Ultrafast Coherent Magnetism

We develop novel experimental tools to investigate magentization dynamics with attosecond temporal resolution. 

Though technologically extremely appealing, the manipulation of spins with ultrafast light waveforms is impeded by the weak coupling between light and spin degrees of freedom. Rather, spin-orbit coupling governs the spin dynamics after optical excitation due to the strong electric fields close to the nuclei of a material. With spin-orbit-coupling times in a solid on the order of 10s of femtoseconds or longer these dynamics decouple significantly from the sub-femtosecond response of the electronic configuration to an excitation field.

Yet, recent theoretical studies indicate a possibility of sub-femtosecond magnetization control in multi-sub-lattice materials. The key to this ultrafast spin dynamics are inter-sub-lattice charge excitations, which are also associated with inter-site spin transfer. This concomitant spin-current then triggers a macroscopic change in magnetization and paves the way to light frequency magnetization control.

We set up an experimental program dedicated to the exploration of this ultrafast, coherent light-field controlled magnetics scrutinizing attosecond magnetization dynamics in alloys and magnetic multi-layer structures.

The project seeks to increase our understanding of the fundamental concepts of modern magnetism, with particular emphasis on the timescale of the initially coherent and non-dissipative light-matter interaction. We seek to provide information about the magnetic coupling within few-atom thickness magnetic multilayer structures as well as in multi-constituent magnetic alloys. The anticipated outcome will be relevant for the development of novel approaches for ultrafast and nm-confined magnetic recording and spintronics/spin-photonics.

In a collaboration with theory (MBI Berlin/MPI Halle), experiment (MPQ Garching) and experts on magnetic system manufacturing (U Greifswald) we recently succeded in a first demonstration of light-wave control of magnetic moments:

Light-wave dynamic control of magnetism (Nature 2019) & press release

All images © TU Graz/Institute of Experimental Physics
Contact
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Institut of Experimental Physics
Graz University of Technology
Petersgasse 16
8010 Graz
Austria

Group Leader
Martin SCHULTZE,
Univ.-Prof. Dipl.-Phys. Dr.rer.nat.

Tel.: +43 (0) 316 / 873 - 8142
Fax: +43 (0) 316 / 873 - 108142

schultzenoSpam@tugraz.at

Group members
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Prof. Martin SCHULTZE
schultzenoSpam@tugraz.at
+43 (316) 873-8142
orcid-ID

 
Hana Kristin HAMPEL
hana.hampelnoSpam@tugraz.at
+43 (316) 873-8927

 
Thomas JAUK
thomas.jauknoSpam@tugraz.at
+43 (316) 873-8144


Kazma KOMATSU
kazma.komatsunoSpam@tugraz.at
+43 (316) 873-8924


Zhenhao WANG
wangnoSpam@tugraz.at
+43 (316) 873-8924