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Progress in Photon Science

Recent Advances

  • Book
  • © 2019

Overview

Editors:
  1. Kaoru Yamanouchi

    1. Department of Chemistry, The University of Tokyo, Tokyo, Japan

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  2. Sergey Tunik

    1. Institute of Chemistry, Saint Petersburg State University, Saint Petersburg, Russia

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  3. Vladimir Makarov

    1. Physics Faculty, Lomonosov Moscow State University, Moscow, Russia

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  • Presents chapters by leading scientists working at the forefront of the photon and molecular sciences
  • Covers a wide range of topics of interest to researchers in photon science
  • Provides the most up-to-date reviews of recent progress in the field

Part of the book series: Springer Series in Chemical Physics (CHEMICAL, volume 119)

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Table of contents (25 chapters)

  1. Front Matter

    Pages i-xxiv
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  2. Light and Light Propagation

    1. Front Matter

      Pages 1-1
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    2. Polarization Singularities Nucleation in the Self-focusing of an Elliptically Polarized Laser Beam in Kerr Medium and Isotropic Phase of Nematic Liquid Crystal

      • Vladimir A. Makarov, Kirill S. Grigoriev, Nikolai A. Panov, Olga G. Kosareva, Georgy M. Shishkov
      Pages 3-17

    3. Generation and Transformation of Light Beams with Polarization Singularities in Three-Wave Mixing Processes in Isotropic Nonlocal Medium

      • K. S. Grigoriev, I. A. Perezhogin, N. N. Potravkin, V. A. Makarov
      Pages 19-41

    4. Spatio-Temporal and Spectral Transformation of Femtosecond Pulsed Beams with Phase Dislocation Propagating Under Conditions of Self-action in Transparent Solid-State Dielectrics

      • S. A. Shlenov, E. V. Vasilyev, V. P. Kandidov
      Pages 43-61

    5. Picosecond Pulsed High-Peak-Power Lasers

      • Nikita G. Mikheev, Vyacheslav B. Morozov, Andrei N. Olenin, Vladimir G. Tunkin, Dmitrii V. Yakovlev
      Pages 63-87

    6. Gravitational-Wave Astronomy by Precision Laser Interferometry

      • Norikatsu Mio
      Pages 89-105

  3. Biological Applications

    1. Front Matter

      Pages 107-107
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    2. Phosphorescence Lifetime Imaging (PLIM): State of the Art and Perspectives

      • Pavel S. Chelushkin, Sergey P. Tunik
      Pages 109-128

    3. Optical Control of G Protein-Coupled Receptor Activities in Living Cells

      • Hideaki Yoshimura, Takeaki Ozawa
      Pages 129-138

    4. Perspective Tools for Optogenetics and Photopharmacology: From Design to Implementation

      • Dmitrii M. Nikolaev, Maxim S. Panov, Andrey A. Shtyrov, Vitaly M. Boitsov, Sergey Yu. Vyazmin, Oleg B. Chakchir et al.
      Pages 139-172

    5. Molecular-Plasmon Nanostructures for Biomedical Application

      • Alexey Povolotskiy, Marina Evdokimova, Alexander Konev, Ilya Kolesnikov, Anastasia Povolotckaia, Alexey Kalinichev
      Pages 173-193

  4. Atoms and Molecules

    1. Front Matter

      Pages 195-195
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    2. Methods for the Simulation of Coupled Electronic and Nuclear Motion in Molecules Beyond the Born-Oppenheimer Approximation

      • Erik Lötstedt, Tsuyoshi Kato, Kaoru Yamanouchi
      Pages 197-220

    3. Separable Potentials Model for Atoms and Molecules in Strong Ultrashort Laser Pulses

      • Yu. V. Popov, A. Galstyan, B. Piraux, P. F. O’Mahony, F. Mota-Furtado, P. Decleva et al.
      Pages 221-242

    4. Effects of Hyperfine Interaction in Atomic Photoionization

      • Elena V. Gryzlova, Alexei N. Grum-Grzhimailo
      Pages 243-261

    5. New Trends in ‘Complete’ Experiment on Atomic Photoionization

      • Alexei N. Grum-Grzhimailo, Elena V. Gryzlova
      Pages 263-282

    6. Theoretical Aspects of Laser-Assisted (e, 2e) Collisions in Atoms

      • Konstantin A. Kouzakov
      Pages 283-299

    7. Interference Femtosecond Linear and Nonlinear Comb-Spectroscopy in Octave Expanded Range

      • Sergey Pulkin, Eugene Borisov, Alexey Kalinichev, Irina Korshok, Dmitrii Venediktov, Nickolai Pulkin et al.
      Pages 301-318

  5. Plasma and Relativistic Phenomena

    1. Front Matter

      Pages 319-319
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Keywords

About this book

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.  

 


Editors and Affiliations

  • Department of Chemistry, The University of Tokyo, Tokyo, Japan

    Kaoru Yamanouchi

  • Institute of Chemistry, Saint Petersburg State University, Saint Petersburg, Russia

    Sergey Tunik

  • Physics Faculty, Lomonosov Moscow State University, Moscow, Russia

    Vladimir Makarov

About the editors

Kaoru Yamanouchi has been Professor of Chemistry at The University of Tokyo since April 1997.  His research fields are in physical chemistry and AMO physics, especially gas phase laser spectroscopy, chemical reaction dynamics, and intense laser science. 

Education: Kaoru Yamanouchi graduated from Department of Chemistry, the University of Tokyo in 1981. After receiving Master's Degree from Graduate School of Chemistry in 1983, he received Doctor's Degree from the same graduate school in 1986.

Experience: One year before receiving the doctor's degree he was appointed as Research Associate at Department of Pure and Applied Sciences of the University of Tokyo. He was promoted to Associate Professor in 1990, and had been in the position for seven years until he became Professor of Chemistry in 1997.

Honors: He has been the recipient of Morino Fellowship endowed by Morino Foundation (1987); Spectroscopical Society of Japan Award for High-Quality Papers (1989); Chemical Society of Japan Award for Young Scientists (1991); Japan IBM Prize (2000); the 67th Chemical Society of Japan (CSJ) Award (2015); and the 7th Japan Society for Molecular Science Award (2016).

Research achievements: in 1996, he launched a new research project to investigate how atoms, molecules, and clusters behave in an intense laser field whose magnitude is as large as that of a Coulomb field within atoms and molecules. By developing new experimental techniques such as mass-resolved momentum imaging, pulsed gas electron diffraction, and coincidence momentum imaging, he has continued a successful exploration of the new research field of ultrafast intense laser science. Among his discoveries, ultrafast structural deformation of molecules and ultrafast hydrogen atom migration within hydrocarbon molecules are particularly noteworthy. He has also demonstrated that the ultrafast structural changes of molecules can in principle be probed in real time with femtosecond temporal resolution using a method called laser-assisted electron diffraction. He is the author of more than 200 original papers (as of 2014) and the author/editor of 22 books. 

 

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