IEEE Distinguished Lecturer: Antiferromagnetic Insulatronics: Spintronics without magnetic fields and moving electrons
- 11:30 - 12:30
- Prof. Dr. Mathias Kläui
- Johannes Gutenberg-University Mainz, Germany
- Dr. Helmut Schultheiß (3243), Susann Gebel (2345)
- Abstract: With information technology consuming a sizeable part of the total energy, “GreenIT” information storage and computing technology will have a major impact to address societal challenges.
Traditionally, magnetism has been the prime approach to non-volatile data storage and spintronics devices for memory and sensing have been realized. However so far, spintronics is linked inextricably to ferromagnets in metals entailing major disadvantages, such as ohmic losses during operation and unwanted interactions due to stray fields. A possible novel approach is to use antiferomagnets. While known for a long time, antiferromagnetically ordered systems have previously been considered, as expressed by Louis Néel in his Nobel Prize Lecture, to be “interesting but useless”.
However, since antiferromagnets potentially promises faster operation, enhanced stability with respect to interfering magnetic fields and higher integration due to the absence of dipolar coupling, they could potentially become a game changer for new spintronic devices.
I will introduce the key operations of reading and writing the antiferromagnetic order to store and retrieve information and how to transport information using low loss spin currents. Reading can be achieved in metallic as well as insulating antiferromagnetic heterostructures using special magnetoresistance effects and efficient switching of antiferromagnets has been demonstrated by spin orbit torques. Spin currents have been shown to carry information with unprecedented efficiency in the insulating antiferromagnet hematite, the main component of rust showing that very common materials can be used in unexpected ways!
Letztmalig verändert: 05.04.2020, 00:09:58
Helmholtz-Zentrum Dresden-Rossendorf (106/255 - Hörsaal)Bautzner Landstraße40001328Dresden
Helmholtz-Zentrum Dresden-RossendorfBautzner Landstraße40001328Dresden
- Bauing., Architektur
- Elektro- u. Informationstechnik
- Gesellschaft, Philos., Erzieh.
- Sprache, Literatur und Kultur