Bibliographic Details
| Title: |
Principles of spintronic THz emitters. |
| Authors: |
Wu, Weipeng1 (AUTHOR), Yaw Ameyaw, Charles2 (AUTHOR), Doty, Matthew F.2 (AUTHOR) doty@udel.edu, Jungfleisch, M. Benjamin1 (AUTHOR) mbj@udel.edu |
| Superior Title: |
Journal of Applied Physics. 9/7/2021, Vol. 130 Issue 9, p1-23. 23p. |
| Subject Terms: |
*PICOSECOND pulses, *TOPOLOGICAL insulators, *DEGREES of freedom, *PHYSICS, *PHONONS, *TERAHERTZ materials |
| Abstract: |
Significant progress has been made in answering fundamental questions about how and, more importantly, on what time scales interactions between electrons, spins, and phonons occur in solid state materials. These complex interactions are leading to the first real applications of terahertz (THz) spintronics: THz emitters that can compete with traditional THz sources and provide additional functionalities enabled by the spin degree of freedom. This Tutorial article is intended to provide the background necessary to understand, use, and improve THz spintronic emitters. A particular focus is the introduction of the physical effects that underlie the operation of spintronic THz emitters. These effects were, for the most part, first discovered through traditional spin-transport and spintronic studies. We, therefore, begin with a review of the historical background and current theoretical understanding of ultrafast spin physics that has been developed over the past 25 years. We then discuss standard experimental techniques for the characterization of spintronic THz emitters and—more broadly—ultrafast magnetic phenomena. We next present the principles and methods of the synthesis and fabrication of various types of spintronic THz emitters. Finally, we review recent developments in this exciting field including the integration of novel material platforms such as topological insulators as well as antiferromagnets and materials with unconventional spin textures. [ABSTRACT FROM AUTHOR] |
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| Database: |
Academic Search Premier |
