603. Wilhelm und Else Heraeus-Seminar
Magnonics
Spin Waves Connecting Charges, Spins and Photons
January 6-8, 2016, Physikzentrum Bad Honnef
generously funded by the Wilhelm und Else Heraeus-Stiftung
Magnons are the collective excitations of a ferromagnet's electrons and can be understood as the precession of the electrons' spins. The collective nature of magnons is established by the short-range exchange interaction as well as the non-local magnetic dipolar interaction, resulting in coherence of SWs from mesoscopic to even macroscopic length scales. Consequently, magnons are “charge current free” and, therefore, less subject to dissipation caused by scattering with impurities on the atomic level. This renders magnons a promising alternative to electric (spin) currents for the transport of spin information - one of the grand challenges of condensed matter physics.
The possibilities of magnons being a new means of information carriers stimulated the emerging research field called “magnonics”. Its name - inspired by the terms “spintronics” and “photonics” - indicates the main driving force behind magnonics: exploiting magnons for information processing to supersede electronics. For frequencies ranging from Gigahertz toTerahertz, the magnon wavelengths can be as small as only a few nanometers, orders of magnitude smaller compared to electromagnetic waves. Also, their transport properties exhibit a strong dependence on the magnetization configuration that can be non-volatile and still reconfigurable on a sub-nanosecond timescale.
Even though magnonics in itself still poses many interesting questions that are worth investigating, recent developments in spintronics as well as photonics show the potential of magnonics to become a powerful “bridge technology” closing the gap on the time- and length-scale between charge and photon physics.
The key intention of this 603rd WE-Heraeus Seminar is to eludicate how magnons can connect charge and photon driven magnetization dynamics.
The number of participants is limited to about 80, so that registration as soon as possible is advisable.
Organization Committee
Helmut Schultheiss (Helmholtz – Zentrum Dresden – Rossendorf)
Andrii Chumak (Technische Universität Kaiserslautern)
Contact Adress:
Helmut Schultheiss
Helmholtz-Zentrum Dresden Rossendorf
Bautzner Landstraße 400
01328 Dresden
Germany
Tel.: +49 351 2603243