This book originates from lectures given at Shandong University and Nanjing University and the special topics course offered at Arizona State University. It is prepared at a level intended for chemistry and physics graduate students.
This book provides a detailed and rigorous presentation of the spectroscopy and dynamics of orientationally structured adsorbates. It is intended largely for specialists and graduate students in solid state theory and surface physics. To make the book readable also for beginners in surface science, a lucid style is used and a wealth of references on orientational surface structures and vibrational excitations in them is offered. The book is supplemented with two indices (alphabetical listing of subjects and authors, as well as cross-references) which will enable the reader to easily access the information both on principal concepts involved and on specific adsorbate compositions.
Contents:Linear and Nonlinear Optical Spectroscopy of Molecules in Disordered Systems (S Kinoshita & Y Kanematsu)Vibration Spectroscopy of Surfaces Using Nonlinear Optical Process (C Hirose)Quantum Theory of Laser-Driven Spontaneous Emission and Superradiance (B Fain & S H Lin) Readership: Graduate students in chemistry & physics, chemists and physicists. keywords:Nonlinear Spectroscopy of Molecules in Disordered Systems;Surface Vibrational Spectroscopy Using Nonlinear Optics;Laser-Driven Spontaneous Emission and Superradiance
This book provides a detailed and rigorous presentation of the spectroscopy and dynamics of orientationally structured adsorbates. It is intended largely for specialists and graduate students in solid state theory and surface physics. To make the book readable also for beginners in surface science, a lucid style is used and a wealth of references on orientational surface structures and vibrational excitations in them is offered. The book is supplemented with two indices (alphabetical listing of subjects and authors, as well as cross-references) which will enable the reader to easily access the information both on principal concepts involved and on specific adsorbate compositions.
This book originates from lectures given at Shandong University and Nanjing University and the special topics course offered at Arizona State University. It is prepared at a level intended for chemistry and physics graduate students.
This book presents the latest developments and issues in both experimental and theoretical studies of multi-photon processes and the spectroscopy of atoms, molecules and nanomaterials in Physics, Chemistry, Biology and Material Science. It is an important addition to an advanced series that contains review papers suitable for both active researchers in these areas and non-experts who wish to enter the field. Special attention is paid to the recent progress of nonlinear photon-matter interactions applied to femtosecond laser induced nonadiabatic molecular alignment, high-order harmonic generation from C60 fullerene plasma, resonant femtosecond stimulated Raman spectroscopy and attosecond pulse generation, as well as near-field optical imaging of noble-metal nanoparticles and photoexcited ultrafast electron transfer in condensed phase.
Contents:Linear and Nonlinear Optical Spectroscopy of Molecules in Disordered Systems (S Kinoshita & Y Kanematsu)Vibration Spectroscopy of Surfaces Using Nonlinear Optical Process (C Hirose)Quantum Theory of Laser-Driven Spontaneous Emission and Superradiance (B Fain & S H Lin) Readership: Graduate students in chemistry & physics, chemists and physicists. keywords:Nonlinear Spectroscopy of Molecules in Disordered Systems;Surface Vibrational Spectroscopy Using Nonlinear Optics;Laser-Driven Spontaneous Emission and Superradiance
Globalization and technological innovation have greatly enhanced the free mobility of currencies, commodities, services, information, jobs and people; yet this can also cause gaps in regional development and create uneven wealth in minority economies. Social Innovation and Business in Taiwan links the ultimate goal of the common good by connecting people not just through technology, but through new forms of organization. Based on five major research cases observed in Taiwan, this book introduces the core concept of a social innovation system to show how the common good can be established, adapted and diffused across communities, societies and national boundaries. By identifying effective and sustainable ways to create social value, this innovation system shows a universally true way to lead to a more humane global society.
Time is an important factor in physical and natural sciences. It characterizes the progress of chemical and biochemical processes. Mass spectrometry provides the means to study molecular structures by detecting gas-phase ions with the unique mass-to-charge ratios. Time-resolved mass spectrometry (TRMS) allows one to differentiate between chemical states that can be observed sequentially at different time points. Real-time mass spectrometric monitoring enables recording data continuously with a specified temporal resolution. The TRMS approaches – introduced during the past few decades – have shown temporal resolutions ranging from hours down to microseconds and beyond. This text covers the key aspects of TRMS. It introduces ion sources, mass analyzers, and interfaces utilized in time-resolved measurements; discusses the influence of data acquisition and treatment; finally, it reviews most prominent applications of TRMS – in the studies of reaction kinetics and mechanism, physicochemical phenomena, protein structure dynamics, biocatalysis, and metabolic profiling. It will assist science and engineering students to gain a basic understanding of the TRMS concept, and to recognize its usefulness. In addition, it may benefit scientists who conduct molecular studies in the areas of chemistry, physics and biology.
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