Controlled electron acceleration from dielectric nanospheres in intense few-cycle laser fields

S. Zherebtsov; Th. Fennel; J. Plenge; E. Antonsson; I. Znakovskaya; A. Wirth; O. Herrwerth; F. Süßmann; C. Peltz; I. Ahmad; S. Trushin; V. Pervak; S. Karsch; S. Karsch; M. J. J. Vrakking; B. Langer; C. Graf; M. I. Stockman; M. I. Stockman; F. Krausz; F. Krausz; E. Rühl; M. F. Kling

CLEO/Europe and EQEC 2011 Conference Digest
OSA Technical Digest (CD) (Optica Publishing Group, 2011),
paper EI1_5

Controlled electron acceleration from dielectric nanospheres in intense few-cycle laser fields

S. Zherebtsov, Th. Fennel, J. Plenge, E. Antonsson, I. Znakovskaya, A. Wirth, O. Herrwerth, F. Süßmann, C. Peltz, I. Ahmad, S. Trushin, V. Pervak, S. Karsch, M. J. J. Vrakking, B. Langer, C. Graf, M. I. Stockman, F. Krausz, E. Rühl, and M. F. Kling

European Quantum Electronics Conference 2011

Munich Germany
22–26 May 2011
ISBN: 978-1-4577-0532-8

From the session
Microvacity Polaritons and Ultrafast Light-Matter Interaction (EI1)

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S. Zherebtsov, T. Fennel, J. Plenge, E. Antonsson, I. Znakovskaya, A. Wirth, O. Herrwerth, F. Süßmann, C. Peltz, I. Ahmad, S. Trushin, V. Pervak, S. Karsch, M. J. J. Vrakking, B. Langer, C. Graf, M. I. Stockman, F. Krausz, E. Rühl, and M. F. Kling, "Controlled electron acceleration from dielectric nanospheres in intense few-cycle laser fields," in CLEO/Europe and EQEC 2011 Conference Digest, OSA Technical Digest (CD) (Optica Publishing Group, 2011), paper EI1_5.

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Abstract

Application of nanosystems in the ultrafast regime requires control of nanoscopic fields on sub-cycle timescales [1]. Waveform controlled few-cycle laser pulses in the visible have proven to be a powerful tool to steer electron dynamics on a sub-femtosecond time scale in atoms [2] and molecules [3]. One of the most promising routes to the realization of electronics operating at light frequencies arises from applying such light fields to nanoscale systems. We demonstrate the emission and directional control of highly energetic electrons from isolated SiO₂ nanoparticles in few-cycle laser fields with well defined waveform at intensities close to the tunneling regime.

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