Abstract
We report on two experiments about the interaction of femtosecond laser pulses with nano-scale structures. In the first experiment, we have observed strong-field effects at nanometer sharp metal tips, such as rescattering, the high-energy cut-off and a strong carrier-envelope phase dependence. All these effects are hallmarks of attosecond physics. We have used the new understanding of these processes at a solid tip to build a near-field sensor with record sensitivity of 1 nm. In the second experiment, we have demonstrated the acceleration of non-relativistic electrons with the optical near-field at a photonic grating structure, with an acceleration gradient of 25MeV/m. The grating serves to generate a near-field mode co-propagating with and efficiently imparting momentum onto the electron, which is impossible in vacuum over a macroscopic distance. For relativistic electrons we expect an acceleration gradient of more than 1 GeV/m with two-sided grating structures.
Highlights
Nanooptic or near-field optics opens possibilities that are impossible with common optics
In the second part we will show how evanescent modes can be utilized to accelerate electrons with the electro-magnetic light-field of femtosecond laser pulses. Whereas in the former case field enhancement at the tip allows us to work with low-power oscillator pulses and still reach the required peak intensities, so enables, in the second case, the grating the generation of the accelerating mode
Other processes, including inelastic scattering can take place. In this contribution we focus on the second process
Summary
Ultrashort laser oscillator pulses meet nano-structures: from attosecond physics at metal tips to dielectric laser accelerators. This content has been downloaded from IOPscience. Please scroll down to see the full text. Ser. 467 012004 (http://iopscience.iop.org/1742-6596/467/1/012004) View the table of contents for this issue, or go to the journal homepage for more. Download details: IP Address: 131.188.201.33 This content was downloaded on 06/02/2014 at 08:38 Please note that terms and conditions apply.
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