Showing total 113 results

1. Progress in Optomechatronic Technologies : Proceedings of International Symposium on Optomechatronic (2018)

Author

Amalia Martínez-García, Indrani Bhattacharya, Yukitoshi Otani, Rainer Tutsch, Amalia Martínez-García, Indrani Bhattacharya, Yukitoshi Otani, and Rainer Tutsch

Subjects

Lasers, Control engineering, Robotics, Automation, Mechanics, Applied, Atoms, Molecules

Abstract

This book gathers high-quality papers presented at the International Symposium on Optomechatronic Technology (ISOT 2018), which was organized by the International Society for Optomechatronics (ISOM) and Centro de Investigaciones en Óptica (CIO) in Cancun, Mexico on November 5–8, 2018. The respective papers address the evolution of optomechatronic devices and systems, and their implementation in problem-solving and various other applications. Moreover, they cover a broad range of topics at the interface of optical, mechanical and electrical technologies and methods.

Published

2019

2. Ultrafast Phenomena XI : Proceedings of the 11th International Conference, Garmisch-Partenkirchen, Germany, July 12–17, 1998

Author

Thomas Elsässer, James G. Fujimoto, Douwe A. Wiersma, Wolfgang Zinth, Thomas Elsässer, James G. Fujimoto, Douwe A. Wiersma, and Wolfgang Zinth

Subjects

Lasers, Quantum optics, Physical chemistry, Atoms, Molecules

Abstract

This volume contains papers presented at the Eleventh International Conference on Ultrafast Phenomena held at Garmisch-Partenkirchen, Germany, from July 12 to 17, 1998. The biannual Ultrafast Phenomena Conferences provide a forum for dis­ cussion of the latest advances in ultrafast optics and their applications in science and engineering. The Garmisch conference brought together a multidisciplinary group of 440 participants from 27 countries, including 127 students. The enthu­ siasm of this large number of Participants, the high quality of the papers they presented and the magnificent conference site resulted in a successful and pleasant conference. Progress was reported in the technology of generating ultrashort pulses, in­ cluding new techniques for improving laser-pulse duration, tunability over broad wavelength ranges, output power and peak intensity. Ultrafast spectroscopy con­ tinues to provide new insight into fundamental processes in physics, chemistry, biology, and engineering. In addition to analyzing ultrafast phenomena, control of ultrafast dynamics now represents an important topic. Ultrafast concepts and tech­ niques are being applied in imaging and microscopy, high speed optoelectronics, mat~rial diagnostics and processing, reflecting the maturing of the field. Acknowledgements. Many people contributed to the success of the conference.

Published

2012

3. Multiphoton Processes : Proceedings of the 3rd International Conference, Iraklion, Crete, Greece September 5–12, 1984

Author

P. Lambropoulos, S.J. Smith, P. Lambropoulos, and S.J. Smith

Subjects

Atoms, Molecules, Lasers

Abstract

The chapters of this volume represent the invited papers delivered at the 3rd International Conference on Multiphoton Processes (ICOMP III) held in Iraklion, Crete, Greece, September 5-11, 1984. The invited papers at a conference like ICOMP cannot possibly cover the whole field which has grown to immense proportions in recent years, overlapping with such diverse areas as atomic and molecular spectroscopy, plasma physics, nonlinear optics, quantum optics, etc. We believe these contributions represent that part of the research activity which has been attracting the most interest in the past year or so, as well as reviews of some of the more established topics. Even within this scope, and given the confines imposed by the fi­ nite duration of a conference, important and timely topics are inevitably left out. But then, there will be ICOMP IV. The collection of articles in this volume, combined with extensive ref­ erences to related work given by the authors, should provide an introduc­ tion to the major problems of the field and its state of the art. The chapters have been arranged according to thematic proximity, beginning with atoms, and continuing on with molecules and surfaces. This classi­ fication, however, would not cover all the subject matter even within the limited scope of the conference and of this volume.

Published

2012

4. X-Ray Lasers 2018 : Proceedings of the 16th International Conference on X-Ray Lasers

Author

Michaela Kozlová, Jaroslav Nejdl, Michaela Kozlová, and Jaroslav Nejdl

Subjects

Lasers, Electrodynamics, Atoms, Molecules

Abstract

These proceedings gather a selection of invited and contributed papers presented during the 16th International Conference on X-Ray Lasers (ICXRL 2018), held in Prague, Czech Republic, from 7 to 12 October 2018. The conference is part of an ongoing series dedicated to recent developments in the science and technology of X-ray lasers and other coherent X-ray sources, with an additional focus on supporting technologies, instrumentation and applications. The book highlights advances in a wide range of fields including laser and discharge-pumped plasma X-ray lasers, the injection and seeding of X-ray amplifiers, high-order harmonic generation and ultrafast phenomena, X-ray free electron lasers, novel schemes for (in)coherent XUV, X-ray and γ-ray generation, XUV and X-ray imaging, optics and metrology, X-rays and γ-rays for fundamental science, the practical implementation of X-ray lasers, XFELs and super-intense lasers, and the applications and industrial uses ofX-ray lasers.

Published

2020

5. Lasers, Spectroscopy and New Ideas : A Tribute to Arthur L. Schawlow

Author

William M. Yen, Marc D. Levenson, William M. Yen, and Marc D. Levenson

Subjects

Condensed matter, Spectrum analysis, Atoms, Molecules, Lasers

Abstract

This volume originated in a happy event honoring Arthur Schawlow on his 65th birthday. As a research physicist, Schawlow has been a major infiuence on the present nature of physics and of high technology. He has also had a role, through the American Physical Society and other organizations, in shaping policy for the world of physicists. Important as these professional activities have been, the contributions to this volume were not prepared just for these reasons, but more for Art Schawlow the friend, colleague, and teacher. I am one who has had the privilege of knowing and collaborating with Art, probably over a longer period of time than others participating in this volume, and in a number of different enterprises; his friendship and stimulating scientific abilities are a very significant part of my own life. It is hence a pleasure to take part in this volume celebrating his contributions to science and to scientists. Schawlow's career has been geographically centered at the University of Toronto, Columbia University, the Bell Telephone Laboratories, and Stan­ ford University. But, as is illustrated by the papers of this volume, its effects and his personal infiuence have diffused widely. In his own work, Art Schawlow is noted for thoughtful imagination, keen physical intuition, and what might be thought an interest in gadgets - not just any gadgets, but beautiful and innovative mechanisms or new techniques in which he charac­ teristically recognizes important potentials.

Published

2013

6. New Directions in Atomic Physics

Author

C.T. Whelan, Reiner M. Dreizler, J.H. Macek, H.R.J. Walters, C.T. Whelan, Reiner M. Dreizler, J.H. Macek, and H.R.J. Walters

Subjects

Atoms, Molecules, Mathematical physics, Lasers

Abstract

The last few years have seen some remarkable advances in the understanding of atomic phenomena. It is now possible to isolate atomic systems in traps, measure in coincidence the fragments of collision processes, routinely produce, and study multicharged ions. One can look at bulk matter in such a way that the fundamental atomic character is clearly evident and work has begun to tease out the properties of anti­ matter. The papers in this book reflect many aspects of modem Atomic Physics. They correspond to the invited talks at a conference dedicated to the study of'New Directions in Atomic Physics,'which took place in Magdalene College, Cambridge in July of 1998. The meeting was designed as a way of taking stock of what has been achieved and, it was hoped, as a means of stimulating new research in new areas, along new lines. Consequently, an effort was made to touch on as many directions as we could in the four days of the meeting. We included some talks which overviewed whole subfields, as well as quite a large number of research contributions. There is a unity to Physics and we tried to avoid any artificial division between theory and experiment. We had roughly the same number of talks from those who are primarily concerned with making measurements, and from those who spend their lives trying to develop the theory to describe the experiments.

Published

2012

7. Time in Quantum Mechanics

Author

J.G. Muga, R. Sala Mayato, I.L. Egusquiza, J.G. Muga, R. Sala Mayato, and I.L. Egusquiza

Subjects

Quantum physics, Spintronics, Quantum optics, Mathematical physics, Atoms, Molecules

Abstract

Time and quantum mechanics have, each of them separately, captivated s- entists and laymen alike, as shown by the abundance of popular publications on “time” or on the many quantum mysteries or paradoxes. We too have been seduced by these two topics, and in particular by their combination. Indeed, the treatment of time in quantum mechanics is one of the important and challenging open questions in the foundations of quantum theory. This book describes the problems, and the attempts and achievements in de?ning, formalizing and measuring di?erent time quantities in quantum theory, such as the parametric (clock) time, tunneling times, decay times, dwell times, delay times, arrival times or jump times. The theoretical analysis of several of these quantities has been controversial and is still subject to debate. For example, there are literally hundreds of research papers on the tunneling time. In fact, the standard recipe to link the observables and the formalism does not seem to apply, at least in an obvious manner, to time observables. This has posed the challenge of extending the domain of ordinary quantum mechanics.

Published

2003

8. Special Topics in Quantum Optics

Author

Weiping Zhang, Zeng-Bing Chen, Weiping Zhang, and Zeng-Bing Chen

Subjects

Quantum optics, Quantum computers, Quantum communication, Atoms, Molecules

Abstract

This book highlights quantum optics technologies that can revolutionize the way we encode, store, transmit, and handle information. These technologies can help us overcome bottlenecks in classical physics-based information technology in information transmission capacity, computing speed, and information security. The book provides readers with new perspectives on potential applications of the quantum theory. Besides, the book summaries the research advances in quantum optics and atom optics, including manipulation and construction of the quantum states of photons and even atoms, molecules, and matter at the quantum level, and new phenomena and technologies brought about by the interactions between photons and the quantum states of matter. The book provides extensive and thoroughly exhaustive coverage of quantum optics. It is suitable for researchers and graduate students of optical physics and quantum optics.

Published

2024

9. Springer Handbook of Atomic, Molecular, and Optical Physics

Author

Gordon W. F. Drake and Gordon W. F. Drake

Subjects

Atoms, Molecules, Optics, Optics--Handbooks, manuals, etc, Atoms--Handbooks, manuals, etc, Physics--Handbooks, manuals, etc, Molecules--Handbooks, manuals, etc

Abstract

This handbook comprises a comprehensive reference source that unifies the entire fields of atomic, molecular, and optical (AMO) physics, assembling the principal ideas, techniques and results of the field from atomic spectroscopy to applications to comets and global change. Its 91 chapters are written by over 100 authors, all leaders in their respective disciplines.Carefully edited to ensure a uniform coverage and style and with extensive cross references, together with a guide to the primary research literature, it is both a source of information and an inspiration for graduate students and other researchers new to the field. All chapters offer diagrams of apparatus, graphs, and tables of data.Twenty-seven years on since the Atomic, Molecular and Optical Physics Handbook was first published, and sixteen years since the publication of the revised Springer edition, the Springer AMO Physics Handbook has become a standard reference in the field, and a starting point for generations of graduate students. In recent years, there have been dramatic advances in many areas of AMO physics involving both fundamental changes and new applications in areas such as quantum information, ultracold atoms, and searches for dark matter. This new edition contains an expanded coverage of these rapidly emerging fields.

Published

2023

10. Learning and Robust Control in Quantum Technology

Author

Daoyi Dong, Ian R. Petersen, Daoyi Dong, and Ian R. Petersen

Subjects

System theory, Control theory, Control engineering, Quantum computing, Atoms, Molecules, Quantum optics, Quantum statistics

Abstract

This monograph provides a state-of-the-art treatment of learning and robust control in quantum technology. It presents a systematic investigation of control design and algorithm realisation for several classes of quantum systems using control-theoretic tools and machine-learning methods. The approaches rely heavily on examples and the authors cover:sliding mode control of quantum systems;control and classification of inhomogeneous quantum ensembles using sampling-based learning control;robust and optimal control design using machine-learning methods;robust stability of quantum systems; and H∞ and fault-tolerant control of quantum systems. Both theoretical algorithm design and potential practical applications are considered. Methods for enhancing robustness of performance are developed in the context of quantum state preparation, quantum gate construction, and ultrafast control of molecules.Researchers and graduates studying systems and control theory, quantum control, and quantum engineering, especially from backgrounds in electrical engineering, applied mathematics and quantum information will find Learning and Robust Control in Quantum Technology to be a valuable reference for the investigation of learning and robust control of quantum systems. The material contained in this book will also interest chemists and physicists working on chemical physics, quantum optics, and quantum information technology.

Published

2023

11. The Strontium Molecular Lattice Clock : Vibrational Spectroscopy with Hertz-Level Accuracy

Author

Kon H. Leung and Kon H. Leung

Subjects

Atoms, Molecules, Metrology, Molecular spectroscopy, Lasers, Measurement, Measuring instruments, Quantum chemistry

Abstract

This thesis describes how the rich internal degrees of freedom of molecules can be exploited to construct the first “clock” based on ultracold molecules, rather than atoms. By holding the molecules in an optical lattice trap, the vibrational clock is engineered to have a high oscillation quality factor, facilitating the full characterization of frequency shifts affecting the clock at the hertz level. The prototypical vibrational molecular clock is shown to have a systematic fractional uncertainty at the 14th decimal place, matching the performance of the earliest optical atomic lattice clocks. As part of this effort, deeply bound strontium dimers are coherently created, and ultracold collisions of these Van der Waals molecules are studied for the first time, revealing inelastic losses at the universal rate. The thesis reports one of the most accurate measurements of a molecule's vibrational transition frequency to date. The molecular clock lays the groundwork for explorations into terahertz metrology, quantum chemistry, and fundamental interactions at atomic length scales.

Published

2023

12. Photoelectron-Ion Correlation in Photoionization of a Hydrogen Molecule and Molecule-Photon Dynamics in a Cavity

Author

Takanori Nishi and Takanori Nishi

Subjects

Molecular dynamics, Quantum entanglement, Photonics, Atoms, Molecules

Abstract

This book presents the latest theoretical studies giving new predictions and interpretations on the quantum correlation in molecular dynamics induced by ultrashort laser pulses. The author quantifies the amount of correlation in terms of entanglement by employing methods developed in quantum information science, in particular applied to the photoionization of a hydrogen molecule. It is also revealed that the photoelectron–ion correlation affects the vibrational dynamics of the molecular ion and induces the attosecond-level time delay in the molecular vibration. Furthermore, the book also presents how molecular vibration can couple to photons in a plasmoic nanocavity.Physicists and chemists interested in the ultrafast molecular dynamics would be the most relevant readers. They can learn how we can employ the quantum-information-science tools to understand the correlation in the molecular dynamics and why we should consider the correlation between thephotoelectron and the molecular ion to describe the ion's dynamics. They can also learn how to treat a molecule coupled to photons in a nanocavity. All the topics are related to the state-of-the-art experiments, and so, it is important to publish these results to enhance the understanding and to induce new experiments to confirm the theory presented.

Published

2022

13. Quantum Network with Multiple Cold Atomic Ensembles

Author

Bo Jing and Bo Jing

Subjects

Quantum communication, Atoms, Molecules, Quantum entanglement, Quantum physics, Quantum optics

Abstract

This book highlights the novel research in quantum memory networking, especially quantum memories based on cold atomic ensembles. After discussing the frontiers of quantum networking research and building a DLCZ-type quantum memory with cold atomic ensemble, the author develops the ring cavity enhanced quantum memory and demonstrates a filter-free quantum memory, which significantly improves the photon-atom entanglement. The author then realizes for the first time the GHZ-type entanglement of three separate quantum memories, a building block of 2D quantum repeaters and quantum networks. The author also combines quantum memories and time-resolved measurements, and reports the first multiple interference of three single photons with different colors. The book is of good reference value for graduate students, researchers, and technical personnel in quantum information sciences.

Published

2022

14. Simple Atomic and Molecular Systems : New Results and Applications

Author

Eugene Oks and Eugene Oks

Subjects

Nuclear physics, Quantum theory, Atoms, Molecules

Abstract

Simple atoms are atoms consisting of no more than three particles. They are the test-bench of atomic physics and quantum mechanics. This book presents these findings, bridging the gap between textbook descriptions of these systems and the latest research. Counterintuitive phenomena in simple atomic and molecular systems are revealed, along with their fundamental importance and practical applications. These include the advanced methods for lasing in the infra-red and microwave ranges, the improved design of X-ray lasers, and advanced methods for spectroscopic diagnostics of plasmas. The analytical solutions of simple atoms and their role in theoretical physics is also discussed. The book is aimed at graduate students and researchers in the field of atomic and molecular physics. Key Features Presents a possible explanation of dark matter based on the existence of alternative hydrogen atomsExamines results on the shape of spectral lines of two-electron atoms and ionsDescribes the measuring nuclear shapes in atomic experimentsProvides advanced designs of plasma-based tunable X-ray lasersIncludes applications of spectroscopic diagnostics of plasmas

Published

2021

15. Progress in Ultrafast Intense Laser Science XVI

Author

Kaoru Yamanouchi, Katsumi Midorikawa, Luis Roso, Kaoru Yamanouchi, Katsumi Midorikawa, and Luis Roso

Subjects

Molecules, Photonics, Lasers, Atoms, Physical chemistry, Quantum theory

Abstract

This book covers a broad range of topics from the interdisciplinary research field of ultrafast intense laser science, focusing on atoms and molecules interacting with intense laser fields, laser-induced filamentation, high-order harmonics generation, and high power lasers and their applications. This sixteenth volume features contributions from world-renowned researchers, introducing the latest reports on probing molecular chirality with intense laser fields, and the most recent developments in the Shanghai Superintense Ultrafast Laser Facility project.The PUILS series delivers up-to-date reviews of progress in this emerging 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 of their own subfields of ultrafast intense laser science. Every chapter opens with an overview of the topics to be discussed, so that researchers unfamiliar to the subfield, especially graduate students, can grasp the importance and attractions of the research topic at hand; these are followed by reports of cutting-edge discoveries.

Published

2021

16. Advanced Quantum Mechanics : Materials and Photons

Author

Rainer Dick and Rainer Dick

Subjects

Condensed matter, Materials science, Quantum theory, Lasers, Physics, Atoms, Photonics

Abstract

This textbook, now in an expanded third edition, emphasizes the importance of advanced quantum mechanics for materials science and all experimental techniques which employ photon absorption, emission, or scattering. Important aspects of introductory quantum mechanics are covered in the first seven chapters to make the subject self-contained and accessible for a wide audience. Advanced Quantum Mechanics: Materials and Photons can therefore be used for advanced undergraduate courses and introductory graduate courses which are targeted towards students with diverse academic backgrounds from the Natural Sciences or Engineering. To enhance this inclusive aspect of making the subject as accessible as possible, introductions to Lagrangian mechanics and the covariant formulation of electrodynamics are provided in appendices. This third edition includes 60 new exercises, new and improved illustrations, and new material on interpretations of quantum mechanics. Other special features include an introduction to Lagrangian field theory and an integrated discussion of transition amplitudes with discrete or continuous initial or final states. Once students have acquired an understanding of basic quantum mechanics and classical field theory, canonical field quantization is easy. Furthermore, the integrated discussion of transition amplitudes naturally leads to the notions of transition probabilities, decay rates, absorption cross sections and scattering cross sections, which are important for all experimental techniques that use photon probes.

Published

2020

17. Optics, Photonics and Laser Technology 2018

Author

Paulo Ribeiro, Maria Raposo, Paulo Ribeiro, and Maria Raposo

Subjects

Lasers, Telecommunication, Optical materials, Atoms, Molecules, Electrodynamics

Abstract

This book includes both theoretical and practical aspects within optics, photonics and lasers. The book provides new methods, technologies, advanced prototypes, systems, tools and techniques as well as a general survey indicating future trends and directions. The main fields of this book are Optical scattering, plasmas technologies and simulation, photonic and optoelectronic sensors and devices, optical fiber sensing and monitoring, image detection and Imaging solid state lasers and fiber lasers, and optical amplifiers. A wide range of optical materials is covered, from semiconductor based optical materials, optical crystals and optical glasses.

Published

2020

18. Advances in Atomic, Molecular, and Optical Physics

Author

Susanne Yelin, Louis F. Dimauro, Hélène Perrin, Susanne Yelin, Louis F. Dimauro, and Hélène Perrin

Subjects

Physical optics, Molecules, Nuclear physics, Atoms

Abstract

Advances in Atomic, Molecular, and Optical Physics, Volume 68, provides a comprehensive compilation of recent developments in a field that is in a state of rapid growth, as new experimental and theoretical techniques are used on many problems, both old and new. Topics covered include related applied areas, such as atmospheric science, astrophysics, surface physics, and laser physics, with timely articles written by distinguished experts. Updates to this new release include sections on Nonlinear x-ray physics, High intensity QED, Rydberg THz spectroscopy, Ultrafast electron diffraction, Precision Interferometry for Gravitation-wave Detection: Current Status and Future Trends, and more. Presents the work of international experts in the field Contains comprehensive articles that compile recent developments in a field that is experiencing rapid growth, with new experimental and theoretical techniques emerging Ideal for users interested in optics, excitons, plasmas and thermodynamics Covers atmospheric science, astrophysics, and surface and laser physics, amongst other topics

Published

2019

19. Electromagnetic and Optical Pulse Propagation : Volume 1: Spectral Representations in Temporally Dispersive Media

Author

Kurt E. Oughstun and Kurt E. Oughstun

Subjects

Electrodynamics, Telecommunication, Lasers, Atoms, Molecules, Mathematical physics

Abstract

In two volumes, this book presents a detailed, systematic treatment of electromagnetics with application to the propagation of transient electromagnetic fields (including ultrawideband signals and ultrashort pulses) in dispersive absorptive media. This expanded, updated, and reorganized new edition presents a rigorous development of both time- and frequency-domain electromagnetics, from classical theory to current topics in applied research on temporally pulsed wave fields in dielectric, conducting, and semiconducting materials. With meaningful exercises throughout, it is suitable as a graduate textbook in electromagnetic wave theory and will be of use to researchers as a resource on electromagnetic radiation and wave propagation theory with applications to radar, imaging, communications, and safety issues.Volume 1 develops the fundamental Maxwell-Lorentz theory of microscopic electromagnetics and its relationship to macroscopic electromagnetics in complex media with particularemphasis given to temporally dispersive materials, supplemented with several appendices on mathematical methods. The second edition includes new material on conjugate electromagnetic fields, time-reversal invariance, the four-potential and Lorentz invariance, anisotropic and spatially dispersive media, double-negative metamaterials, and generalized Fresnel reflection and refraction coefficients for complex media. The relationship between both the mathematical and physical interpretation of classical electromagnetic field theory with the special theory of relativity is emphasized throughout the volume. Volume 2 covers temporal pulse dynamics in dispersive attenuative media, with asymptotic analysis at the forefront.

Published

2019

20. Electromagnetic and Optical Pulse Propagation : Volume 2: Temporal Pulse Dynamics in Dispersive Attenuative Media

Author

Kurt E. Oughstun and Kurt E. Oughstun

Subjects

Electrodynamics, Telecommunication, Lasers, Atoms, Molecules, Mathematical physics

Abstract

In two volumes, this book presents a detailed, systematic treatment of electromagnetics with application to the propagation of transient electromagnetic fields (including ultrawideband signals and ultrashort pulses) in dispersive attenuative media. The development in this expanded, updated, and reorganized new edition is mathematically rigorous, progressing from classical theory to the asymptotic description of pulsed wave fields in Debye and Lorentz model dielectrics, Drude model conductors, and composite model semiconductors. It will be of use to researchers as a resource on electromagnetic radiation and wave propagation theory with applications to ground and foliage penetrating radar, medical imaging, communications, and safety issues associated with ultrawideband pulsed fields. With meaningful exercises, and an authoritative selection of topics, it can also be used as a textbook to prepare graduate students for research. Volume 2 presents a detailed asymptotic description of plane wave pulse propagation in dielectric, conducting, and semiconducting materials as described by the classical Lorentz model of dielectric resonance, the Rocard-Powles-Debye model of orientational polarization, and the Drude model of metals. The rigorous description of the signal velocity of a pulse in a dispersive material is presented in connection with the question of superluminal pulse propagation. The second edition contains new material on the effects of spatial dispersion on precursor formation, and pulse transmission into a dispersive half space and into multilayered media. Volume 1 covers spectral representations in temporally dispersive media.

Published

2019

21. Fundamentals of Fiber Lasers and Fiber Amplifiers

Author

Vartan V. Ter-Mikirtychev and Vartan V. Ter-Mikirtychev

Subjects

Lasers, Telecommunication, Atoms, Molecules, Condensed matter, Biophysics

Abstract

This book covers the fundamental aspects of fiber lasers and fiber amplifiers, and includes a wide range of material from laser physics fundamentals to state-of-the-art topics in this rapidly growing field of quantum electronics. This expanded and updated new edition includes substantial new material on nonlinear frequency conversion and Raman fiber lasers and amplifiers, as well as an expanded list of references inclusive of the recent literature in the field. Emphasis is placed on the nonlinear processes taking place in fiber lasers and amplifiers, their similarities, differences to, and their advantages over other solid-state lasers. The reader will learn the basic principles of solid-state physics and optical spectroscopy of laser active centers in fibers, the main operational laser regimes, and will receive practical recommendations and suggestions on fiber laser research, laser applications, and laser product development. The book will be useful for students, researchers, and professional physicists and engineers who work with lasers in the optical and telecommunications field, as well as those in the chemical and biological industries.

Published

2019

22. Near-Field-Mediated Photon–Electron Interactions

Author

Nahid Talebi and Nahid Talebi

Subjects

Lasers, Spectrum analysis, Atoms, Molecules, Optical materials, Nanoscience

Abstract

This book focuses on the use of novel electron microscopy techniques to further our understanding of the physics behind electron–light interactions. It introduces and discusses the methodologies for advancing the field of electron microscopy towards a better control of electron dynamics with significantly improved temporal resolutions, and explores the burgeoning field of nanooptics – the physics of light–matter interaction at the nanoscale – whose practical applications transcend numerous fields such as energy conversion, control of chemical reactions, optically induced phase transitions, quantum cryptography, and data processing.In addition to describing analytical and numerical techniques for exploring the theoretical basis of electron–light interactions, the book showcases a number of relevant case studies, such as optical modes in gold tapers probed by electron beams and investigations of optical excitations in the topological insulator Bi2Se3. The experiments featured provide an impetus to develop more relevant theoretical models, benchmark current approximations, and even more characterization tools based on coherent electron–light interactions.

Published

2019

23. Progress in Photon Science : Recent Advances

Author

Kaoru Yamanouchi, Sergey Tunik, Vladimir Makarov, Kaoru Yamanouchi, Sergey Tunik, and Vladimir Makarov

Subjects

Atoms, Molecules, Lasers, Physical chemistry, Telecommunication

Abstract

This second volume of “Progress in Photon Science – Recent Advances” presents the latest achievements made by world-leading researchers in Russia and Japan. Thanks to recent advances in light source technologies; detection techniques for photons, electrons, and charged particles; and imaging technologies, the frontiers of photon science are now being expanding rapidly. Readers will be introduced to the latest research efforts in this rapidly growing research field through topics covering bioimaging and biological photochemistry, atomic and molecular phenomena in laser fields, laser–plasma interaction, advanced spectroscopy, electron scattering in laser fields, photochemistry on novel materials, solid-state spectroscopy, photoexcitation dynamics of nanostructures and clusters, and light propagation.

Published

2019

24. Progress in Ultrafast Intense Laser Science XIV

Author

Kaoru Yamanouchi, Philippe Martin, Marc Sentis, Li Ruxin, Didier Normand, Kaoru Yamanouchi, Philippe Martin, Marc Sentis, Li Ruxin, and Didier Normand

Subjects

Atoms, Molecules, Lasers, Physical chemistry, Telecommunication

Abstract

This 14th volume in the PUILS series presents up-to-date reviews of advances in Ultrafast Intense Laser Science, an interdisciplinary research field spanning atomic and molecular physics, molecular science, and optical science, which has been stimulated by the rapid developments in ultrafast laser technologies. Each chapter begins 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 appeal of the respective subject matter; this is followed by reports on cutting-edge discoveries. This volume covers a broad range of topics from this interdisciplinary field, e.g. atoms and molecules interacting in intense laser fields, laser-induced filamentation, high-order harmonics generation, and high-intensity lasers and their applications.

Published

2018

25. Advances in Atomic, Molecular, and Optical Physics

Author

Arimondo, E., DiMauro, Louis, Yelin, Susanne F., Arimondo, E., DiMauro, Louis, and Yelin, Susanne F.

Subjects

Physical optics, Molecules, Nuclear physics, Atoms

Abstract

Advances in Atomic, Molecular, and Optical Physics, Volume 67, provides a comprehensive compilation of recent developments in a field that is in a state of rapid growth. Topics covered include related applied areas, such as atmospheric science, astrophysics, surface physics, and laser physics, with timely articles written by distinguished experts that contain relevant review materials and detailed descriptions of important developments in the field. Presents the work of international experts in the field Contains comprehensive articles that compile recent developments in a field that is experiencing rapid growth, with new experimental and theoretical techniques emerging Ideal for users interested in optics, excitons, plasmas and thermodynamics Topics covered include atmospheric science, astrophysics, and surface and laser physics, amongst others

Published

2018

26. Neutral Atom Imaging Using a Pulsed Electromagnetic Lens

Author

Jamie Ryan Gardner and Jamie Ryan Gardner

Subjects

Spectrum analysis, Nanostructures, Microscopy, Atoms, Physics, Nanoscience, Matter

Abstract

This book describes the design, construction, and characterization of a new type of aberration-corrected, neutral-atom lens. Atom beam control plays a crucial role in many different fields, ranging from fundamental physics research and materials science to applied nanotechnology. Despite this, atom-optical elements like lenses and mirrors remain relatively underdeveloped compared to their counterparts in other optics fields. Although aberration correction is addressed quite comprehensively in photon and electron lenses, no credible research efforts have yet produced the same technology for neutral atoms.It reports on progress towards a neutral atom imaging device that will be useful in a range of applications, including nanofabrication and surface microscopy. It presents a novel technique for improving refractive power and correcting chromatic aberration in atom lenses based on a fundamental paradigm shift from continuous, two-dimensional focusing to a pulsed, three-dimensional approach. Simulations of this system suggest that it will pave the way towards the long-sought goal of true atom imaging on the nanoscale. The book further describes the construction of a prototype lens, and shows that all of the technological requirements for the proposed system are easily satisfied. Using metastable neon from a supersonic source, the prototype was characterized for three different focal lengths and a diverse range of apertures. Despite some manufacturing imperfections, lower distortion and higher resolution than has been shown in any previous hexapole lens was observed. Comparison with simulations corroborates the underlying theory and encourages further refinement of the process.

Published

2018

27. High-Energy-Density Physics : Foundation of Inertial Fusion and Experimental Astrophysics

Author

R Paul Drake and R Paul Drake

Subjects

Atoms, Molecules, Astrophysics, Plasma (Ionized gases), Electric power production, Lasers

Abstract

The raw numbers of high-energy-density physics are amazing: shock waves at hundreds of km/s (approaching a million km per hour), temperatures of millions of degrees, and pressures that exceed 100 million atmospheres. This title surveys the production of high-energy-density conditions, the fundamental plasma and hydrodynamic models that can describe them and the problem of scaling from the laboratory to the cosmos. Connections to astrophysics are discussed throughout. The book is intended to support coursework in high-energy-density physics, to meet the needs of new researchers in this field, and also to serve as a useful reference on the fundamentals. Specifically the book has been designed to enable academics in physics, astrophysics, applied physics and engineering departments to provide in a single-course, an introduction to fluid mechanics and radiative transfer, with dramatic applications in the field of high-energy-density systems. This second edition includes pedagogic improvements to the presentation throughout and additional material on equations of state, heat waves, and ionization fronts, as well as problem sets accompanied by solutions.

Published

2018

28. Semiconductor Lasers : Stability, Instability and Chaos

Author

Junji Ohtsubo and Junji Ohtsubo

Subjects

Electrodynamics, Semiconductors, Telecommunication, Atoms, Molecules, Lasers

Abstract

This book describes the fascinating recent advances made concerning the chaos, stability and instability of semiconductor lasers, and discusses their applications and future prospects in detail. It emphasizes the dynamics in semiconductor lasers by optical and electronic feedback, optical injection, and injection current modulation. Applications of semiconductor laser chaos, control and noise, and semiconductor lasers are also demonstrated.Semiconductor lasers with new structures, such as vertical-cavity surface-emitting lasers and broad-area semiconductor lasers, are intriguing and promising devices. Current topics include fast physical number generation using chaotic semiconductor lasers for secure communication, development of chaos, quantum-dot semiconductor lasers and quantum-cascade semiconductor lasers, and vertical-cavity surface-emitting lasers.This fourth edition has been significantly expanded to reflect the latest developments. The fundamental theory oflaser chaos and the chaotic dynamics in semiconductor lasers are discussed, but also for example the method of self-mixing interferometry in quantum-cascade lasers, which is indispensable in practical applications.Further, this edition covers chaos synchronization between two lasers and the application to secure optical communications. Another new topic is the consistency and synchronization property of many coupled semiconductor lasers in connection with the analogy of the dynamics between synaptic neurons and chaotic semiconductor lasers, which are compatible nonlinear dynamic elements. In particular, zero-lag synchronization between distant neurons plays a crucial role for information processing in the brain. Lastly, the book presents an application of the consistency and synchronization property in chaotic semiconductor lasers, namely a type of neuro-inspired information processing referred to as reservoir computing.

Published

2017

29. Advances in Atomic, Molecular, and Optical Physics

Author

Arimondo, E., Lin, Chun C., Yelin, Susanne F., Arimondo, E., Lin, Chun C., and Yelin, Susanne F.

Subjects

Nuclear physics, Atoms, Molecules

Abstract

Advances in Atomic, Molecular, and Optical Physics, Volume 66 provides a comprehensive compilation of recent developments in a field that is in a state of rapid growth. New to this volume are chapters devoted to 2D Coherent Spectroscopy of Electronic Transitions, Nonlinear and Quantum Optical Properties and Applications of Intense Twin-Beams, Non-classical Light Generation from III-V and Group-IV Solid-State Cavity Quantum Systems, Trapping Atoms with Radio Frequency Adiabatic Potentials, Quantum Control of Optomechanical Systems, and Efficient Description of Bose–Einstein Condensates in Time-Dependent Rotating Traps. With timely articles written by distinguished experts that contain relevant review materials and detailed descriptions of important developments in the field, this series is a must have for those interested in the variety of topics covered. Presents the work of international experts in the field Contains comprehensive articles that compile recent developments in a field that is experiencing rapid growth, with new experimental and theoretical techniques emerging Ideal for users interested in optics, excitons, plasmas, and thermodynamics Topics covered include atmospheric science, astrophysics, surface physics, and laser physics, amongst others

Published

2017

30. Cooperative Interactions in Lattices of Atomic Dipoles

Author

Robert Bettles and Robert Bettles

Subjects

Lattice theory, Dipole moments, Physics, Matter, Atoms

Abstract

This thesis reports the remarkable discovery that, by arranging the dipoles in an ordered array with particular spacings, it is possible to greatly enhance the cross-section and achieve a strong light-matter coupling (>98% of the incident light). It also discusses the broad background to cooperative behaviour in atomic ensembles, and analyses in detail effects in one- and two-dimensional atomic arrays. In general, when light interacts with matter it excites electric dipoles and since the nineteenth century it has been known that if the amplitude of these induced dipoles is sufficiently large, and their distance apart is on the scale of the wavelength of the light, then their mutual interaction significantly modifies the light–matter interaction. However, it was not known how to exploit this effect to modify the light–matter interaction in a desirable way, for example in order to enhance the optical cross-section.

Published

2017

31. Air Lasing

Author

Pavel Polynkin, Ya Cheng, Pavel Polynkin, and Ya Cheng

Subjects

Lasers, Spectrum analysis, Atmospheric science, Electrodynamics, Geographic information systems, Atoms, Molecules

Abstract

This book presents the first comprehensive, interdisciplinary review of the rapidly developing field of air lasing. In most applications of lasers, such as cutting and engraving, the laser source is brought to the point of service where the laser beam is needed to perform its function. However, in some important applications such as remote atmospheric sensing, placing the laser at a convenient location is not an option. Current sensing schemes rely on the detection of weak backscattering of ground-based, forward-propagating optical probes, and possess limited sensitivity. The concept of air lasing (or atmospheric lasing) relies on the idea that the constituents of the air itself can be used as an active laser medium, creating a backward-propagating, impulsive, laser-like radiation emanating from a remote location in the atmosphere. This book provides important insights into the current state of development of air lasing and its applications.

Published

2017

32. Advances Of Atoms And Molecules In Strong Laser Fields

Author

Yunquan Liu and Yunquan Liu

Subjects

Atoms, Molecules, Laser-plasma interactions, Laser manipulation (Nuclear physics), High power lasers, Laser pulses, Ultrashort

Abstract

This volume presents the latest advancements and future perspectives of atomic, molecular and optical (AMO) physics and its vital role in modern sciences and technologies. The chapters are devoted to a wide range of quantum systems, with an emphasis on the understanding of ionization, high-harmonic generation, molecular orbital imaging and coherent control phenomena originating from light-matter interactions. The book overviews current research landscape and highlight major scientific trends in AMO physics interfacing with interdisciplinary sciences. It may be particularly interesting for young researchers working on establishing their scientific interests and goals.

Published

2016

33. High-Energy Molecular Lasers : Self-Controlled Volume-Discharge Lasers and Applications

Author

V. V. Apollonov and V. V. Apollonov

Subjects

Lasers, Electrodynamics, Atoms, Molecules, Telecommunication

Abstract

This book displays the physics and design of high-power molecular lasers. The lasers described are self-controlled volume-discharge lasers. The book explains self-sustained discharge lasers, self-initiated discharge lasers and technical approaches to laser design. Important topics discussed are laser efficiency, laser beam quality and electric field homogeneity. The book contains many new innovative applications.

Published

2016

34. A Controlled Phase Gate Between a Single Atom and an Optical Photon

Author

Andreas Reiserer and Andreas Reiserer

Subjects

Atoms, Photons, Rubidium

Abstract

This thesis reports on major steps towards the realization of scalable quantum networks. It addresses the experimental implementation of a deterministic interaction mechanism between flying optical photons and a single trapped atom. In particular, it demonstrates the nondestructive detection of an optical photon. To this end, single rubidium atoms are trapped in a three-dimensional optical lattice at the center of an optical cavity in the strong coupling regime. Full control over the atomic state — its position, its motion, and its electronic state — is achieved with laser beams applied along the resonator and from the side. When faint laser pulses are reflected from the resonator, the combined atom-photon state acquires a state-dependent phase shift. In a first series of experiments, this is employed to nondestructively detect optical photons by measuring the atomic state after the reflection process. Then, quantum bits are encoded in the polarization of the laser pulse and in the Zeeman state of the atom. The state-dependent phase shift mediates a deterministic universal quantum gate between the atom and one or two successively reflected photons, which is used to generate entangled atom-photon, atom-photon-photon, and photon-photon states out of separable input states.

Published

2016

35. Annual Review Of Cold Atoms And Molecules - Volume 3

Author

Kirk W Madison, Kai Bongs, Lincoln D Carr, Ana Maria Rey, Hui Zhai, Kirk W Madison, Kai Bongs, Lincoln D Carr, Ana Maria Rey, and Hui Zhai

Subjects

Molecules, Atoms, Low temperatures, Quantum theory, Bose-Einstein condensation, Condensed matter

Abstract

The aim of this book is to contain review articles describing the latest theoretical and experimental developments in the field of cold atoms and molecules. Our hope is that this series will promote research by both highlighting recent breakthroughs and by outlining some of the most promising research directions in the field.

Published

2015

36. The Nonlinear Schrödinger Equation : Singular Solutions and Optical Collapse

Author

Gadi Fibich and Gadi Fibich

Subjects

Differential equations, Atoms, Molecules, Electrodynamics, Nonlinear Optics

Abstract

This book is an interdisciplinary introduction to optical collapse of laser beams, which is modelled by singular (blow-up) solutions of the nonlinear Schrödinger equation. With great care and detail, it develops the subject including the mathematical and physical background and the history of the subject. It combines rigorous analysis, asymptotic analysis, informal arguments, numerical simulations, physical modelling, and physical experiments. It repeatedly emphasizes the relations between these approaches, and the intuition behind the results. The Nonlinear Schrödinger Equation will be useful to graduate students and researchers in applied mathematics who are interested in singular solutions of partial differential equations, nonlinear optics and nonlinear waves, and to graduate students and researchers in physics and engineering who are interested in nonlinear optics and Bose-Einstein condensates. It can be used for courses on partial differential equations, nonlinear waves, and nonlinear optics. Gadi Fibich is a Professor of Applied Mathematics at Tel Aviv University.“This book provides a clear presentation of the nonlinear Schrodinger equation and its applications from various perspectives (rigorous analysis, informal analysis, and physics). It will be extremely useful for students and researchers who enter this field.”Frank Merle, Université de Cergy-Pontoise and Institut des Hautes Études Scientifiques, France

Published

2015

37. A Student's Guide Through the Great Physics Texts : Volume III: Electricity, Magnetism and Light

Author

Kerry Kuehn and Kerry Kuehn

Subjects

Physics—Philosophy, Science—Philosophy, Lasers, Atoms, Molecules

Abstract

This book provides a chronological introduction to the electromagnetic theory of light, using selected extracts from classic texts such as Gilbert's De Magnete, Franklin's Experiments and Observations on Electricity, and Huygens'Treatise on Light. Particular attention is given to the works of Faraday, Maxwell and Heaviside, scientists who unified the formerly separate disciplines of electricity, magnetism and light. Their electromagnetic theory—developed during the 19th century—would lead to the invention of modern radar, electrical power grids, and telecommunication networks.Each chapter of this book begins with a short introduction followed by a reading selection. Carefully crafted study questions draw out key points in the text and focus the reader's attention on the author's methods, analysis and conclusions. Numerical and laboratory exercises at the end of each chapter test the reader's ability to understand and apply key concepts from the text.Electricity, Magnetism and Light is the third of four volumes in A Student's Guide through the Great Physics Texts. This book grew out of a four-semester undergraduate physics curriculum designed to encourage a critical and circumspect approach to natural science while at the same time preparing students for advanced coursework in physics.This book is particularly suitable as a college-level textbook for students of the natural sciences, history or philosophy. It can also serve as a textbook for advanced high-school or home-schooled students, or as a thematically-organized source-book for scholars and motivated lay-readers. In studying the classic scientific texts included herein, the reader will be drawn toward a lifetime of contemplation.

Published

2015

38. Advances in Atomic, Molecular, and Optical Physics

Author

Ennio Arimondo, Chun C. Lin, Susanne Yelin, Ennio Arimondo, Chun C. Lin, and Susanne Yelin

Subjects

Physical optics, Molecules, Nuclear physics, Atoms

Abstract

Advances in Atomic, Molecular, and Optical Physics provides a comprehensive compilation of recent developments in a field that is in a state of rapid growth, as new experimental and theoretical techniques are used on many problems, both old and new. Topics covered include related applied areas, such as atmospheric science, astrophysics, surface physics, and laser physics, with timely articles written by distinguished experts that contain relevant review material and detailed descriptions of important developments in the field. Presents the work of international experts in the field Comprehensive articles compile recent developments in a field that is experiencing rapid growth, with new experimental and theoretical techniques emerging Ideal for users interested in optics, excitons, plasmas, and thermodynamics Topics covered include atmospheric science, astrophysics, surface physics, and laser physics, amongst others

Published

2015

39. Collective Atom–Light Interactions in Dense Atomic Vapours

Author

James Keaveney and James Keaveney

Subjects

Atoms, Light, Quantum optics

Abstract

The propagation of light in'dense media'where dipole-dipole interactions play a role is a fundamental topic that was first studied in the work of Clausius, Mossotti, Lorenz and Lorentz in the latter half of the nineteenth century. However, until recently there remained some areas of controversy: for example, whereas the Lorentz model for a gas predicts a resonance shift, a discrete dipole model does not. This thesis makes the first combined measurement of both the Lorentz shift and the associated collective Lamb shift. This clear experimental result stimulated new theoretical work that has significantly advanced our understanding of light propagation in interacting media.

Published

2014

40. Annual Review Of Cold Atoms And Molecules - Volume 2

Author

Kirk W Madison, Lincoln D Carr, Hui Zhai, Kai Bongs, Ana Maria Rey, Claude Cohen-tannoudji, Yiqiu Wang, Kirk W Madison, Lincoln D Carr, Hui Zhai, Kai Bongs, Ana Maria Rey, Claude Cohen-tannoudji, and Yiqiu Wang

Subjects

Bose-Einstein condensation, Quantum theory, Condensed matter, Low temperatures, Atoms, Molecules

Abstract

The aim of this book is to present review articles describing the latest theoretical and experimental developments in the field of cold atoms and molecules. Our hope is that this series will promote research by both highlighting recent breakthroughs and by outlining some of the most promising research directions in the field.

Published

2014

41. Planar Waveguides and Other Confined Geometries : Theory, Technology, Production, and Novel Applications

Author

Gerd Marowsky and Gerd Marowsky

Subjects

Lasers, Telecommunication, Optical materials, Atoms, Molecules, Electrodynamics

Abstract

This book provides a comprehensive overview of the theoretical concepts and experimental applications of planar waveguides and other confined geometries, such as optical fibres. Covering a broad array of advanced topics, it begins with a sophisticated discussion of planar waveguide theory, and covers subjects including efficient production of planar waveguides, materials selection, nonlinear effects, and applications including species analytics down to single-molecule identification, and thermo-optical switching using planar waveguides. Written by specialists in the techniques and applications covered, this book will be a useful resource for advanced graduate students and researchers studying planar waveguides and optical fibers.

Published

2014

42. Advances in Atomic, Molecular, and Optical Physics

Author

Paul R. Berman, Ennio Arimondo, Chun C. Lin, Paul R. Berman, Ennio Arimondo, and Chun C. Lin

Subjects

Optics, Molecules, Atoms

Abstract

Advances in Atomic, Molecular, and Optical Physics publishes reviews of recent developments in a field that is in a state of rapid growth, as new experimental and theoretical techniques are used on many old and new problems. Topics covered include related applied areas, such as atmospheric science, astrophysics, surface physics and laser physics. Articles are written by distinguished experts and contain relevant review material and detailed descriptions of important recent developments. International experts Comprehensive articles New developments

Published

2014

43. Excimer Lasers

Author

C.K. Rhodes and C.K. Rhodes

Subjects

Lasers, Quantum optics, Atoms, Molecules

Abstract

The development of excimer laser systems marked a significant turning point in the development of coherent sources. The progress of the last few years has been largely predicated upon the combined knowledge of several disciplines including atomic and molecular physics, optical technology, and pulsed power technology, the latter mainly associated with electron beam devices. The purpose of this volume is to provide a comprehensive view of this marvelously exciting field that will be of value to both active researchers and neophytes alike. Since a clear understanding of both theory and experiment is necessary to achieve this goal, these issues are presented as an integrated whole. The preparation of this work involved the dedicated cooperation of many authors dispersed both geographically and intellectually. Naturally, the editor has the responsibility to integrate and balance a diverse range of opinions to the satisfaction of all, a job not always readily accomplished. We hope that this has been performed to the satisfaction of the reader. The editor wishes to express his gratitude to the many persons whose efforts made this book possible. Most important are the authors whose work constitutes the backbone and substance of this volume and whose normal professional lives are very busy ones, indeed. I can say that they worked diligently and with good humor in the preparation of their contributions.

Published

2013

44. Laser Spectroscopy : Basic Concepts and Instrumentation

Author

Wolfgang Demtröder, Mack Roach III, Wolfgang Demtröder, and Mack Roach III

Subjects

Lasers, Atoms, Molecules

Abstract

Keeping abreast of the latest techniques and applications, this new edition of the standard reference and graduate text on laser spectroscopy has been completely revised and expanded. While the general concept is unchanged, the new edition features a broad array of new material, e.g., frequency doubling in external cavities, reliable cw-parametric oscillators, tunable narrow-band UV sources, more sensitive detection techniques, tunable femtosecond and sub-femtosecond lasers (X-ray region and the attosecond range), control of atomic and molecular excitations, frequency combs able to synchronize independent femtosecond lasers, coherent matter waves, and still more applications in chemical analysis, medical diagnostics, and engineering.

Published

2013

45. Advances in Atomic, Molecular, and Optical Physics

Author

Paul R. Berman, Ennio Arimondo, Chun C. Lin, Paul R. Berman, Ennio Arimondo, and Chun C. Lin

Subjects

Molecules, Nuclear physics, Atoms, Physical optics

Abstract

Advances in Atomic, Molecular, and Optical Physics publishes reviews of recent developments in a field that is in a state of rapid growth, as new experimental and theoretical techniques are used on many old and new problems. Topics covered include related applied areas, such as atmospheric science, astrophysics, surface physics and laser physics. Articles are written by distinguished experts and contain relevant review material and detailed descriptions of important recent developments. International experts Comprehensive articles New developments

Published

2013

46. Laser Physics at Relativistic Intensities

Author

A.V. Borovsky, A.L. Galkin, O.B. Shiryaev, T. Auguste, A.V. Borovsky, A.L. Galkin, O.B. Shiryaev, and T. Auguste

Subjects

Electrodynamics, Lasers, Quantum optics, Atoms, Molecules

Abstract

One of the major accomplishments of laser technology that took place dur­ ing the last 15 years is the possibility of generating coherent radiation that 18 can be focused so that its intensity reaches the magnitude of 10 W/ern'. Even higher intensities result from nonlinear self-focusing of such radiation in matter. The unique character of these magnitudes is illustrated by the fact that these intensities are substantially higher than those occurring inside the Sun. A range of previously unexplored physical mechanisms come into playas laser pulses interact with matter under the conditions of an extreme concen­ tration of laser energy. In particular, free electrons of plasma formed by rapid nonlinear ionization of gases and solid targets during the pulse rise time are driven by a laser radiation electric field at velocities comparable to the speed of light, and the corresponding relativistic increase in their masses entails a modification of the plasma's optical properties. Laser radiation intensities at which the above effect occurs are called relativistic. This book is intended to provide an introduction to the field of laser physics at relativistic intensities. Extensive theoretical and experimental studies have been performed in this area in the last decade. At present, laser physics at relativistic intensities can be considered a new and rapidly evolving area of modern physics. Impor­ tant basic new phenomena and concepts of applications are associated with it, among them relativistic and charge-displacement self-channeling, wake­ field particle acceleration, generation of free electron harmonics and X-rays, and fast ignition.

Published

2013

47. Structure and Properties of Aperiodic Materials

Author

Yoshiyuki Kawazoe, Yoshio Waseda, Yoshiyuki Kawazoe, and Yoshio Waseda

Subjects

Condensed matter, Spectrum analysis, Atoms, Molecules, Lasers, Materials—Analysis

Abstract

The past few decades have witnessed remarkable growth and progress in our knowledge concerning the structure and properties of aperiodic systems at a microscopic level. The present volume provides a timely overview of the current state of the art on the structure, electronic and magnetic properties of aperiodic materials, including structural inhomogeniety. It also describes the theoretical calculation methodology. The subject is approached both from the basic science and the applied engineering points of view. Many references, illustrations and tables assist specialists and non-specialists alike to gain access to the growing body of essential information.

Published

2013

48. Ultrafast Hydrogen Bonding Dynamics and Proton Transfer Processes in the Condensed Phase

Author

Thomas Elsaesser, H.J. Becker, Thomas Elsaesser, and H.J. Becker

Subjects

Physical chemistry, Atoms, Molecules, Lasers

Abstract

Hydrogen bonds represent type of molecular interaction that determines the structure and function of a large variety of molecular systems. The elementary dynamics of hydrogen bonds and related proton transfer reactions, both occurring in the ultra fast time domain between 10-14 and 10-11s, form a research topic of high current interest. In this book addressing scientists and graduate students in physics, chemistry and biology, the ultra fast dynamics of hydrogen bonds and proton transfer in the condensed phase are reviewed by leading scientists, documenting the state of the art in this exciting field from the viewpoint of theory and experiment. The nonequilibrium behavior of hydrogen-bonded liquids and intramolecular hydrogen bonds as well as photo induced hydrogen and proton transfer are covered in 7 chapters, making reference to the most recent literature.

Published

2013

49. Theoretical Atomic Physics

Author

Harald Siegfried Friedrich and Harald Siegfried Friedrich

Subjects

Atoms, Molecules, Lasers

Abstract

Atomic physics is a pioneering discipline at the forefront of theoretical and experimental physics. It has played a major role in advancing our understanding of chaotic systems. The 1997 Nobel Prize in Physics was awarded for progress in cooling atoms to extremely low temperatures. This new edition of Theoretical Atomic Physics takes into account recent developments and includes sections on semiclassical periodic orbit theory, scaling properties for atoms in external fields, threshold behaviour of ionization cross sections, classical and quantum dynamics of two-electron atoms, and Bose-Einstein condensation of atomic gases. Moreover, for students there are 48 problems with complete solutions which makes this course the most thorough introduction to the field available.

Published

2013

50. Advances in Atomic, Molecular, and Optical Physics

Author

Arimondo, E., Lin, Chun, Yelin, Susanne F., Arimondo, E., Lin, Chun, and Yelin, Susanne F.

Subjects

Atoms, Nuclear physics, Molecules, Physical optics

Abstract

Advances in Atomic, Molecular, and Optical Physics provides a comprehensive compilation of recent developments in a field that is in a state of rapid growth, as new experimental and theoretical techniques are used on many problems, both old and new. Topics covered include related applied areas, such as atmospheric science, astrophysics, surface physics, and laser physics, with timely articles written by distinguished experts that contain relevant review material and detailed descriptions of important developments in the field. Presents the work of international experts in the field Comprehensive articles compile recent developments in a field that is experiencing rapid growth, with new experimental and theoretical techniques emerging Ideal for users interested in optics, excitons, plasmas, and thermodynamics Topics covered include atmospheric science, astrophysics, surface physics, and laser physics, amongst others

Published

2013