Power-scaling attosecond sources using universal scaling principles for nonlinear optical processes in gases

C. M. Heyl; C. M. Heyl; H. Coudert-Alteirac; M. Miranda; M. Louisy; P. Rudawski; F. Brizuela; K. Kovacs; K. Kovacs; V. Tosa; V. Tosa; E. Balogh; E. Balogh; K. Varjú; K. Varjú; P. Johnsson; A. Couairon; C. L. Arnold; A. L’Huillier

doi:10.1364/LS.2016.LTu1E.2

Frontiers in Optics 2016
OSA Technical Digest (online) (Optica Publishing Group, 2016),
paper LTu1E.2
•https://doi.org/10.1364/LS.2016.LTu1E.2

Power-scaling attosecond sources using universal scaling principles for nonlinear optical processes in gases

C. M. Heyl, H. Coudert-Alteirac, M. Miranda, M. Louisy, P. Rudawski, F. Brizuela, K. Kovacs, V. Tosa, E. Balogh, K. Varjú, P. Johnsson, A. Couairon, C. L. Arnold, and A. L’Huillier

Laser Science 2016

Rochester, New York United States
17–21 October 2016
ISBN: 978-1-943580-19-4

From the session
Carl E. Anderson Award for Outstanding Doctoral Dissertation Award Session (LTu1E)

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C. M. Heyl, H. Coudert-Alteirac, M. Miranda, M. Louisy, P. Rudawski, F. Brizuela, K. Kovacs, V. Tosa, E. Balogh, K. Varjú, P. Johnsson, A. Couairon, C. L. Arnold, and A. L’Huillier, "Power-scaling attosecond sources using universal scaling principles for nonlinear optical processes in gases," in Frontiers in Optics 2016, OSA Technical Digest (online) (Optica Publishing Group, 2016), paper LTu1E.2.

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Abstract

Scaling attosecond sources to higher pulse energy and/or repetition rate can benefit many applications. We present a scaling framework for nonlinear light-matter interactions, applicable to attosecond pulse generation and other nonlinear phenomena as e.g. filamentation.

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