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200 00$aAttosecond nanophysics $efrom basic science to applications /$fedited by Peter Hommelhoff, Matthias F. Kling
210  1$aWeinheim, Germany :$cWiley-VCH,$d[2015]
210  4$dİ2015
215   $a1 online resource (845 p.)
300   $aDescription based upon print version of record.
311   $a3-527-66565-X 
311   $a3-527-41171-2 
320   $aIncludes bibliographical references and index.
327   $aCover; Related Titles; Title Page; Copyright; List of Contributors; Preface; Chapter 1: Introduction; 1.1 Attosecond Tools; 1.2 Solids in Strong Fields; 1.3 Attosecond Physics in Isolated Nanosystems; 1.4 Attosecond Physics on Nanostructured Surfaces; 1.5 Perspectives; References; Chapter 2: Nano-Antennae Assisted Emission of Extreme Ultraviolet Radiation; 2.1 Introduction and Motivation; 2.2 Experimental Idea; 2.3 High-Order Harmonic Generation; 2.4 Plasmonics in Intense Laser Fields; 2.5 Experiments; 2.6 Conclusion and Outlook; References
327   $aChapter 3: Ultrafast, Strong-Field Plasmonic Phenomena3.1 Introduction; 3.2 Ultrafast Photoemission and Electron Acceleration in Surface Plasmon Fields; 3.3 Research on Surface Plasmon-Enhanced Photoemission and Electron Acceleration; 3.4 Conclusions; Acknowledgments; References; Chapter 4: Ultrafast Dynamics in Extended Systems; 4.1 Introduction-Why Ultrafast Electron Dynamics in Extended Systems?; 4.2 Multi-Photon Absorption in Extended Systems; 4.3 Coulomb Complexes: A Simple Approach to Ultrafast Electron Dynamics in FEL-Irradiated Extended Systems
327   $a4.4 Nano-Plasma Transients on the Femtosecond Scale4.5 Summary; 4.6 Acknowledgments; References; Chapter 5: Light Wave Driven Electron Dynamics in Clusters; 5.1 Introduction; 5.2 Resolving Light-Matter Interactions on the Atomic-Scale; 5.3 Fundamentals of the Microscopic Particle-in-Cell Approach; 5.4 Microscopic Analysis of Laser-Driven Nanoclusters; 5.5 Conclusions; References; Chapter 6: From Attosecond Control of Electrons at Nano-Objects to Laser-Driven Electron Accelerators; 6.1 Attosecond Control of Electrons at Nanoscale Metal Tips; 6.2 Experiments on Dielectric Nanospheres
327   $a6.3 The Influence of the Spatial Field Distribution on Photoelectron Spectra6.4 Time Resolved Pump-Probe Schemes; 6.5 Electron Acceleration with Laser Light at Dielectric Nano-Gratings; References; Chapter 7: Theory of Solids in Strong Ultrashort Laser Fields; 7.1 Interaction of Ultrafast Laser Pulse with Solids: Coherent and Incoherent Electron Dynamics; 7.2 One Dimensional Tight Binding Model; 7.3 3D Model of Electron Dynamics; References; Chapter 8: Controlling and Tracking Electric Currents with Light; 8.1 Introduction
327   $a8.2 Electric Field Control of Currents: From the Vacuum Tube to the Transistor8.3 Generating Electric Currents with Light: An Ultrabroad-Bandwidth Control Tool; 8.4 Optical Field Control of Electric Current in Large Bandgap Materials; 8.5 Attosecond Probing of the Strong-Field-Induced Changes of the Dielectric Electronic Properties; 8.6 Detection of the Carrier-Envelope Phase Using Optical-Field-Induced Currents; 8.7 Toward Ultrafast Photoactive Logic Circuits?; References; Chapter 9: Ultrafast Nano-Focusing for Imaging and Spectroscopy with Electrons and Light; 9.1 Introduction
327   $a9.2 Adiabatic Nanofocusing
330   $aThe first broad and in-depth overview of current research in attosecond nanophysics, covering the field of active plasmonics via attosecond science in metals and dielectrics to novel imaging techniques with the highest spatial and temporal resolution.The authors are pioneers in the field and present here new developments and potential novel applications for ultra-fast data communication and processing, discussing the investigation of the natural timescale of electron dynamics in nanoscale solid state systems.Both an introduction for starting graduate students, as well as a look at the current 
606   $aMicrophysics
606   $aNanoscience
615  0$aMicrophysics.
615  0$aNanoscience.
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702   $aHommelhoff$b Peter
702   $aKling$b Matthias F.
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200 10$aIn the tradition of Ahlfors-Bers, V $ethe triennial Ahlfors-Bers Colloquium, May 8-11, 2008, Rutgers University, Newark, New Jersey /$fMario Bonk [and four others], editors
210  1$aProvidence, Rhode Island :$cAmerican Mathematical Society,$d[2010]
210  4$dİ2010
215   $a1 online resource (346 p.)
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300   $aDescription based upon print version of record.
320   $aIncludes bibliographical references.
327   $aMom-technology and hyperbolic 3-manifolds --  Dynamical properties of the Weil-Petersson metric --  Equidistribution of horocyclic flows on complete hyperbolic surfaces of finite area --  A cofinite universal space for proper actions for mapping class groups --  On sequences of finitely generated discrete groups --  A fake Schottky group in Mod(S) --  Eigenvalues of hyperbolic elements in Kleinian groups --  Primitive words and self-intersections of curves on surfaces generated by the Gilman-Maskit discreteness algorithm.
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