Contact

Coordinator
PD Dr. Peter Zahn

Phone: +49 351 260 3121
E-mail: nanonet@hzdr.de

Spokesperson
Prof. Dr. Artur Erbe

Phone: +49 351 260 2366
E-mail: a.erbe@hzdr.de

Deputy spokesperson
Prof. Dr. Gianaurelio Cuniberti

Phone: +49 351 463 31414
E-mail: g.cuniberti@tu-dresden.de

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News

2024-02-21
Apply for Green ICT Award 2024, deadline April 30th

2023-06-22
Ahmad Echresh defended his PhD thesis at TU Dresden, Faculty of Physics - Congratulations!

2020-12-31
Helmholtz funding of NanoNet expired, but the network will continously promote collaboration and exchange of ideas.
Thanks to all members and partners.
Stay in contact!

Events

2024-05-27/31
E-MRS Spring Meeting 2024, Strassbourg, FR

2024-06-24/26
DRC 2024, College Park, MD, US

2024-09-18/20
NanoNet+11 Workshop 2024, Plauen

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Acknowledgment

IHRS NanoNet was funded by Initiative and Networking Fund of Helmholtz Association (VH-KO-606) until Dec 2020.

Magnetic Resonance in Nanostructures

Lecturer:

Dr. Jürgen Lindner, Dr. Kilian Lenz, Dr. Helmut Schultheiss

Course Type:

Block Course, 2 days (ca. 9 h)

Start Date:

16-17 June 2014

Schedule:

Monday, 16.06.2014; 09:15 - 12:45
Tuesday, 17.06.2014; 09:15 - 16:45

Location:

HZDR, Building 712, Room 138 (how to find us)

Summary:

This course gives an overview on magnetic resonance being a phenomenon that is inherently connected with magnetization dynamics in nanostructured magnetic elements. The theoretical background will be reviewed and explained using simple descriptions. We discuss experimental approaches to detect magnetic resonance and show how this method can be adopted to investigate single magnetic nanostructures. The modern approaches comprise the method of microresonators and alternative detection schemes such as optical and electrical detection. A demonstration of detection of magnetic resonance in the lab will be given.

Language:

English

More info:

Course announcement

Detailed information and agenda

Notes:

The IHRS NanoNet cordially invites all interested to attend the course. 
Attendance is free, but due to the limited number of seats registration is required until 09 June 2014.

Registration:

Registrations are closed

Course Material:

Access is limited to registered participants!

Part I - Theory of Spindynamics

Part II - Ferromagnetic Resonance Techniques

Part III - Magnetic Anisotropy & Damping Mechanisms

Part IV - Magneto-Optical Methods for Investigating Spin Dynamics

Contact:

IHRS NanoNet coordinator (nanonet@hzdr.de)