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Terahertz Spin Currents and Inverse Spin Hall Effect in Thin-Film Heterostructures Containing Complex Magnetic Compounds

Seifert, T., Martens, U., Günther, S., Schoen, M. A. W., Radu, F. , Chen, X. Z., Lucas, I., Ramos, R. , Aguirre, M. H. , Algarabel, P. A. , Anadón, A. , Körner, H. S., Walowski, J., Back, C. , Ibarra, M. R., Morellón, L., Saitoh, E. , Wolf, M., Song, C., Uchida, K. , Münzenberg, M., Radu, I. and Kampfrath, T. (2017) Terahertz Spin Currents and Inverse Spin Hall Effect in Thin-Film Heterostructures Containing Complex Magnetic Compounds. SPIN 07 (03), p. 1740010.

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Other URL: http://doi.org/10.1142/S2010324717400100


Abstract

Terahertz emission spectroscopy (TES) of ultrathin multilayers of magnetic and heavy metals has recently attracted much interest. This method not only provides fundamental insights into photoinduced spin transport and spin-orbit interaction at highest frequencies, but has also paved the way for applications such as efficient and ultrabroadband emitters of terahertz (THz) electromagnetic ...

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Item type:Article
Date:2017
Institutions:Physics > Institute of Experimental and Applied Physics > Chair Professor Back > Group Christian Back
Identification Number:
ValueType
10.1142/S2010324717400100DOI
Keywords:TIME-DOMAIN SPECTROSCOPY; TEMPERATURE; TRANSITION; PHASE; FERH; EMITTERS; DYNAMICS; Terahertz spintronics; femtomagnetism; spin Hall effect; spin Seebeck effect; heterostructures
Dewey Decimal Classification:500 Science > 530 Physics
Status:Published
Refereed:Yes, this version has been refereed
Created at the University of Regensburg:Yes
Item ID:39182
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