Shaping THz emission spectra by using sub-wavelength nanopatterned spintronic THz emitters

TL;DR

This paper demonstrates how sub-wavelength nanopatterning of spintronic THz emitters allows for precise control over their emission spectra, revealing charge dynamics effects and enabling spectral shaping.

Contribution

It introduces a theoretical and experimental approach to modulate THz emission spectra through nanopatterning, highlighting the role of charge dynamics in spectral features.

Findings

Emission spectrum varies systematically with emitter size.

Significant spectral reductions below 4 THz and dips at 15 and 24 THz observed.

Analytical model accurately reproduces experimental results.

Abstract

We show in theory and experiment that in periodically patterned spintronic THz emitters (STE), charge dynamics can modify the emission spectrum in a well-controlled way. Characterization of sub-wavelength patterned STE at frequencies up to 30 THz shows that the STE's emission spectrum systematically changes with emitter size. The spectral intensity exhibits significant reductions at frequencies below 4 THz, accompanied by pronounced dips at around 15 THz and 24 THz. While reducing the STE size enhances the modulation of all features, it does not alter the dip frequencies. The effect originates from the charging of the structure's edges by THz currents, causing a backflow that interferes with the primary current pulse. An analytical model quantitatively reproduces these results and agrees well with control experiments. Our findings enable a detailed investigation of the charge dynamics in STE and provide additional means for controlled shaping of STE emission spectra by nano patterning.