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 #  AuthorTitleAccn#YearItem Type Claims
1 Bandrauk, Andre D Laser Filamentation I09434 2016 eBook  
2 Yamanouchi, Kaoru Progress in Ultrafast Intense Laser Science VI I08123 2010 eBook  
3 Bandrauk, Andre D Quantum Dynamic Imaging I05460 2011 eBook  
4 Bandrauk, Andre D Coherence Phenomena in Atoms and Molecules in Laser Fields I04113 1992 eBook  
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1.    
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TitleLaser Filamentation : Mathematical Methods and Models
Author(s)Bandrauk, Andre D;Lorin, Emmanuel;Moloney, Jerome V
PublicationCham, Springer International Publishing, 2016.
DescriptionXII, 216 p. 82 illus., 76 illus. in color : online resource
Abstract NoteThis book is focused on the nonlinear theoretical and mathematical problems associated with ultrafast intense laser pulse propagation in gases and in particular, in air. With the aim of understanding the physics of filamentation in gases, solids, the atmosphere, and even biological tissue, specialists in nonlinear optics and filamentation from both physics and mathematics attempt to rigorously derive and analyze relevant non-perturbative models. Modern laser technology allows the generation of ultrafast (few cycle) laser pulses, with intensities exceeding the internal electric field in atoms and molecules (E=5x109 V/cm or intensity I = 3.5 x 1016 Watts/cm2 ). The interaction of such pulses with atoms and molecules leads to new, highly nonlinear nonperturbative regimes, where new physical phenomena, such as High Harmonic Generation (HHG), occur, and from which the shortest (attosecond - the natural time scale of the electron) pulses have been created. One of the major experimental discoveries in this nonlinear nonperturbative regime, Laser Pulse Filamentation, was observed by Mourou and Braun in 1995, as the propagation of pulses over large distances with narrow and intense cones. This observation has led to intensive investigation in physics and applied mathematics of new effects such as self-transformation of these pulses into white light, intensity clamping, and multiple filamentation, as well as to potential applications to wave guide writing, atmospheric remote sensing, lightning guiding, and military long-range weapons. The increasing power of high performance computers and the mathematical modelling and simulation of photonic systems has enabled many new areas of research. With contributions by theorists and mathematicians, supplemented by active experimentalists who are experts in the field of nonlinear laser molecule interaction and propagation, Laser Filamentation sheds new light on scientific and industrial applications of modern lasers
ISBN,Price9783319230849
Keyword(s)1. Applications of Nonlinear Dynamics and Chaos Theory 2. EBOOK 3. EBOOK - SPRINGER 4. LASERS 5. MATHEMATICAL PHYSICS 6. Optics, Lasers, Photonics, Optical Devices 7. PHOTONICS 8. PLASMA (IONIZED GASES) 9. PLASMA PHYSICS 10. REMOTE SENSING 11. Remote Sensing/Photogrammetry 12. STATISTICAL PHYSICS
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I09434     On Shelf    

2.     
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TitleProgress in Ultrafast Intense Laser Science VI
Author(s)Yamanouchi, Kaoru;Gerber, Gustav;Bandrauk, Andre D
PublicationBerlin, Heidelberg, Springer Berlin Heidelberg, 2010.
DescriptionXVI, 237 p : online resource
Abstract NoteThe PUILS series delivers up-to-date reviews of progress in Ultrafast Intense Laser Science, a newly 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 their own subfields of UILS. Every chapter opens 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 attractions of the research topic at hand; these are followed by reports of cutting-edge discoveries. This sixth volume covers a broad range of topics from this interdisciplinary research field, focusing on responses of molecules to ultrashort intense laser pulses, generation and characterization of attosecond pulses and high-order harmonics, and filamentation and laser-plasma interaction
ISBN,Price9783642150548
Keyword(s)1. Atomic, Molecular, Optical and Plasma Physics 2. ATOMS 3. Atoms and Molecules in Strong Fields, Laser Matter Interaction 4. EBOOK 5. EBOOK - SPRINGER 6. LASERS 7. Optics, Lasers, Photonics, Optical Devices 8. PHOTONICS 9. PHYSICS
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I08123     On Shelf    

3.     
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TitleQuantum Dynamic Imaging : Theoretical and Numerical Methods
Author(s)Bandrauk, Andre D;Ivanov, Misha
PublicationNew York, NY, Springer New York, 2011.
DescriptionXVI, 236 p. 79 illus., 76 illus. in color : online resource
Abstract NoteStudying and using light or "photons" to image and then to control and transmit molecular information is among the most challenging and significant research fields to emerge in recent years. One of the fastest growing areas involves research in the temporal imaging of quantum phenomena, ranging from molecular dynamics in the femto (10-15s) time regime for atomic motion to the atto (10-18s) time scale of electron motion. In fact, the attosecond "revolution" is now recognized as one of the most important recent breakthroughs and innovations in the science of the 21st century. A major participant in the development of ultrafast femto and attosecond temporal imaging of molecular quantum phenomena has been theory and numerical simulation of the nonlinear, non-perturbative response of atoms and molecules to ultrashort laser pulses. Therefore, imaging quantum dynamics is a new frontier of science requiring advanced mathematical approaches for analyzing and solving spatial and temporal multidimensional partial differential equations such as Time-Dependent Schroedinger Equations (TDSE) and??Time-Dependent Dirac equations (TDDEs for relativistic phenomena). These equations are also coupled to the photons in Maxwell's equations for collective propagation effects. Inversion of the experimental imaging data of quantum dynamics presents new mathematical challenges in the imaging of quantum wave coherences on subatomic (subnanometer) spatial dimensions and multiple timescales from atto to femto and even nanoseconds.??In Quantum Dynamic Imaging: Theoretical and Numerical Methods,??leading researchers discuss these exciting state-of-the-art developments and their??implications for R&D in view of the promise of quantum dynamic imaging??science as the essential tool for controlling matter at the molecular level. Presents the latest research results in ultrafast imaging of quantum phenomena Demonstrates the wide-ranging potential of quantum dynamic imaging for R&D in areas as diverse as optoelectronics, materials science, and quantum information Edited and written by international leaders in the field
ISBN,Price9781441994912
Keyword(s)1. EBOOK 2. EBOOK - SPRINGER 3. Electronic materials 4. LASERS 5. MICROWAVES 6. Microwaves, RF and Optical Engineering 7. Numerical and Computational Physics, Simulation 8. Optical and Electronic Materials 9. OPTICAL ENGINEERING 10. OPTICAL MATERIALS 11. Optics, Lasers, Photonics, Optical Devices 12. PHOTONICS 13. PHYSICAL CHEMISTRY 14. PHYSICS 15. QUANTUM OPTICS
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I05460     On Shelf    

4.    
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TitleCoherence Phenomena in Atoms and Molecules in Laser Fields
Author(s)Bandrauk, Andre D;Wallace, Stephan C
PublicationNew York, NY, Springer US, 1992.
DescriptionIX, 406 p : online resource
Abstract NoteThis volume contains the lectures and communications presented at the NATO Advanced Research Workshop (NATO ARW 900857) which was held May 5-10, 1991 at McMaster University, Hamilton, Ontario, Canada. A scientific commitee made up of P.P. Lambropoulos (USC & Crete), P.8. Corkum (NRC, Ottawa), and H. B. vL. van den Heuvell (FOM, Amsterdam) guided the organizers, A.D. Bandrauk (Sherbrooke) and S.C. Wallace (Toronto) in preparing a programme which would cover the latest advances in the field of atom and molecule laser interactions. Since the last meeting held in July 1987 on "Atomic and Molecular Processes with Short Intense Laser Pulses", NATO ASI vol 1718 (Plenum Press 1988), considerable progress has been made in understanding high intensity effects on atoms and the concomitant coherence effects. After four years, the emphasis is now shifting more to molecules. The present volume represents therefore this trend with four sections covering the main interests of research endeavours in this area: i) Atoms in Intense Laser-Fields ii) Molecules in Intense Laser Fields iii) Atomic Coherences iv) Molecular Coherences The experience developed over the years in multiphoton atomic processes has been very useful and is the main source of our understanding of similar processes in molecules. Thus ATI (above?? threshold ionization) has been found to occur in molecules as well as a new phenomenon, ATD (above-threshold dissociation). Laser-induced avoided crossings of molecular electronic surfaces is also now entering the current language of high intensity molecular processes
ISBN,Price9781461533641
Keyword(s)1. Atomic, Molecular, Optical and Plasma Physics 2. ATOMS 3. EBOOK 4. EBOOK - SPRINGER 5. ELECTRICAL ENGINEERING 6. PHYSICS
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I04113     On Shelf    

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