Expand this Topic clickable element to expand a topic
Skip to content
Optica Publishing Group
  • 2013 Conference on Lasers and Electro-Optics - International Quantum Electronics Conference
  • (Optica Publishing Group, 2013),
  • paper CFIE_5_1

Acousto-optic Fastscan Delay with Scan Rates exceeding 30 kHz and sub-20-Attosecond Precision

Not Accessible

Your library or personal account may give you access

Abstract

Pump-probe-type experiments are the prevailing methods for unravelling ultrafast phenomena. Attosecond science [1], THz sub-cycle control [2] and pulse characterization techniques [3] are but a few examples requiring sensitive, stable and fast data acquisition with attosecond precision. In such experiments a scanning delay line is routinely used to adjust the optical path length of a probe pulse with respect to the pump pulse. Inertia limits the repetition rate of mechanical stages to several tens of Hz. Modern alternatives such as quickly rotating mirrors [4,5] or asynchronous optical sampling (ASOPS) [6] increase the scan rates up to few kHz, but their timing jitter of more than 40 fs prohibits their use in precise pump probe experiments and in ultrabroadband THz detection.

© 2013 IEEE

PDF Article
More Like This
Acousto-optic Fastscan Delay with Scan Rates exceeding 30 kHz and sub-20-Attosecond Precision

O. Schubert, M. Eisele, V. Crozatier, N. Forget, D. Kaplan, and R. Huber
CFIE_5_1 International Quantum Electronics Conference (IQEC) 2013

Acousto-optic Fastscan Delay for Ultrafast Photonics with sub-20-Attosecond Precision and Scan Rates exceeding 30 kHz

O. Schubert, M. Eisele, V. Crozatier, N. Forget, D. Kaplan, and R. Huber
CTh4M.3 CLEO: Science and Innovations (CLEO:S&I) 2013

Asynchronous ultrafast pump-probe experiments: Towards high speed ultrafast imaging with ultrahigh spectral resolution

A. Abbas, Y. Guillet, J.-M. Rampnoux, J. Carlier, P. Rigail, E. Mottay, B. Audoin, and S. Dilhaire
CFIE_P_29 The European Conference on Lasers and Electro-Optics (CLEO/Europe) 2013

Select as filters


Select Topics Cancel
© Copyright 2024 | Optica Publishing Group. All Rights Reserved