Details
Ultrafast Electronic and Structural Dynamics
128,39 € |
|
Verlag: | Springer |
Format: | |
Veröffentl.: | 23.07.2024 |
ISBN/EAN: | 9789819729142 |
Sprache: | englisch |
Anzahl Seiten: | 350 |
Dieses eBook enthält ein Wasserzeichen.
Beschreibungen
<p>This book illustrates advanced technologies for imaging electrons and atoms in action in various forms of matter, from atoms and diatoms to protein molecules and condensed matter. The technologies that are described employ ultrafast pulsed lasers, X-ray free electron lasers, and pulsed electron guns, with pulse durations from femtoseconds, suitable to visualize atoms in action, to attoseconds, needed to visualize ballistic electron motion. Advanced theories, indispensable for understanding such ultrafast imaging and spectroscopy data on electrons and atoms in action, are also described. The book consists of three parts. The first part describes probing methods of attosecond electron dynamics in atoms, molecules, liquids, and solids. The second part describes femtosecond structural dynamics and coupling of structural change and electron motion in molecules and solids The last part is dedicated to ultrafast photophysical processes and chemical reactions of protein molecules responsible for biological functions.</p>
<p> </p>
<p> </p>
<p>Attosecond Atomic Photoionization.- Attosecond Interferomety.- Attosecond Dynamics in Liquids.- Strong-Field Electron Dynamics in Solids.- Attosecond space-time imaging with electron microscopy and diffraction.- Towards time-resolved molecular orbital imaging.- Ultrafast X-Ray Scattering: New Views of Chemical Reaction Dynamics.- Photochemical reactions in the gas phase studied by ultrafast electron diffraction.- Ultrafast X-ray spectroscopy for probing a nuclear wavepacket in photoexcited molecular complexes.- Ultrafast x-ray probes of dynamics in solids.- Ultrafast transient absorption spectroscopy for probing primary photochemical reaction of proteins.- Time-resolved Raman Mapping of Energy Flow in Proteins.- Ultrafast Two-Dimensional Spectroscopy of Photosynthetic Systems.- Vibrational Coherence and Tunneling in Proteins.- Time-resolved studies of protein structural dynamics.</p>
<p>Kiyoshi Ueda received his Ph.D. from Kyoto University in 1982. His research interest includes electronic and structural dynamics of various form of matters probed by synchrotron radiation, ultrabrie (fs to as) pulse lasers, and short-wavelength (XUV~X) FELs. He is a professor emeritus of Tohoku University. He is the author or co-author of about 700 papers including articles in Nature (2 articles), Nature Physics (4), Nature Photonics (6), Nature Communications (9), Science Advsances (3), Physical Review X (9), Physical Review Letters (54), more than ten review articles (Reports on Progress in Physics, Physics Reports, etc.) and chapters of books (in Japanese); so far ~16000 citations have been received. He gave ~ 200 invited and plenary lectures in international conferences, workshops, symposiums and seminars all over the world. He has been an international councillor of American Physical Society, international chairs of various relevant international conferences such as ICPEAC, an honorary member of the internatonal advisory committee for VUVX conference, and the editorial board member of Physical Review X.</p>
<p>This book illustrates advanced technologies for imaging electrons and atoms in action in various forms of matter, from atoms and diatoms to protein molecules and condensed matter. The technologies that are described employ ultrafast pulsed lasers, X-ray free electron lasers, and pulsed electron guns, with pulse durations from femtoseconds, suitable to visualize atoms in action, to attoseconds, needed to visualize ballistic electron motion. Advanced theories, indispensable for understanding such ultrafast imaging and spectroscopy data on electrons and atoms in action, are also described. The book consists of three parts. The first part describes probing methods of attosecond electron dynamics in atoms, molecules, liquids, and solids. The second part describes femtosecond structural dynamics and coupling of structural change and electron motion in molecules and solids The last part is dedicated to ultrafast photophysical processes and chemical reactions of protein molecules responsible for biological functions.</p>
Presents cutting-edge knowledge of attocecond science and femtochemistry, going from atoms to proteins Describes the most advanced techniques for imaging electrons and atoms in action Interfaces the latest theories with cutting-edge experiments