Frequency and power dependence of spin-current emission by spin pumping
  in a thin film YIG/Pt system

B. J. van Wees; D. D. Stancil; J. Ben Youssef; N. Vlietstra; V. Castel

research

Frequency and power dependence of spin-current emission by spin pumping in a thin film YIG/Pt system

Authors: B. J. van Wees
D. D. Stancil
J. Ben Youssef
N. Vlietstra
V. Castel
Publication date: 1 January 2012
Publisher: 'American Physical Society (APS)'
Doi

Abstract

This paper presents the frequency dependence of the spin current emission in a hybrid ferrimagnetic insulator/normal metal system. The system is based on a ferrimagnetic insulating thin film of Yttrium Iron Garnet (YIG, 200 nm) grown by liquid-phase-epitaxy (LPE) coupled with a normal metal with a strong spin-orbit coupling (Pt, 15 nm). The YIG layer presents an isotropic behaviour of the magnetization in the plane, a small linewidth, and a roughness lower than 0.4 nm. Here we discuss how the voltage signal from the spin current detector depends on the frequency [0.6 - 7 GHz], the microwave power, Pin, [1 - 70 mW], and the in-plane static magnetic field. A strong enhancement of the spin current emission is observed at low frequencies, showing the appearance of non-linear phenomena.Comment: 7 pages, 5 figure