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Graphene and Carbon Nanotubes: Ultrafast Optics and Relaxation Dynamics / Edition 1

Graphene and Carbon Nanotubes: Ultrafast Optics and Relaxation Dynamics / Edition 1

by Ermin Malic, Andreas Knorr
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Product Details

ISBN-13: 9783527411610
Publisher: Wiley
Publication date: 05/06/2013
Pages: 360
Product dimensions: 6.90(w) x 9.60(h) x 0.30(d)

About the Author

Ermin Malic graduated in Physics from Technical University (TU) Berlin. During his PhD thesis, he was a visiting researcher at the MIT and the University of Modena, Italy. From 2003 to 2008, he was a fellow of the Studienstiftung des Deutschen Volkes and the Friedrich-Ebert Stiftung. He received the DAAD and the Chorofas award for outstanding scientific research. After a post-doctoral stay at CIN2 in Barcelona, he is now leading the Einstein Junior Research Group on Microscopic Study of Carbon-based Hybrid Nanostructures at TU Berlin.

Professor Andreas Knorr works in the field of nonlinear optics and quantum electronics of nanostructured solids.
His research is focused on the interaction of light and matter, self-consistent solutions of Maxwell- and material equations and many body effects in open quantum systems. Since 2000 Andreas Knorr has a professorship at the Technical University of Berlin. His scientific career, which started at the Friedrich-Schiller-University Jena led him to the Universities of New Mexico, Arizona (College of Optical Sciences), Marburg, Göttingen and to Sandia National Labs Albuquerque and NTT Tokio.

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Table of Contents

1. Introduction -
The Carbon Age
2. Theoretical Framework
3. Experimental techniques for the Study of Ultrafast Nonequilibrium Carrier Dynamics in Graphene

Part One: Electronic Properties -
Carrier Relaxation Dynamics
4. Relaxation dynamics in graphene
5. Carrier Dynamics in Carbon Nanotubes

Part Two: Optical Properties -
Absorption Spectra
6. Absorption Spectra of Carbon Nanotubes
7. Absorption Spectrum of Graphene
A Introduction to the Appendices
B Observables in Optical Experiments
C Second Quantization
D Equations of Motion
E Mean-Field and Correlation Effects

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