Your search keyword '"MOLECULES"' showing total 480 results

1. Relativistic Effects in Interatomic Ionization Processes and Formation of Antimatter Ions in Interatomic Attachment Reactions

Author

Andreas Jacob and Andreas Jacob

Subjects

Atoms, Molecules, Microclusters

Abstract

Interatomic energy transfer phenomena caused by efficient long-range electron correlations are among the most studied processes in atomic physics today. They can provide important insights into the interaction dynamics of single atomic species with their environment in more complex systems. Part I of this book covers fundamental aspects of two interatomic ionization processes relying on the efficient transfer of electronic energy via long-range electron correlations between two spatially well-separated atomic species with an emphasis on the influence of relativistic effects on ionization. Part II of this book deals with an application of interatomic energy transfer in antimatter physics, investigating attachment mechanisms for the production of substantial amounts of the positive ion of antihydrogen in view of experiments on the free-fall of antihydrogen currently planned at CERN.

Published

2024

2. Guidebook to Real Time Electron Dynamics : Irradiation Dynamics From Molecules to Nanoclusters

Author

Jorge Kohanoff, Paul-Gerhard Reinhard, Lorenzo Stella, Eric Suraud, Jorge Kohanoff, Paul-Gerhard Reinhard, Lorenzo Stella, and Eric Suraud

Subjects

Molecules, Irradiation, Electrons--Emission, Particles (Nuclear physics)

Abstract

This practical book presents an overview of the various approaches developed to understand the dynamics of electronic systems in physics and chemistry. It also illustrates typical application examples, namely atoms, molecules, and clusters such as nano objects. For each system, the book reviews its key features and concepts and also provides a wider perspective on other physical systems such as atomic nuclei and quantum dots.There exist a large number of theories adapted to specific physical situations (both in space and time), but there is not yet a common theory for all possible dynamical scenarios. This book provides a general perspective on the topic, supplying the reader with a guidebook to navigate the wide spectrum of approaches.It provides an overview of available theories to address various problems in the irradiation of finite systems, discussing the possibilities and limitations of the available theories to help readers understand the applicability of a given theory or set of theories to address a given physical problem or chemical situation.It is an ideal guide for graduate students and researchers in physics and chemistry.Key Features: Presents a critical survey of available theoretical tools to help readers choose the appropriate method or approach for any given physical situations Accessible, with an emphasis on avoiding details of formal and technical difficulties Provides a guided tour based on typical examples starting from the actual physical situation down to actual tools to be used to describe it

Published

2024

3. Handbook of Liquid Crystals—Volume II : Advanced Aspects and Applications

Author

Shri Singh and Shri Singh

Subjects

Liquid crystals, Optical materials, Mathematical physics, Computer simulation, Molecules, Polymers, Nanotechnology

Abstract

This expert and self-contained authored handbook provides comprehensive coverage of liquid crystals from the fundamental materials science, physics, and modeling through cutting-edge applications. Written by an author with over 40 years of active experience in this growing field, it offers an unprecedented self-contained treatment of this key research area.Liquid Crystals are a state of matter sharing properties that are usually associated with both solids and liquids. Their study belongs to wider field of soft condensed matter physics, an area growing in importance because of the new physics being discovered and the possibilities of various technological applications being developed. Liquid crystals continue to have a revolutionary technological impact and consistently pose new challenges of basic understanding. While the experimental side of liquid crystal research is very well developed, theoretical understanding has lagged, and this volume fills a gap in the published literature in terms of rigorous treatment of mathematical and computer modeling approaches.Volume II of this handbook deals with advanced aspects of liquid crystals and their applications, covering computer simulations of phase transitions in liquid crystals, liquid crystals of biomolecules, and defect textures in liquid crystals. Overall, this handbook serves as the ultimate scholarly guide for researchers, scientists, and engineers seeking to unlock the full potential of liquid crystals. It offers a comprehensive understanding of these materials and their diverse applications, empowering readers to navigate the complex intricacies of liquid crystal science and technology.

Published

2024

4. Particle Confinement in Penning Traps : An Introduction

Author

Manuel Vogel and Manuel Vogel

Subjects

Atoms, Molecules, Measurement, Measuring instruments, Spectrum analysis, Nuclear physics

Abstract

This second edition is an updated and extended introduction to the world of Penning traps and provides an overview of the field, particularly for those entering it. The book presents the basics of Penning traps from a fundamental and applied point of view and discusses the variety of methods, technologies and their applications to experiments, particularly in the field of precision spectroscopy across all frequency ranges. The book is written from an experimentalist's point of view, it includes numerous new illustrations and updated references to the available literature to ensure a high degree of breadth and accessibility.The new edition provides, for instance, a new chapter on particle temperature and cooling, new sections on particle dynamics, g-factor measurements, space charge as a confinement limitation, space charge and resonant particle loss, as well as a section on particle loss mechanisms.

Published

2024

5. Analytical Molecular Dynamics of Amorphous Condensed Matter : Thermal and Non-equilibrium Response Behavior

Author

José Joaquim Costa Cruz Pinto, José Reinas dos Santos André, José Joaquim Costa Cruz Pinto, and José Reinas dos Santos André

Subjects

Condensed matter, Atoms, Molecules, Materials—Analysis

Abstract

The book provides a detailed quantitative study and characterization of the physics of the thermal and viscoelastic behavior of mainly amorphous materials, and addresses a readership of both undergraduate (Part I and the two first chapters of Part II) and graduate students and junior researchers (Parts II and III). Though the discussion and examples concentrate on polymer materials, Part II illustrates the potential universality of the proposed most recent treatment – a Cooperative Theory of Materials Dynamics (CTMD) – and its ability to portray the 11 major physical characteristics of the materials'behavior by an alternative view of the thermal equilibrium and non-equilibrium dynamics at the'micro-scale', the still challenging problem of the glass transition and glass transition temperature, how partial crosslinking or crystallization limits the response, the expected impact of molecular packing, and of a few other open challenges. Part III discusses three specific domains where new applications and extensions of CTMD might be explored, while three Appendixes collect a few quantitative details and extensions of the treatment.

Published

2024

6. 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

7. Advances in Methods and Applications of Quantum Systems in Chemistry, Physics, and Biology : Selected Proceedings of QSCP-XXV Conference (Toruń, Poland, June 2022)

Author

Ireneusz Grabowski, Karolina Słowik, Jean Maruani, Erkki J. Brändas, Ireneusz Grabowski, Karolina Słowik, Jean Maruani, and Erkki J. Brändas

Subjects

Chemistry, Physical and theoretical, Chemistry—Data processing, Quantum chemistry, Atoms, Molecules, Molecular dynamics

Abstract

This book contains peer-reviewed contributions based on talks presented at the 25th International Workshop on Quantum Systems in Chemistry, Physics, and Biology held in Toruń, Poland, in June 2022. The book reviews significant advances in concepts, methods, and applications of quantum systems in a broad variety of areas in modern chemistry, physics, and biology. In particular, it discusses atomic, molecular, and solid state structure, dynamics and spectroscopy, relativistic and correlation effects in quantum chemistry, topics of computational chemistry, physics, and biology, as well as applications of theoretical chemistry and physics in advanced molecular and nano-materials and biochemical systems. This book is aimed at advanced graduate students, academics, and researchers, both in university and corporation laboratories, interested in state of the art and novel trends in quantum chemistry, physics, and biology, and their applications.

Published

2024

8. Quantum Mechanics for Material Science : An Introduction

Author

Gianluca Stefanucci and Gianluca Stefanucci

Subjects

Quantum physics, Materials science, Atoms, Molecules

Abstract

This book is based on the course'Elements of Theoretical Physics,'which the author has been teaching at the University of Rome Tor Vergata since 2017. It serves as an introduction to quantum mechanics, providing students with essential concepts and tools for future lessons, while still maintaining a comprehensive approach without relying heavily on the level of abstraction and mathematical rigor typically found in Physics programs. Understanding this book only requires knowledge of the mathematical concepts taught in the first two years of basic courses. The bachelor's degree program in Materials Science aims to train students with an interdisciplinary background in physics, chemistry, and engineering. While the study of quantum mechanics is essential, the same level of depth, abstraction, and mathematical rigor as in a Physics degree program is not a requirement. Unfortunately, most textbooks on Quantum Mechanics are geared toward Physics students, making it difficult to find suitable resources for Materials Science students. To make learning easier, the author has chosen not to refer students to various textbooks for different topics. Instead, he has created handouts that have evolved into a condensed textbook on quantum mechanics specifically tailored to the needs of the Materials Science program.

Published

2024

9. Progress in Ultrafast Intense Laser Science XVII

Author

Kaoru Yamanouchi, Louis F. DiMauro, Wendell T. Hill, III, Kaoru Yamanouchi, Louis F. DiMauro, and Wendell T. Hill, III

Subjects

X-ray spectroscopy, Lasers, Quantum electrodynamics, Atoms, Molecules, Quantum computers

Abstract

This book covers a broad range of interdisciplinary topics, focusing on atoms and molecules in intense laser fields, excitation processes in intense laser fields, photonics and materials, high-order harmonics generation, XFEL, high-power lasers and their applications, and quantum computing. This seventeenth volume features contributions from world-renowned researchers on topics such as applications of attosecond and femtosecond laser pulses, coherence and dynamics in quantum systems, and applications of super-intense laser fields.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 with 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

2024

10. Molecular Properties Via Induced Current Densities

Author

Francesco Ferdinando Summa and Francesco Ferdinando Summa

Subjects

Chemistry, Physical and theoretical, Chemistry—Data processing, Atoms, Molecules, Quantum physics, Physical chemistry, Molecules—Models

Abstract

This book outlines past and new developments in molecular response theory in terms of static and dynamic-induced current densities and showcases an important step forward in the field of molecular density functions and their topological analysis. The book begins with a general perspective on topics such as classical Hamiltonian, quantum mechanical Hamiltonian, and topological analysis of the electron charge density, followed by an in-depth overview of time-dependent and -independent perturbations, and applications. In this book, the author presents a completely new approach that allows the interpretation of electric and magnetic properties through origin-independent density functions. Readers will also find examples of how the new origin-independent density functions are useful for rationalizing the chemical behavior of molecules interacting with impinging radiation. The concepts contained within the book are the basis for a deeper understanding of Nuclear magnetic resonance (NMR) and Electron paramagnetic resonance (EPR) spectroscopies, as well as the mechanisms that give rise to electric polarization and optical activity in chiral systems. A basic knowledge of quantum mechanics and ab initio electronic structure calculation methods such as Hartree-Fock and Density Functional Theory is required. Given its breadth, the book provides an important contribution to the field of Quantum Chemical Topology and appeals to students and researchers interested in learning more about the relationship between electrical and magnetic properties, density functions derivable from them and experimental observables.

Published

2024

11. 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

12. European Conference on Laboratory Astrophysics ECLA2020 : The Interplay of Dust, Ice, and Gas in Space

Author

Vito Mennella, Christine Joblin, Vito Mennella, and Christine Joblin

Subjects

Astrophysics, Astronomy, Cosmochemistry, Atoms, Molecules

Abstract

This volume contains the proceedings of a conference on laboratory astrophysics, which gathered a broad interdisciplinary community of astrophysicists, physicists, chemists, and geophysicists. It provides an update on outstanding results in this research field, the presentation of new laboratory developments, and the recent and expected to come space missions and other astronomical observatories with their specific needs for laboratory and theoretical studies.​Understanding the interplay between dust, ice, and gas during the star lifecycle as well as in planet forming regions and the Solar System is a vast topic in relation with space exploration and astronomical observations. It also strongly relies on laboratory astrophysics activities and chemical modelling in order to simulate the formation and evolution of matter in space. This book provides researchers and graduate students with a valuable account of the current state of this fascinating discipline.

Published

2023

13. 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

14. The Fundamentals of Newtonian Mechanics : For an Introductory Approach to Modern Physics

Author

Maurizio Spurio and Maurizio Spurio

Subjects

Mechanics, Gravitation, Atoms, Molecules

Abstract

Classical mechanics is the basis for any university-level study of technical-scientific disciplines. But most existing manuals use a technological and engineering approach, with basic aspects sometimes insufficiently highlighted. This book introduces the concepts and applications of classical mechanics into Newtonian formalism. Newtonian dynamics is useful for solving applied physics and engineering problems, but also a fascinating theory anchored in questions posed since the times of the Greek philosophers, regarding space, the flow of time, measurable physical quantities, the physical principles with the mathematical structure needed to describe the Universe, etc. The author aims to encourage students to think about these fundamental aspects and how they will be addressed in modern physics, including the successes and limitations of Newton's mechanics. The book is designed to mirror the progress of the students using it, with earlier chapters assuming nomore than basic high school instruction and later ones geared toward subsequent enhanced understanding. The book is designed for students of undergraduate programs in physics, mathematics, chemistry, and engineering who will deal with modern physics, as they will benefit from an approach in which the aspects of classical mechanics are introduced in a propaedeutic approach towards relativistic physics and quantum mechanics.

Published

2023

15. Simple Chemical Methods for Thin Film Deposition : Synthesis and Applications

Author

Babasaheb R. Sankapal, Ahmed Ennaoui, Ram B. Gupta, Chandrakant D. Lokhande, Babasaheb R. Sankapal, Ahmed Ennaoui, Ram B. Gupta, and Chandrakant D. Lokhande

Subjects

Ions, Nanoscience, Molecules

Abstract

This book explores chemical methods for thin film deposition with diverse nanostructured morphology and their applications. Unlike top-down techniques, chemical methods offer low cost, simplicity, and growth of nanostructured surface architecture with ease of small to large-scale area deposition. The book primarily focuses on innovative twelve chemical methods for thin-film deposition on one platform. Since each method has its own advantages and disadvantages, it is crucial to select the specific method for specific material to be deposited depending upon what type of application is targeted. Due to inclusive of diverse chemical deposition methods, researcher will have knowledge about best choice of the deposition method to be adopted. Inclusive methods discussed in the book are chemical bath deposition, successive ionic layer adsorption and reaction, ion exchange, electroless deposition, electrodeposition, hydrothermal, spray pyrolysis, spin coating, dip coating, doctor blade, screenprinting, and sol-gel.The selection of the correct procedure for material to be deposited in thin film form depends on its unique process parameters based on the kind of application and its requirement. The role of preparative factors necessary for thin film alters properties related to structure and surface morphology, electrical conductivity and optical band gap which have been extensively discussed along with the underlying science of film synthesis. The book provides a comprehensive overview of the field of chemical methods for thin film synthesis to applications. In addition to synthesis, the book covers characterization, instrumentation, and industrial application of thin films. As a result, concentrated techniques will be of great interest to university/college professors, students and new engineers as well as postdocs and scientists in the area.

Published

2023

16. Problems in Classical Electromagnetism : 203 Exercises with Solutions

Author

Andrea Macchi, Giovanni Moruzzi, Francesco Pegoraro, Andrea Macchi, Giovanni Moruzzi, and Francesco Pegoraro

Subjects

Electrodynamics, Atoms, Molecules, Telecommunication, Mathematical physics

Abstract

This second edition adds 46 new problems, for a total of 203. The solutions to certain “old” problems have been revised for improved clarity, in response to questions and comments from our students (second-year students in the Master's in Physics program). Each problem is given a title indicating its relation to the various areas of physics or technology. By tackling the problems presented here, students are gently introduced to advanced topics such as unipolar and homopolar motors, magnetic monopoles, radiation pressure, angular momentum of light, bulk and surface plasmons, and radiation friction. We also address a number of tricky concepts and apparent ambiguities and paradoxes encountered in the classical theory of electromagnetism, with a particular focus on conservation laws and transformation properties between different frames of reference. At the same time, the book can be used as an introduction to applications of classical electromagnetism including cutting-edge topics like plasmonics, metamaterials, and light-driven propulsion. While unnecessary mathematical complexity is avoided, the new edition also provides a few introductory examples concerning elegant and powerful solution techniques. Hopefully the second edition offers an even better teaching tool for undergraduates in physics, mathematics, and electric engineering, and a valuable reference guide for students planning to work in optics, material science, electronics, and plasma physics.

Published

2023

17. Synthetic Molecular Sequences in Materials Science

Author

Kentaro Tashiro and Kentaro Tashiro

Subjects

Supramolecular chemistry, Molecules, Chemistry, Polymers, Materials

Abstract

This monograph shares a newly emerging point of view among researchers and students in the field of materials science. Inspired by the presence of precisely determined molecular-level sequence structures in a wide range of biomolecules, a growing number of synthetic compounds with the same structural feature are appearing day by day. These examples in the interdisciplinary areas of materials science are collected in this monograph to provide readers with a good understanding of the state-of-the-art accessible structural level, characteristic features, and future potentials of these types of compounds. The major target audience of this monograph include Ph.D. students and researchers who have just begun their careers, who are seeking novel research directions, ideas, and inspiration. Among the diverse examples of synthetic molecular sequences referred to in the monograph, experienced experts can also find work that is informative and relevant to their own research, making the book worthwhile reading for these specialists.

Published

2023

18. 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

19. Graphene : From Theory to Applications

Author

Tianrong Zhang and Tianrong Zhang

Subjects

Graphene, Molecules, Atoms, Materials science, Condensed matter, Nanoscience, Nanotechnology

Abstract

This book highlights a comprehensive introduction of graphene and graphene-based two-dimensional nanomaterials, covering topics from their atomic structures, electronic band structures, and fundamental properties to technological applications. The book provides fundamental physics knowledge covering quantum mechanics, the theory of relativity, solid-state physics, and topology geometry necessary to understand electronic band structure of graphene. Other topics including microscopy techniques and preparation methods of graphene are also presented. Adopting an easy-to-read style, the book is a valuable resource for researchers in physics, chemistry, materials science, and engineers who are interested in the field of graphene-based nanomaterials.

Published

2022

20. The Fundamental Principles of Physics: From Atom to Molecule

Author

Paul Blaise, Author, Olivier Henri-Rousseau, Author, Paul Blaise, Author, and Olivier Henri-Rousseau, Author

Subjects

Nuclear physics, Molecules, Atoms

Abstract

Starting from the fundamental constituents of matter, this book provides a more precise idea of what an atom or a molecule is by using theories which reproduce the experimental behaviour of matter. Aware of the comprehension difficulties that quantum theory can raise in the minds of students, the book insists on the importance of the physical principles which underlie it, such as the Coulomb relationship, the particle-wave duality, the notion of indeterminism, presence probability and the virial theorem.

Published

2022

21. 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

22. Topics and Solved Exercises at the Boundary of Classical and Modern Physics

Author

Samir Khene and Samir Khene

Subjects

Atoms, Molecules, Thermodynamics, Electrodynamics, Quantum physics

Abstract

This book provides a simple and well-structured course followed by an innovative collection of exercises and solutions that will enrich a wide range of courses as part of the undergraduate physics curriculum. It will also be useful for first-year graduate students who are preparing for their qualifying exams. The book is divided into four main themes at the boundary of classical and modern physics: atomic physics, matter-radiation interaction, blackbody radiation, and thermodynamics. Each chapter starts with a thorough and well-illustrated review of the core material, followed by plenty of original exercises that progress in difficulty, replete with clear, step-by-step solutions. This book will be invaluable for undergraduate course instructors who are looking for a source of original exercises to enhance their classes, while students that want to hone their skills will encounter challenging and stimulating problems.

Published

2022

23. Advances in Atomic, Molecular, and Optical Physics

Author

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

Subjects

Molecules, Atoms, Nuclear physics, Physical optics

Abstract

Advances in Atomic, Molecular, and Optical Physics, Volume 71 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. Sample content covered in this release includes Attosecond generation and application from X-ray Free Electron Lasers. - 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

2022

24. Symmetry Representations of Molecular Vibrations

Author

M.A. Wahab and M.A. Wahab

Subjects

Molecular spectroscopy, Materials science, Atoms, Molecules

Abstract

This book presents a comprehensive theoretical basis of symmetry representations of molecular vibrations, matrix representation of symmetries, and the elements of group theory that are relevant to other symmetry elements/operations, crystallographic and molecular point groups. The book helps understand the reducible and irreducible representations of symmetry matrices and then derive the normal modes of vibration of different molecules by using suitable techniques independently. Targeted to graduate students and researchers, this book aims not only to derive the normal modes of vibration of any given molecule themselves but also compares and verifies them with the experimentally found modes by using IR and Raman-related techniques. For the first time in the crystallographic history, this book presents the group multiplication tables of all 32 point groups in both international and Schoenflies notations.

Published

2022

25. Dissipation and Control in Microscopic Nonequilibrium Systems

Author

Steven J. Large and Steven J. Large

Subjects

Thermodynamics, Biophysics, Biomolecules, Statistical Physics, Molecules

Abstract

This thesis establishes a multifaceted extension of the deterministic control framework that has been a workhorse of nonequilibrium statistical mechanics, to stochastic, discrete, and autonomous control mechanisms. This facilitates the application of ideas from stochastic thermodynamics to the understanding of molecular machines in nanotechnology and in living things. It also gives a scale on which to evaluate the nonequilibrium energetic efficiency of molecular machines, guidelines for designing effective synthetic machines, and a perspective on the engineering principles that govern efficient microscopic energy transduction far from equilibrium. The thesis also documents the author's design, analysis, and interpretation of the first experimental demonstration of the utility of this generally applicable method for designing energetically-efficient control in biomolecules. Protocols designed using this framework systematically reduced dissipation, when compared to naive protocols, in DNA hairpins across a wide range of experimental unfolding speeds and between sequences with wildly different physical characteristics.

Published

2021

26. Progress in Photon Science : Emerging New Directions

Author

Kaoru Yamanouchi, Alina A. Manshina, Vladimir A. Makarov, Kaoru Yamanouchi, Alina A. Manshina, and Vladimir A. Makarov

Subjects

Atoms, Molecules, Lasers, Biophysics, Physical chemistry, Telecommunication

Abstract

This book summarizes the latest findings by leading researchers in the field of photon science in Russia and Japan. It discusses recent advances in the field of photon science and chemistry, covering a wide range of topics, including photochemistry and spectroscopy of novel materials, magnetic properties of solids, photobiology and imaging, and spectroscopy of solids and nanostructures. Based on lectures by respected scientists at the forefront of photon and molecular sciences, the book helps keep readers abreast of the current developments in the field.

Published

2021

27. Observational Studies of Photonuclear Reactions Triggered by Lightning Discharges

Author

Yuuki Wada and Yuuki Wada

Subjects

Measurement, Measuring instruments, Nuclear physics, Atoms, Molecules, Atmospheric science

Abstract

This book presents the first simultaneous detection of neutrons and positrons after a terrestrial gamma-ray flash (TGF), a highest-energy transient phenomenon on the earth, triggered by a lightning discharge, based on innovative ground-based observations made in the Hokuriku area of Japan. TGFs, known to be produced by lightning discharges since the 1990s, has been theoretically predicted to react with atmospheric nuclei via photonuclear reactions because they comprise high-energy photons of more than 10 MeV, but such photonuclear reactions by lightning discharges, which produce neutrons and unstable isotopes emitting positrons, were not observationally confirmed. The reactions and propagations of their products in the atmosphere are modeled with Monte Carlo simulations to quantitatively evaluate observations of TGFs, neutrons, and positrons at ground level. The successful comparison between observation and simulation is presented, and demonstrates that lightning discharges to trigger photonuclear reactions and to even produce isotopes in the atmosphere.

Published

2021

28. Influence of Internal Degrees of Freedom on Electric and Related Molecular Properties

Author

Alexander S. Sharipov, Boris I. Loukhovitski, Ekaterina E. Loukhovitskaya, Alexander S. Sharipov, Boris I. Loukhovitski, and Ekaterina E. Loukhovitskaya

Subjects

Atoms, Molecules, Microclusters, Physical chemistry, Chemistry—Data processing

Abstract

This book discusses the effect of the excitation of rotational, vibrational, and electronic degrees of freedom on the basic electrical properties of molecules and, as a consequence, on molecular optical and transport properties together with reactivity. It additionally summarizes the theory and practice of calculating state-specific electric and optical properties based on ab initio quantum chemical calculations. The book offers a clear, up-to-date review and is primarily intended for actively working researchers, graduate students, and advanced undergraduates who are interested in the electric and related properties of the electronically, rotationally, and vibrationally excited molecules.

Published

2021

29. Gas-Phase Photoprocesses

Author

Anatoly Pravilov and Anatoly Pravilov

Subjects

Atoms, Molecules, Physical chemistry

Abstract

This book provides details of the basic frameworks and characteristics of processes occurring in electronically excited states of small molecules, complexes, and clusters. It discusses the perturbations in electronically excited valence states of molecules induced by intramolecular interaction and intermolecular interactions, which occur in collisions and optically populated, weakly bound complexes. Further, it describes the kinetics and mechanisms of photoprocesses in simple molecules and recombination accompanied by radiation. The book also offers information on general kinetics for gas-phase processes and basic theoretical frameworks for elementary processes. It features many useful problems, making it a valuable resource for students and researchers in molecular spectroscopy/molecular physics and chemical physics/physical chemistry.

Published

2021

30. 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

31. 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

32. 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

33. Manipulation of Matrix-Isolated Molecules and Molecular Clusters with Electrostatic Fields

Author

Youngwook Park and Youngwook Park

Subjects

Atomic structure, Molecular structure, Molecular spectroscopy, Atoms, Molecules, Biophysics, Biomolecules, Nanoscience

Abstract

This book describes the manipulation of molecular properties, such as orientation, structure, and dynamics, of small molecules and molecular clusters isolated in cold inert matrices by using unprecedentedly strong external electrostatic fields. Manipulation of molecules with controllable external forces is a dream of chemists. Molecules are inherently quantum-mechanical systems, control of which potentially can lead to quantum technology, such as quantum sensing and computing. This book demonstrates a combination of the ice film nanocapacitor method and the matrix isolation technique enabled the application of intense external dc electric fields across the isolated molecules and molecular clusters. Changes in molecular states induced by fields were monitored by means of vibrational spectroscopy. Also, the book presents manipulations of the inversion tunneling dynamics of ammonia molecule and the dislocation of acidic proton in hydrogen chloride–water complex. The book shows that the vibrational spectroscopy with the aid of unprecedentedly strong dc electric field can provide rich information on the electrostatic behaviors of molecules and molecular clusters, which underlie the understanding of intermolecular processes and molecular manipulation.

Published

2020

34. Fast Gates and Mixed-Species Entanglement with Trapped Ions

Author

Vera M. Schäfer and Vera M. Schäfer

Subjects

Spintronics, Quantum physics, Quantum computers, Atoms, Molecules

Abstract

Quantum logic gates are the crucial information-processing operation of quantumcomputers. Two crucial performance metrics for logic gates are their precision andspeed. Quantum processors based on trapped ions have always been the touchstonefor gate precision, but have suffered from slow speed relative to other quantum logicplatforms such as solid state systems. This thesis shows that it is possible to acceleratethe logic'clock speed'from kHz to MHz speeds, whilst maintaining a precision of99.8%. This is almost as high as the world record for conventional trapped-ion gates,but more than 20 times faster. It also demonstrates entanglement generation in atime (480ns) shorter than the natural timescale of the ions'motion in the trap, whichstarts to probe an interesting new regime of ion trap physics.In separate experiments, some of the first'mixed-species'quantum logic gates areperformed, both between two different elements, and between different isotopes.The mixed-isotope gate is used to make the first test of the quantum-mechanical Bellinequality between two different species of isolated atoms.

Published

2020

35. 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

36. Photosynergetic Responses in Molecules and Molecular Aggregates

Author

Hiroshi Miyasaka, Kenji Matsuda, Jiro Abe, Tsuyoshi Kawai, Hiroshi Miyasaka, Kenji Matsuda, Jiro Abe, and Tsuyoshi Kawai

Subjects

Physical chemistry, Optical materials, Atoms, Molecules

Abstract

This book compiles the accomplishments of the recent research project on photochemistry “Photosynergetics”, supported by the Ministry of Education, Culture, Sports, Science and Technology of Japan, aiming to develop and elucidate new methods and molecules leading to advanced utilization of photo-energies. Topics include photochemical responses induced by multiple excitation, multiphoton absorption, strong modulation of electronic states, developments of new photofunctional molecules, mesoscopic actuations induced by photoexcitation, and novel photoresponses in molecules and molecular assemblies. The authors stress that these approaches based on the synergetic interaction among many photons and many molecules enable the expansion of the accessibility to specific electronic states. As well, they explain how the development of reaction sequences and molecules/molecular assemblies ensure “additivity” and “integration” without loss of the photon energy, leading to new photoresponsive assemblies in meso- and macroscopic scales.

Published

2020

37. Advances in Atomic, Molecular, and Optical Physics

Author

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

Subjects

Atoms, Nuclear physics, Physical optics, Molecules

Abstract

Advances in Atomic, Molecular, and Optical Physics, Volume 69, the latest release in this ongoing series, 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 in this new release include Strong-field ion spectroscopy, Configurable microscopic optical potentials, Polaritons, Rydberg excitation of trapped cold ions - a new platform for quantum technologies, High intensity QED, Recollision imaging, 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

2020

38. Spin – Was ist das eigentlich? : Ein abstrakter quantenmechanischer Begriff, experimentelle Nachweise und Anwendungen

Author

Hans Paetz gen. Schieck and Hans Paetz gen. Schieck

Subjects

Nuclear physics, Atoms, Molecules, Physics—History

Abstract

In diesem Essential wird gezeigt, dass der Spin einer der fundamentalen Begriffe der Physik ist. Zugleich stellt er eine fundamentale Mess- und Beobachtungsgröẞe dar. Er wurde erst gegen Widerstände akzeptiert, da er nur nicht-klassisch, d.h. auch nur nicht-anschaulich zu verstehen ist. Das hinderte nicht daran, mit dem geeigneten, v.a. von Heisenberg, Schrödinger und Dirac entwickelten Formalismus der Quantentheorie die zunächst unerklärten Beobachtungen richtig zu beschreiben. Ein Beispiel ist das Periodensystem der Elemente, das nur durch den Spin und das Ausschließungsprinzip von Pauli erklärbar ist. Das hat auch eine Vielzahl von Anwendungen bis in die Medizin und Festkörperphysik ermöglicht.

Published

2020

39. Nanophotonics in Biomedical Engineering

Author

Xiangwei Zhao, Meng Lu, Xiangwei Zhao, and Meng Lu

Subjects

Biotechnology, Atoms, Molecules

Abstract

This book summarizes the latest advances in nanophotonics for biomedical applications, including biomolecular sensing and imaging, additive fabrications, and biophotonics. The engineering of nanophotonics will have significant impacts on the life sciences and medicine alike. Given its scope, the book offers a valuable asset for researchers, scientists, engineers, and graduate students in the fields of biomedical engineering, electrical engineering, materials sciences, optics, biology, and medicine.

Published

2020

40. 25th Congress Ampere on Magnetic Resonance and Related Phenomena : Extended Abstracts

Author

Michael Mehring, Jost U. v. Schütz, Hans C. Wolf, Michael Mehring, Jost U. v. Schütz, and Hans C. Wolf

Subjects

Condensed matter, Spectrum analysis, Atoms, Molecules, Crystallography, Superconductivity, Superconductors, Biophysics

Abstract

This volume contains extended abstracts of the 10 plenary lectures, 27 invited symposium lectures and ap- proximately 300 contributed papers that were presented at the 25th Congress Ampère. The contributions cover the full range of magnetic resonance and radiospectroscopy and their applications in physics, chemical physics, medicine and biology. Advanced NMR and ESR techniques are treated, as are their applications to novel materials.

Published

2019

41. Table of Laser Lines in Gases and Vapors

Author

R. Beck, W. Englisch, K. Gürs, R. Beck, W. Englisch, and K. Gürs

Subjects

Atoms, Molecules, Physical chemistry

Published

2019

42. Coherence and Quantum Optics IV : Proceedings of the Fourth Rochester Conference on Coherence and Quantum Optics Held at the University of Rochester, June 8–10, 1977

Author

L. Mandel and L. Mandel

Subjects

Atoms, Molecules

Published

2019

43. 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

44. Atoms, Molecules and Photons : An Introduction to Atomic-, Molecular- and Quantum Physics

Author

Wolfgang Demtröder and Wolfgang Demtröder

Subjects

Molecules, Nuclear physics--Problems, exercises, etc, Nuclear physics

Abstract

This introduction to Atomic and Molecular Physics explains how our present model of atoms and molecules has been developed over the last two centuries both by many experimental discoveries and, from the theoretical side, by the introduction of quantum physics to the adequate description of micro-particles. It illustrates the wave model of particles by many examples and shows the limits of classical description. The interaction of electromagnetic radiation with atoms and molecules and its potential for spectroscopy is outlined in more detail and in particular lasers as modern spectroscopic tools are discussed more thoroughly. Many examples and problems with solutions are offered to encourage readers to actively engage in applying and adapting the fundamental physics presented in this textbook to specific situations.Completely revised third edition with new sections covering all actual developments, like photonics, ultrashort lasers, ultraprecise frequency combs, free electron lasers, cooling and trapping of atoms, quantum optics and quantum information.

Published

2019

45. Quantum Physics : States, Observables and Their Time Evolution

Author

Arno Bohm, Piotr Kielanowski, G. Bruce Mainland, Arno Bohm, Piotr Kielanowski, and G. Bruce Mainland

Subjects

Quantum physics, Mathematical physics, Atoms, Molecules

Abstract

This is an introductory graduate course on quantum mechanics, which is presented in its general form by stressing the operator approach. Representations of the algebra of the harmonic oscillator and of the algebra of angular momentum are determined in chapters 1 and 2 respectively. The algebra of angular momentum is enlarged by adding the position operator so that the algebra can be used to describe rigid and non-rigid rotating molecules. The combination of quantum physical systems using direct-product spaces is discussed in chapter 3. The theory is used to describe a vibrating rotator, and the theoretical predictions are then compared with data for a vibrating and rotating diatomic molecule. The formalism of first- and second-order non-degenerate perturbation theory and first-order degenerate perturbation theory are derived in chapter 4. Time development is described in chapter 5 using either the Schroedinger equation of motion or the Heisenberg's one. An elementary mathematical tutorial forms a useful appendix for the readers who don't have prior knowledge of the general mathematical structure of quantum mechanics.

Published

2019

46. 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

47. The Electronic Transitions of Molecular Oxygen

Author

Mikkel Bregnhøj and Mikkel Bregnhøj

Subjects

Photochemistry, Active oxygen, Molecules

Abstract

This book presents the fundamentals and the state of the art of the photophysics of molecular oxygen. The author examines optical transitions between the lowest-lying electronic states in molecular oxygen and how these transitions respond to perturbation, either from an organic molecule or from the plasmon field of a metal nanoparticle. We live on a planet filled with light and oxygen. The interaction between these two components forms the basis of excited state chemistry spanning the fields of synthetic organic chemistry, materials chemistry, molecular biology, and photodynamic treatment of cancer. Still, the fundamental ways in which oxygen is affected by light is an active subject of research and is continually being developed and rationalized. In this book, readers will learn that singlet oxygen, the excited state of oxygen that exhibits unique chemical reactivity, can be selectively made via direct optical excitation of oxygen in a sensitizer-free system. Readers will also discover that this approach can perturb living cells differently depending on the singlet oxygen “dose”.

Published

2019

48. 6th International Conference on Atomic Physics Proceedings

Author

Robert Damburg and Robert Damburg

Subjects

Atoms, Molecules

Published

2019

49. Die Valenz und der Bau der Atome und Moleküle

Author

Gilber Newton Lewis and Gilber Newton Lewis

Subjects

Physical chemistry, Atoms, Molecules

Abstract

Dieser Buchtitel ist Teil des Digitalisierungsprojekts Springer Book Archives mit Publikationen, die seit den Anfängen des Verlags von 1842 erschienen sind. Der Verlag stellt mit diesem Archiv Quellen für die historische wie auch die disziplingeschichtliche Forschung zur Verfügung, die jeweils im historischen Kontext betrachtet werden müssen. Dieser Titel erschien in der Zeit vor 1945 und wird daher in seiner zeittypischen politisch-ideologischen Ausrichtung vom Verlag nicht beworben.

Published

2019

50. Photoinduced Molecular Dynamics in Solution : Multiscale Modelling and the Link to Ultrafast Experiments

Author

Gianluca Levi and Gianluca Levi

Subjects

Chemistry, Physical and theoretical, Physical chemistry, Atoms, Molecules

Abstract

This book explores novel computational strategies for simulating excess energy dissipation alongside transient structural changes in photoexcited molecules, and accompanying solvent rearrangements. It also demonstrates in detail the synergy between theoretical modelling and ultrafast experiments in unravelling various aspects of the reaction dynamics of solvated photocatalytic metal complexes. Transition metal complexes play an important role as photocatalysts in solar energy conversion, and the rational design of metal-based photocatalytic systems with improved efficiency hinges on the fundamental understanding of the mechanisms behind light-induced chemical reactions in solution. Theory and atomistic modelling hold the key to uncovering these ultrafast processes. Linking atomistic simulations and modern X-ray scattering experiments with femtosecond time resolution, the book highlights previously unexplored dynamical changes in molecules, and discusses the development of theoretical and computational frameworks capable of interpreting the underlying ultrafast phenomena.

Published

2019