Fundamentals of attosecond optics.
A Nature Research Journal. The motion of electrons on the atomic scale has been hidden from direct experimental access until recently. We review the revolution in technology that opened the door to real-time observation and time-domain control of atomic-scale electron dynamics, and address the expected implications of having the tools to monitor electrons with sub-atomic resolution in both space and time.
Paul, P. Observation of a train of attosecond pulses from high harmonic generation. Science , — Hentschel, M. Attosecond metrology. Nature , — Brabec, T.
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Intense few cycle light pulses: frontiers of nonlinear optics. Zewail, A. Femtochemistry: atomic-scale dynamics of the chemical bond. A , — Niikura, H. Sub-laser-cycle electron pulses for probing molecular dynamics. Zuo, T.
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Laser induced electron diffraction: a new tool for probing ultrafast molecular dynamics. Itatani, J. Tomographic imaging of molecular orbitals. Baltuska, A. Attosecond control of electronic processes by intense light fields. Drescher, M. Time-resolved atomic inner-shell spectroscopy. Uiberacker, M. Attosecond real-time observation of electron tunnelling in atoms.
Milosevic, N. How to use lasers for imaging attosecond dynamics of nuclear processes. Corkum, P. A plasma perspective on strong field multiphoton ionization. Keldysh, L. Ionization in the field of a strong electromagnetic wave. Multiphonon absorption processes and ionization probability for atoms and solids in strong electromagnetic field. JETP 20 , — Ammosov, M. Tunnel ionization of complex atoms and of atomic ions in an alternating electromagnetic field.
JETP 64 , — Yudin, G. Nonadiabatic tunnel ionization: looking inside a laser cycle. A 64 , Physics of correlated double ionization of atoms in intense laser fields: quasistatic tunneling limit. A 63 , Sub-femtosecond pulses. Dudovich, N. Measuring and controlling the birth of attosecond pulses. Nature Phys. Kienberger, R. Atomic transient recorder. Seres, J. Source of coherent kiloelectronvolt X-rays.
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Nature , Chang, Z. Single attosecond pulse and XUV supercontinuum in the high-order harmonic plateau. A 70 , Sola, I. Controlling attosecond electron dynamics by phase-stabilized polarization gating. Lopez-Martens, R. Amplitude and phase control of attosecond light pulses. Sansone, G. Isolated single-cycle attosecond pulses. Pfeifer, T. Heterodyne mixing of laser fields for temporal gating of high-order harmonic generation. Oishi, Y. Generation of extreme ultraviolet continuum radiation driven by a subfs two-color field.
Diels, J. Ultrashort laser pulse phenomena: fundamentals, techniques and applications on a femtosecond time scale. Academic, Boston, Bradley, D. Direct linear measurement of ultrashort light pulses with a picosecond streak camera. Schelev, M. Image-converter streak camera with picosecond resolution. Tzallas, P.
Direct observation of attosecond light bunching. Sekikawa, T. Nonlinear optics in the extreme ultraviolet.
Fundamentals of Optics, Fourth Edition - PDF Free Download
Attosecond streak camera. Steering attosecond electron wave packets with light. Attosecond spectral shearing interferometry. Hargittai, I. VCH, Weinheim, Laser induced electron diffraction: A new tool for probing ultrafast molecular dynamics. Lein, M. Ships same day or next business day! Used books may not include working access code or dust jacket. Seller Inventory U. More information about this seller Contact this seller 4. More information about this seller Contact this seller 5.
Fundamentals of Attosecond Optics
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Book will be sent in robust, secure packaging to ensure it reaches you securely. Condition: NEW. For all enquiries, please contact Herb Tandree Philosophy Books directly - customer service is our primary goal. Satisfaction Guaranteed! Book is in Used-Good condition. Pages and cover are clean and intact. Used items may not include supplementary materials such as CDs or access codes. May show signs of minor shelf wear and contain limited notes and highlighting. Condition: UsedAcceptable. Language: English. Brand new Book. Attosecond optical pulse generation, along with the related process of high-order harmonic generation, is redefining ultrafast physics and chemistry.
A practical understanding of attosecond optics requires significant background information and foundational theory to make full use of these cutting-edge lasers and advance the technology toward the next generation of ultrafast lasers. Fundamentals of Attosecond Optics provides the first focused introduction to the field.
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- Fundamentals of Attosecond Optics (eBook, PDF).
The author presents the underlying concepts and techniques required to enter the field, as well as recent research advances that are driving the field forward. A stand-alone textbook for courses on attosecond optics and the interaction of matter with ultrafast, high-power lasers, the book begins with basic theory and gradually advances to more complex ideas.
Using both semi-classical models and quantum mechanics theories, the author explains foundational concepts and mechanisms including femtosecond lasers, high-order harmonic generation, and the technological leap that inspired attosecond pulse generation. The book introduces techniques for generating attosecond train using the basis of high-order harmonics, followed by an explanation of gating methods for extracting single isolated pulses.
Chapters examine the connection between attosecond pulses and high harmonic generation, the use of driving lasers as key tools in attosecond generation, the mechanism of chirped pulse amplification, and the generation of few-cycle pulses. The book looks at carrier-envelope phase stabilization and the theoretical foundations for single atom and dipole phase response.
It discusses propagation effects, introducing several approaches for improving phase matching; attosecond pulse generation and characterization, covering attosecond pulse train and single isolated pulses; and several examples of experimental applications for attosecond pulses.