Emission of terahertz pulses from nanostructured metal surfaces

When (nanostructured) metals, such as gold and silver, are illuminated with laser pulses having a duration in the femtosecond range, they can emit pulses of THz light. Most of these experiments have been performed using amplified lasers, giving rise to energy densities on the sample on the order of...

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Bibliographic Details
Published in:Journal of physics. D, Applied physics Applied physics, 2014-09, Vol.47 (37), p.374003-15
Main Authors: Ramanandan, G K P, Ramakrishnan, G, Kumar, N, Adam, A J L, Planken, P C M
Format: Article
Language:English
Subjects:
Emission
Energy density
Femtosecond
Fluence
Lasers
Light (visible radiation)
metal gratings
metals
Nanostructure
nanostructures
Silver
terahertz emission
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Summary:When (nanostructured) metals, such as gold and silver, are illuminated with laser pulses having a duration in the femtosecond range, they can emit pulses of THz light. Most of these experiments have been performed using amplified lasers, giving rise to energy densities on the sample on the order of mJ cm−2. The results of the different experiments are surprisingly inconsistent in both the measurements of the THz fluence as a function of laser fluence and in the interpretation of the results. This paper reviews the current state of affairs of this interesting topic and discusses some effects related to surface preparation that may influence the emission THz light on metals, particularly silver and copper. We also show results of measurements on nanostructured metals using unamplified laser pulses, which emphasize the role played by plasmons in the generation of THz light. When increasing the optical energy density on a specially nanostructured sample, we observe a transition from a 'classical' second-order non-linear optical process to a higher-order process as the source of the THz radiation. This supports recent results on a differently structured metal by Polyushkin et al (2014 Phys. Rev. B 89 125426), who also observe two different power regimes when decreasing the intensity coming from the high energy density side.
ISSN:0022-3727
1361-6463
DOI:10.1088/0022-3727/47/37/374003