Spintronic Terahertz Generation Using an Optimized Metallic Bilayer of Epitaxial Grown Fe/Pt on Silicon Substrate

Valynn Katrine Mag-usara; Garik Torosyan; Miezel Talara; Jessica Afalla; Laura Scheuer; Dominik Sokoluk; Evangelos Th. Papaioannou; Marco Rahm; Rene Beigang; Masahiko Tani

JSAP-OSA Joint Symposia 2019 Abstracts
OSA Technical Digest (Optica Publishing Group, 2019),
paper 19p_E215_5

Spintronic Terahertz Generation Using an Optimized Metallic Bilayer of Epitaxial Grown Fe/Pt on Silicon Substrate

Valynn Katrine Mag-usara, Garik Torosyan, Miezel Talara, Jessica Afalla, Laura Scheuer, Dominik Sokoluk, Evangelos Th. Papaioannou, Marco Rahm, Rene Beigang, and Masahiko Tani

JSAP-OSA Joint Symposia 2019

Hokkaido Japan
18–21 September 2019
ISBN: 978-4-86348-743-7

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Terahertz Photonics (TP)

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V. K. Mag-usara, G. Torosyan, M. Talara, J. Afalla, L. Scheuer, D. Sokoluk, E. T. Papaioannou, M. Rahm, R. Beigang, and M. Tani, "Spintronic Terahertz Generation Using an Optimized Metallic Bilayer of Epitaxial Grown Fe/Pt on Silicon Substrate," in JSAP-OSA Joint Symposia 2019 Abstracts, OSA Technical Digest (Optica Publishing Group, 2019), paper 19p_E215_5.

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Abstract

Metallic spintronic heterostructures consisting of ultrathin ferromagnetic (FM) and non-ferromagnetic (NM) layers emit THz radiation through a distinct and efficient THz generation mechanism, which arises from the conversion of spin current generated in the FM layers into transverse charge current in the NM layers [1, 2]. We have previously demonstrated that an optimized bilayer of 2-nm Fe and 3-nm Pt epitaxial grown on 500-μm MgO substrate is a remarkably versatile spintronic THz emitter, as it exhibited fairly the same THz emission efficiency at 780-nm and 1550-nm pulsed excitation wavelengths [2]. In this work, we investigated spintronic THz generation when the Fe/Pt bilayer is epitaxial grown on 500-μm Si substrate. As with the Fe/Pt on MgO, the THz emission properties of the Fe/Pt on Si were probed by standard THz time-domain emission spectroscopy using a mode-locked femtosecond (fs) fiber laser source (pulse duration: ~100-fs; repetition rate: ~100 MHz; central wavelengths: ~780 nm, ~1550 nm).

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