Abstract
We report on the generation of extreme ultraviolet radiation utilizing the plasmonic field enhancement in arrays of bow-tie gold optical antennae. Furthermore, their suitability to support high-order harmonic generation is examined by means of finite-difference time-domain calculations and experiments. Particular emphasis is paid to the thermal properties, which become significant at the employed peak intensities. A damage threshold depending on the antenna length is predicted and confirmed by our experimental findings. Moreover, the gas density in the vicinity of the antennae is characterized experimentally to determine the number of atoms contributing to the measured radiation, which is almost an order of magnitude larger than previously reported.
Highlights
We report on the generation of extreme ultraviolet radiation utilizing the plasmonic field enhancement in arrays of bow-tie gold optical antennae
Similar to our previous experiments with rod-type optical antennae [29] we observe a rapid destruction of the samples, which has recently been reported by Park et al [18, 32]
We have presented an analysis of important parameters influencing the generation of EUV radiation utilizing the plasmonic field enhancement of bow-tie optical antennae
Summary
We report on the generation of extreme ultraviolet radiation utilizing the plasmonic field enhancement in arrays of bow-tie gold optical antennae. Their suitability to support high-order harmonic generation is examined by means of finite-difference time-domain calculations and experiments. By flipping a mirror into the harmonic beam and setting the monochromator to the appropriate wavelength, it is possible to switch between signal detection for the third harmonic and EUV radiation. The pulse duration of the incident laser pulses was measured with an interferometric autocorrelator (Venteon, Pulse four IAC) as well as a SPIDER setup (Venteon, Pulse four SPIDER) at the position of the sample to check the dispersion control and verify the expected pulse duration of < 10 fs
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
