Spin transport across interfaces is critical for spintronic devices, yet remains difficult to probe on ultrafast timescales. We use terahertz emission spectroscopy on Co|Pt heterostructures whose interface roughness is tuned through the thickness of an underlying Au buffer layer, while leaving other growth parameters unchanged. From the measured THz electric field, we extract the interface spin-current transparency ts after correcting for the changes in sample impedance and optical absorption of the stack. Surprisingly, we find that ts decreases by only approximately 30% as the interface root-mean-square roughness and the lateral grain size both increase by a factor of three, with no measurable change in the THz spectrum. These results demonstrate that interfacial spin transport is relatively robust against morphological variations on ultrafast timescales, establishing terahertz emission spectroscopy as a reliable probe of spin dynamics across imperfect interfaces.
@article{arxiv.2605.26837,
title = {Terahertz spin-current transparency through rough interfaces},
author = {Jiří Jechumtál and Jakub Zázvorka and Ondřej Novák and Martin Rejhon and Peter Kubaščík and Lukáš Nowak and Petr Němec and Eva Schmoranzerová and Martin Veis and Lukáš Nádvorník and Zdeněk Kašpar},
journal= {arXiv preprint arXiv:2605.26837},
year = {2026}
}