Contact

Prof. Dr. Joachim Wosnitza

Director
Dresden High Magnetic Field Laboratory
j.wosnitzaAthzdr.de
Phone: +49 351 260 3524

Dr. Thomas Herrmannsdörfer

Head of department
t.herrmannsdoerferAthzdr.de
Phone: +49 351 260 3320

News

Publikation: Fermi-liquid transport beyond the upper critical field in superconducting La2PrNi2O7 thin films

Hsu, Y.-T et al., Nat. Comm. 17 (2026), 3760

Publications: Transmission of Radio-Frequency Waves and Nuclear Magnetic Resonance in Lanthanum Superhydrides

Semenok, D. V. et al., Adv. Science (2026), 20701

Publication: Atacamite Cu2Cl(OH)3 in High Magnetic Fields: Quantum Criticality and Dimensional Reduction of a Sawtooth-Chain Compound

Heinze, L. et al., Phys.Rev.Letters 134 (2025), 216701

Newsletter: Read the latest news from the four leading high field labs in Europe on the EMFL website.

Foto: EMFL News 1/2026 ©Copyright: EMFL

3D Tour of the Dresden High Magnetic Field Laboratory

Foto: Startpunkt 360-Grad-Tour durch das Hochfeld-Magnetlabor Dresden ©Copyright: Dr. Bernd Schröder

Video: EMFL - Science in High Magnetic Fields

Gradutate School

orangener PfeilLink to TU Dresden

Information for Students and Graduates

Theses

Dr. Elisabeth Green and Lars Opherden in the NMR-Lab

At our institute, we continuously offer the possibility to carry out your practical courses as well as Bachelor, Master and PhD theses. We focus on novel superconducting and magnetic materials. In particular, electronic, magnetic, as well as thermodynamic material properties are investigated.

Here, you find some possible thesis projects. 

Student Research Assistant

The Dresden High Magnetic Field Laboratory provides the opportunity to work as a student research assistant.
You may send us your application or contact us by phone or e-mail.

For further information or for transmitting your application, please contact Dr. Thomas Herrmannsdörfer oder Prof. Joachim Wosnitza. 

Wissenswertes für Studierende und Absolventen

Lehre an der TU-Dresden im Sommersemester 2026

Thema Dozent Zeit Ort Für wen?

Supraleitung I (Vorlesung)

  • Grundphänomene der Supraleitung
  • Phänomenologische Modelle
  • Grundzüge der BCS-Theorie
  • Josephson-Effekte
  • Neuartige Supraleiter
  • Unkonventionelle Supraleitung

Prof. Dr. Joachim Wosnitza

Prof. Dr. Joachim Wosnitza

Mittwochs 3. DS (11:10 - 12:40 Uhr)

Erste Vorlesung: 15.04.2026

 REC/D16/U Physikstudierende ab dem 6. Semester