding and forming. The second edition includes a new a chapter on glass cutting with lasers, as employed in the display industry. A further addition is a chapter on meta-modelling, whose purpose is to construct fast, simple and reliable models based on appropriate sources of information. It then makes it easy to explore data visually and is a convenient interactive tool for scientists to improve the quality of their models and for developers when designing their processes. As in the first edition, the book ends with an updated introduction to comprehensive numerical simulation. Although the book focuses on laser interactions with materials, many of the principles and methods explored can be applied to thermal modelling in a variety of different fields and at different power levels. It is aimed principally however at academic and industrial researchers and developers in the field of laser technology.

Перейти: https://doi.org/10.1007/978-3-319-56711-2

Дод.точки доступу:
Dowden, John. \ed.\; Schulz, Wolfgang. \ed.\; SpringerLink (Online service)
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9.


    Schaferling, Martin.
    Chiral Nanophotonics [[electronic resource] :] : chiral Optical Properties of Plasmonic Systems / / Martin. Schaferling ; . - 1st ed. 2017. - [S. l. : s. n.]. - XV, 159 p. 79 illus., 75 illus. in color. - Б. ц.
    Зміст:
Introduction --
Chirality in Nature and Science --
Chiroptical Spectroscopy- Chiral Properties of Light --
Enhancement of Chiral Fields by Geometrically Chiral Structures --
Chiral Fields of Macroscopically Achiral Arrangements --
Formation of Chiral Fields Near Symmetric Structures --
Chiral Eigenmodes of Geometrically Chiral Structures --
Conclusions and Outlook.
Рубрики: Lasers.
   Photonics.
   Nanoscale science.
   Nanoscience.
   Nanostructures.
   Optics.
   Electrodynamics.
   Nanotechnology.
   Optics, Lasers, Photonics, Optical Devices.
   Nanoscale Science and Technology.
   Classical Electrodynamics.
   Nanotechnology and Microengineering.
Анотація: This book describes the physics behind the optical properties of plasmonic nanostructures focusing on chiral aspects. It explains in detail how the geometry determines chiral near-fields and how to tailor their shape and strength. Electromagnetic fields with strong optical chirality interact strongly with chiral molecules and, therefore, can be used for enhancing the sensitivity of chiroptical spectroscopy techniques. Besides a short review of the latest results in the field of plasmonically enhanced enantiomer discrimination, this book introduces the concept of chiral plasmonic near-field sources for enhanced chiroptical spectroscopy. The discussion of the fundamental properties of these light sources provides the theoretical basis for further optimizations and is of interest for researchers at the intersection of nano-optics, plasmonics and stereochemistry. .

Перейти: https://doi.org/10.1007/978-3-319-42264-0

Дод.точки доступу:
Schaferling, Martin. \.\; SpringerLink (Online service)
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10.


    Schuster, Christian Stefano.
    Diffractive Optics for Thin-Film Silicon Solar Cells [[electronic resource] /] : монография / Christian Stefano. Schuster ; . - 1st ed. 2017. - [S. l. : s. n.]. - XX, 114 p. 56 illus., 11 illus. in color. - Б. ц.
    Зміст:
Introduction --
Nanostructures for Enhanced Light-Trapping in Thin-Film Silicon Solar Cells --
Fabrication and Characterisation of Diffractive Nanostructures --
Achievements --
Conclusions and Outlook.
Рубрики: Lasers.
   Photonics.
   Energy harvesting.
   Optical materials.
   Electronic materials.
   Nanoscale science.
   Nanoscience.
   Nanostructures.
   Optics, Lasers, Photonics, Optical Devices.
   Energy Harvesting.
   Optical and Electronic Materials.
   Nanoscale Science and Technology.
Анотація: This thesis introduces a figure of merit for light trapping with photonic nanostructures and shows how different light trapping methods compare, irrespective of material, absorber thickness or type of nanostructure. It provides an overview of the essential aspects of light trapping, offering a solid basis for future designs. Light trapping with photonic nanostructures is a powerful method of increasing the absorption in thin film solar cells. Many light trapping methods have been studied, but to date there has been no comprehensive figure of merit to compare these different methods quantitatively. This comparison allows us to establish important design rules for highly performing structures; one such rule is the structuring of the absorber layer from both sides, for which the authors introduce a novel and simple layer-transfer technique. A closely related issue is the question of plasmonic vs. dielectric nanostructures; the authors present an experimental demonstration, aided by a detailed theoretical assessment, highlighting the importance of considering the multipass nature of light trapping in a thin film, which is an essential effect that has been neglected in previous work and which allows us to quantify the parasitic losses. .

Перейти: https://doi.org/10.1007/978-3-319-44278-5

Дод.точки доступу:
Schuster, Christian Stefano. \.\; SpringerLink (Online service)
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11.


    Renk, Karl F.
    Basics of Laser Physics [[electronic resource] :] : for Students of Science and Engineering / / Karl F. Renk ; . - 2nd ed. 2017. - [S. l. : s. n.]. - XIX, 676 p. 344 illus., 7 illus. in color. - Б. ц.
    Зміст:
Part I - General Description of a Laser and an Example --
Part II - Theoretical Basis of the Laser --
Part III - Operation of a Laser --
Part IV - Types of Lasers (Except Semiconductor Lasers) --
Part V - Semiconductor Lasers --
Part VI - Laser Related Topics.
Рубрики: Lasers.
   Photonics.
   Microwaves.
   Optical engineering.
   Optics.
   Electrodynamics.
   Manufactures.
   Optics, Lasers, Photonics, Optical Devices.
   Microwaves, RF and Optical Engineering.
   Classical Electrodynamics.
   Manufacturing, Machines, Tools, Processes.
Анотація: This textbook provides an introductory presentation of all types of lasers. It contains a general description of the laser, a theoretical treatment and a characterization of its operation as it deals with gas, solid state, free-electron and semiconductor lasers. This expanded and updated second edition of the book presents a description of the dynamics of free-electron laser oscillation using a model introduced in the first edition that allows a reader to understand basic properties of a free-electron laser and makes the difference to “conventional” lasers. The discussions and the treatment of equations are presented in a way that a reader can immediately follow. The book addresses graduate and undergraduate students in science and engineering, featuring problems with solutions and over 400 illustrations.

Перейти: https://doi.org/10.1007/978-3-319-50651-7

Дод.точки доступу:
Renk, Karl F. \.\; SpringerLink (Online service)
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12.


   
    Recent Trends in Computational Photonics [[electronic resource] /] : монография / ed. Agrawal, Arti. [et al.]. - 1st ed. 2017. - [S. l. : s. n.]. - XIX, 395 p. 170 illus., 134 illus. in color. - Б. ц.
    Зміст:
Introduction to Mid Infrared Fibre Lasers --
Laser Rate and Propagation Equations --
Obtaining Spectroscopic Parameters as Inputs to the Numerical Model --
Models for Fibre Lasers --
Hydrodynamic Model for Nonlinear Plasmonics --
Discussion and Conclusions.
Рубрики: Lasers.
   Photonics.
   Optical materials.
   Electronic materials.
   Optics.
   Electrodynamics.
   Physics.
   Nanotechnology.
   Optics, Lasers, Photonics, Optical Devices.
   Optical and Electronic Materials.
   Classical Electrodynamics.
   Numerical and Computational Physics, Simulation.
   Nanotechnology.
Анотація: This book brings together the recent cutting-edge work on computational methods in photonics and their applications. The latest advances in techniques such as the Discontinuous Galerkin Time Domain method, Finite Element Time Domain method, Finite Difference Time Domain method as well as their applications are presented. Key aspects such as modelling of non-linear effects (Second Harmonic Generation, lasing in fibers, including gain nonlinearity in metamaterials), the acousto-optic effect, and the hydrodynamic model to explain electron response in nanoplasmonic structures are included. The application areas covered include plasmonics, metamaterials, photonic crystals, dielectric waveguides, fiber lasers. The chapters give a representative survey of the corresponding area. .

Перейти: https://doi.org/10.1007/978-3-319-55438-9

Дод.точки доступу:
Agrawal, Arti. \ed.\; Benson, Trevor. \ed.\; De La Rue, Richard M. \ed.\; Wurtz, Gregory A. \ed.\; SpringerLink (Online service)
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13.


   
    Progress in Photon Science [[electronic resource] :] : basics and Applications / / ed. Yamanouchi, Kaoru. - 1st ed. 2017. - [S. l. : s. n.]. - XVII, 288 p. 235 illus., 201 illus. in color. - Б. ц.
    Зміст:
Laser-Plasma Interaction --
Filamentation and Its Applications --
Laser-Assisted Electron Scattering --
Exotic Properties of Light --
Imaging --
Molecules and Clusters in Intense Laser Fields --
Ultracold Molecules and High-Resolution Spectroscopy --
Photochemistry and Spectroscopy of Novel Materials --
Laser-Assisted Material Synthesis and Modifications, and Coherent Photon Technology.
Рубрики: Lasers.
   Photonics.
   Microwaves.
   Optical engineering.
   Optical materials.
   Electronic materials.
   Spectroscopy.
   Microscopy.
   Quantum optics.
   Optics, Lasers, Photonics, Optical Devices.
   Microwaves, RF and Optical Engineering.
   Optical and Electronic Materials.
   Spectroscopy and Microscopy.
   Quantum Optics.
Анотація: This book features chapters based on lectures presented by world-leading researchers of photon science from Russia and Japan at the first “STEPS Symposium on Photon Science” held in Tokyo in March 2015. It describes recent progress in the field of photon science, covering a wide range of interest to experts in the field, including laser-plasma interaction, filamentation and its applications, laser assisted electron scattering, exotic properties of light, ultrafast imaging, molecules and clusters in intense laser fields, photochemistry and spectroscopy of novel materials, laser-assisted material synthesis, and photon technology.

Перейти: https://doi.org/10.1007/978-3-319-52431-3

Дод.точки доступу:
Yamanouchi, Kaoru. \ed.\; SpringerLink (Online service)
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14.


   
    Technological Advances in Tellurite Glasses [[electronic resource] :] : properties, Processing, and Applications / / ed.: Rivera, V.A.G., Manzani, Danilo. - 1st ed. 2017. - [S. l. : s. n.]. - IX, 335 p. 169 illus., 117 illus. in color. - Б. ц.
    Зміст:
1 Introduction to Tellurite Glasses --
2 Linear and Nonlinear Optical Properties of Some Tellurium Oxide Glasses --
3 Trivalent Lanthanides in Tellurite Glass --
4 Non-Oxide Tellurium-Based Glasses --
5 Photonic Applications of Tellurite Glasses --
6 Glass and Fiber Lasers --
7 Tellurite Glasses for Optical Amplifiers --
8 Broadband Emission in Tellurite Glasses --
9 Tellurite Glass Fibers for Mid-Infrared Nonlinear Applications --
10 Tellurite Thin Films Produced by RF Sputtering for Optical Waveguides and Memory Device Applications --
11 Laser Writing in Tellurite Glasses --
12 Supercontinuum Generation in Tellurite Optical Fibers --
13 Tellurite Glasses for Plasmonics --
Index.
Рубрики: Lasers.
   Photonics.
   Optical materials.
   Electronic materials.
   Electronics.
   Microelectronics.
   Ceramics.
   Glass.
   Composites (Materials).
   Composite materials.
   Quantum optics.
   Optics, Lasers, Photonics, Optical Devices.
   Optical and Electronic Materials.
   Electronics and Microelectronics, Instrumentation.
   Ceramics, Glass, Composites, Natural Materials.
   Quantum Optics.
Анотація: This book is the first to provide a comprehensive introduction to the synthesis, optical properties, and photonics applications of tellurite glasses. The book begins with an overview of tellurite glasses, followed by expert chapters on synthesis, properties, and state-of-the-art applications ranging from laser glass, optical fibers, and optical communications through color tuning, plasmonics, supercontinuum generation, and other photonic devices. The book provides in-depth information on the the structural, linear, and non-linear optical properties of tellurite glasses and their implications for device development. Real-world examples give the reader valuable insight into the applications of tellurite glass. A detailed discussion of glass production methods, including raw materials and melting and refining oxide- and fluoro-tellurite glasses, is also included. The book features an extensive reference list for further reading. This highly readable and didactic text draws on chemical composition, glass science, quantum mechanics, and electrodynamics. It is suitable for both advanced undergraduate and graduate students as well as practicing researchers. Serves as a key reference on the development of a new generation of photonics devices based on tellurite glasses Addresses the knowledge gap in tellurite glasses among physicists, chemists, and materials scientists Contributes to current research into the optical properties of oxide/fluoro-tellurite glasses Offers perspectives on likely future trends and challenges for tellurite glasses in the field of photonics and nanophotonics.

Перейти: https://doi.org/10.1007/978-3-319-53038-3

Дод.точки доступу:
Rivera, V.A.G. \ed.\; Manzani, Danilo. \ed.\; SpringerLink (Online service)
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15.


    Pearsall, Thomas P.
    Quantum Photonics [[electronic resource] /] : монография / Thomas P. Pearsall ; . - 1st ed. 2017. - [S. l. : s. n.]. - XVII, 292 p. 130 illus., 39 illus. in color. - Б. ц.
    Зміст:
Introduction --
Properties of Electrons --
Photons --
Tunnelling --
Bandstructure of Periodic Structures --
Photons in Periodic Media --
Quantum Cascade Lasers --
Photonics in Resonant Cavities.
Рубрики: Quantum optics.
   Lasers.
   Photonics.
   Microwaves.
   Optical engineering.
   Optical materials.
   Electronic materials.
   Nanoscale science.
   Nanoscience.
   Nanostructures.
   Quantum Optics.
   Optics, Lasers, Photonics, Optical Devices.
   Microwaves, RF and Optical Engineering.
   Optical and Electronic Materials.
   Nanoscale Science and Technology.
Анотація: This textbook employs a pedagogical approach that facilitates access to the fundamentals of Quantum Photonics. It contains an introductory description of the quantum properties of photons through the second quantization of the electromagnetic field, introducing stimulated and spontaneous emission of photons at the quantum level. Schrodinger’s equation is used to describe the behavior of electrons in a one-dimensional potential. Tunneling through a barrier is used to introduce the concept of non­locality of an electron at the quantum level, which is closely-related to quantum confinement tunneling, resonant tunneling, and the origin of energy bands in both periodic (crystalline) and aperiodic (non-crystalline) materials. Introducing the concepts of reciprocal space, Brillouin zones, and Bloch’s theorem, the determination of electronic band structure using the pseudopotential method is presented, allowing direct computation of the band structures of most group IV, group III-V, and group II-VI semiconductors. The text is supported by numerous numerical calculations that can be repeated by the student. The book includes an extensive treatment of the time duration of tunneling. The non-local nature of quantum mechanical states is further developed by the proof of Bell’s theorem and an in-depth discussion of its implications for experimental phenomena like quantum tunneling and quantum entanglement. The entangled quantum photon pair is the workhorse for exploring the fundamental non-locality of quantum mechanics, as well as important applications such as quantum cryptography. Further, the book presents the generation of entangled photon pairs by spontaneous parametric downconversion in detail using operators of the quantized photonic field. The physics of laser action is presented using the quantum photonic basis of spontaneous and stimulated emission, highlighting the limits of Maxwell’s equations in describing quantum behavior. Further, the book shows how the quantum confinement of electrons leads to reduced threshold current on the macroscopic level. Quantum cascade and interband cascade laser structures are analyzed using methods developed in earlier chapters to show how band structure engineering can be applied to access photon emission energies that cannot be achieved using conventional materials.

Перейти: https://doi.org/10.1007/978-3-319-55144-9

Дод.точки доступу:
Pearsall, Thomas P. \.\; SpringerLink (Online service)
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16.


    Angelini, Angelo.
    Photon Management Assisted by Surface Waves on Photonic Crystals [[electronic resource] /] : монография / Angelo. Angelini ; . - 1st ed. 2017. - [S. l. : s. n.]. - XX, 64 p. 43 illus., 37 illus. in color. - Б. ц.
    Зміст:
Introduction --
1 Bloch Surface Waves on a one dimensional photonic Crystal --
2 Coupling of spontaneous emitters with Bloch Surface Waves --
3 Ring antennae: resonant focusing and collimated ex-traction of luminescence --
Conclusions 72.
Рубрики: Lasers.
   Photonics.
   Nanoscale science.
   Nanoscience.
   Nanostructures.
   Microwaves.
   Optical engineering.
   Nanotechnology.
   Surfaces (Physics).
   Interfaces (Physical sciences).
   Thin films.
   Optical materials.
   Electronic materials.
   Optics, Lasers, Photonics, Optical Devices.
   Nanoscale Science and Technology.
   Microwaves, RF and Optical Engineering.
   Nanotechnology.
   Surface and Interface Science, Thin Films.
   Optical and Electronic Materials.
Анотація: This book illustrates original pathways to manipulate light at the nanoscale by means of surface electromagnetic waves (here, Bloch surface waves, BSWs) on planar dielectric multilayers, also known as one-dimensional photonic crystals. This approach is particularly valuable as it represents an effective alternative to the widely exploited surface plasmon paradigm. After a brief overview on the fundamentals of BSWs, several significant applications of BSW-sustaining structures are described. Particular consideration is given to the propagation, guiding, and diffraction of BSW-coupled radiation. Further, the interaction of organic emitters with BSWs on planar and corrugated multilayers is investigated, including fluorescence beaming in free space. To provide greater insight into sensing applications, an illustrative example of fluorescent microarray-based detection is presented. The book is intended for scientists and researchers working on photon management opportunities in fields such as biosensing, optical circuitry, and lighting.

Перейти: https://doi.org/10.1007/978-3-319-50134-5

Дод.точки доступу:
Angelini, Angelo. \.\; SpringerLink (Online service)
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17.


    Schmeckebier, Holger.
    Quantum-Dot-Based Semiconductor Optical Amplifiers for O-Band Optical Communication [[electronic resource] /] : монография / Holger. Schmeckebier ; . - 1st ed. 2017. - [S. l. : s. n.]. - XXIII, 190 p. 109 illus., 59 illus. in color. - Б. ц.
    Зміст:
Introduction --
Semiconductor Optical Ampli?ers (SOAs) --
Samples and Characterization --
Introduction to System Experiments --
Concept of Direct Phase Modulation --
Signal Ampli?cation --
Concept of Dual-Band Ampli?ers --
Signal Processing - Wavelength Conversion --
Summary and Outlook.
Рубрики: Semiconductors.
   Lasers.
   Photonics.
   Signal processing.
   Image processing.
   Speech processing systems.
   Semiconductors.
   Optics, Lasers, Photonics, Optical Devices.
   Signal, Image and Speech Processing.
Анотація: This thesis examines the unique properties of gallium arsenide (GaAs)-based quantum-dot semiconductor optical amplifiers for optical communication networks, introducing readers to their fundamentals, basic parameters and manifold applications. The static and dynamic properties of these amplifiers are discussed extensively in comparison to conventional, non quantum-dot based amplifiers, and their unique advantages are elaborated on, such as the fast carrier dynamics and the decoupling of gain and phase dynamics. In addition to diverse amplification scenarios involving single and multiple high symbol rate amplitude and phase-coded data signals, wide-range wavelength conversion as a key functionality for optical signal processing is investigated and discussed in detail. Furthermore, two novel device concepts are developed and demonstrated that have the potential to significantly simplify network architectures, reducing the investment and maintenance costs as well as the energy consumption of future networks. .

Перейти: https://doi.org/10.1007/978-3-319-44275-4

Дод.точки доступу:
Schmeckebier, Holger. \.\; SpringerLink (Online service)
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18.


   
    Nanophysics, Nanomaterials, Interface Studies, and Applications [[electronic resource] :] : selected Proceedings of the 4th International Conference Nanotechnology and Nanomaterials (NANO2016), August 24-27, 2016, Lviv, Ukraine / / ed.: Fesenko, Olena., Yatsenko, Leonid. - 1st ed. 2017. - [S. l. : s. n.]. - XXXII, 880 p. 427 illus., 203 illus. in color. - Б. ц.
Рубрики: Nanoscale science.
   Nanoscience.
   Nanostructures.
   Nanotechnology.
   Lasers.
   Photonics.
   Nanochemistry.
   Nanoscale Science and Technology.
   Nanotechnology.
   Nanotechnology and Microengineering.
   Optics, Lasers, Photonics, Optical Devices.
   Nanochemistry.
Анотація: This book presents some of the latest achievements in nanotechnology and nanomaterials from leading researchers in Ukraine, Europe, and beyond. It features contributions from participants in the 4th International Science and Practice Conference Nanotechnology and Nanomaterials (NANO2016) held in Lviv, Ukraine on August 24-27, 2016. The International Conference was organized jointly by the Institute of Physics of the National Academy of Sciences of Ukraine, Ivan Franko National University of Lviv (Ukraine), University of Tartu (Estonia), University of Turin (Italy), and Pierre and Marie Curie University (France). Internationally recognized experts from a wide range of universities and research institutions share their knowledge and key results on topics ranging from nanooptics, nanoplasmonics, and interface studies to energy storage and biomedical applications. Presents cutting-edge advances in nanocomposites and carbon and silicon-based nanomaterials for a wide range of engineering and medical applications Covers fullerenes, nanocrystals, nanoceramics, and thin films Represents essential reading for advanced undergraduate and graduate students through practicing university and industry researchers.

Перейти: https://doi.org/10.1007/978-3-319-56422-7

Дод.точки доступу:
Fesenko, Olena. \ed.\; Yatsenko, Leonid. \ed.\; SpringerLink (Online service)
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19.


   
    Progress in Ultrafast Intense Laser Science XIII [[electronic resource] /] : монография / ed.: Yamanouchi, Kaoru., Hill III, Wendell T., Paulus, Gerhard G. - 1st ed. 2017. - [S. l. : s. n.]. - XIII, 223 p. 99 illus., 83 illus. in color. - Б. ц.
    Зміст:
Strong-Feld S-Matrix Series with Coulomb Wave Final State --
Multiconfiguration Methods for Time-Dependent Many-Electron Dynamics --
Controlling Coherent Quantum Nuclear Dynamics in LiH by Ultra Short IR Atto Pulses --
Probing Multiple Molecular Orbitals in an Orthogonally Polarized Two-color Laser Field --
Tracing Nonlinear Cluster Dynamics Induced by Intense XUV, NIR and MIR Laser Pulses --
Molecules in Bichromatic Circularly Polarized Laser Pulses: Electron Recollision and Harmonic Generation --
High Harmonic Phase Spectroscopy Using Long Wavelengths --
Strong-Field-Assisted Measurement of Near-Fields and Coherent Control of Photoemission at Nanometric Metal Tips --
Advanced Laser Facilities and Scientific Applications --
The Extreme Light Infrastructure – Attosecond Light Pulse Source (ELI-ALPS) Project.
Рубрики: Atoms.
   Physics.
   Lasers.
   Photonics.
   Physical chemistry.
   Microwaves.
   Optical engineering.
   Atoms and Molecules in Strong Fields, Laser Matter Interaction.
   Optics, Lasers, Photonics, Optical Devices.
   Physical Chemistry.
   Microwaves, RF and Optical Engineering.
Анотація: This thirteenth volume covers a broad range of topics from this interdisciplinary research field, focusing on atoms, molecules, and clusters interacting in intense laser field and high-order harmonics generation and their applications. The PUILS series delivers up-to-date reviews of progress in Ultrafast Intense Laser Science, the interdisciplinary research field spanning atomic and molecular physics, molecular science, and optical science, which has been stimulated by the recent developments in ultrafast laser technologies. Each volume compiles peer-reviewed articles authored by researchers at the forefront of each their own subfields of UILS. Every chapter opens with an overview of the topics to be discussed, so that researchers unfamiliar to the subfield, as well as graduate students, can grasp the importance and attractions of the research topic at hand; these are followed by reports of cutting-edge discoveries.   .

Перейти: https://doi.org/10.1007/978-3-319-64840-8

Дод.точки доступу:
Yamanouchi, Kaoru. \ed.\; Hill III, Wendell T. \ed.\; Paulus, Gerhard G. \ed.\; SpringerLink (Online service)
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20.


    Bertolotti, Mario.
    Evanescent Waves in Optics [[electronic resource] :] : an Introduction to Plasmonics / / Mario. Bertolotti, Sibilia, Concita., M. Guzman, Angela. ; . - 1st ed. 2017. - [S. l. : s. n.]. - IX, 259 p. 131 illus., 24 illus. in color. - Б. ц.
    Зміст:
Preface --
Chapter I Basic electromagnetics --
Chapter II Evanescent Waves --
Chapter III Evanescent Waves in Waveguides --
Chapter IV High resolution optical microscopes (in which evanescent waves play a role) --
Chapter V Plasmons --
Chapter VI Applications of plasmons --
Chapter VII Quantization of evanescent waves, surface plasmons and surface plasmon polaritons. .
Рубрики: Lasers.
   Photonics.
   Microwaves.
   Optical engineering.
   Quantum optics.
   Optics.
   Electrodynamics.
   Semiconductors.
   Optical materials.
   Electronic materials.
   Optics, Lasers, Photonics, Optical Devices.
   Microwaves, RF and Optical Engineering.
   Quantum Optics.
   Classical Electrodynamics.
   Semiconductors.
   Optical and Electronic Materials.
Анотація: This monograph provides an introductory discussion of evanescent waves and plasmons, describes their properties and uses, and shows how they are fundamental when operating with nanoscale optics. Far field optics is not suitable for the design, description, and operation of devices at this nanometre scale. Instead one must work with models based on near-field optics and surface evanescent waves. The new discipline of plasmonics has grown to encompass the generation and application of plasmons both as a travelling excitation in a nanostructure and as a stationary enhancement of the electrical field near metal nanosurfaces. The book begins with a brief review of the basic concepts of electromagnetism, then introduces evanescent waves through reflection and refraction, and shows how they appear in diffraction problems, before discussing the role that they play in optical waveguides and sensors. The application of evanescent waves in super-resolution devices is briefly presented, before plasmons are introduced. The surface plasmon polaritons (SPPs) are then treated, highlighting their potential applications also in ultra-compact circuitry. The book concludes with a discussion of the quantization of evanescent waves and quantum information processing. The book is intended for students and researchers who wish to enter the field or to have some insight into the matter. It is not a textbook but simply an introduction to more complete and in-depth discussions. The field of plasmonics has exploded in the last ten years, and most of the material treated in this book is scattered in original or review papers. A short comprehensive treatment is missing; this book is intended to provide just that.

Перейти: https://doi.org/10.1007/978-3-319-61261-4

Дод.точки доступу:
Sibilia, Concita.; M. Guzman, Angela.; Bertolotti, Mario. \.\; SpringerLink (Online service)
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