Dr. Helena REICHLOVÁH-Index: 30
Institute of Physics of the CAS, Prague, EU
Positions: Leader of Dioscuri Centre for Spincaloritronics and Magnonics at Institute of Physics of the Czech Academy of Sciences, Prague, the Czech Republic.
Specialization: Compensated Magnetic Materials – Antiferromagnets and Altermagnets.
At the NANOCON´26 Helena Reichlová will present invited talk “Spintronics with Compensated Magnets” in the Session A – Nanomaterials for Electronic, Magnetic and Optic Applications, Carbon Nanostructures, Quantum Dots.
Personal Background and Education:
Helena Reichlová receives her Ph.D. degree in Spintronics and Nanoelectronics (2016) from the Faculty of Mathematics and Physics at the Charles University in Prague, Czech Republic.
During her student period she completed internships at the Universite de Louis Pasteur, Strasbourg, France (2008-2009) and at the Ohio State University, Columbus, USA (2012-2013). In the period 2018-2023 she worked as the researcher and lecturer at the Technical University Dresden, Germany (in 2022-2023 as the Eleonore-Trefftz Professor).
In October 2023 she established the Dioscuri Centre for Spincaloritronics and Magnonics at the Institute of Physics CAS, Prague, the Czech Republic, with the goal of investigating these phenomena in compensated magnetic materials, such as antiferromagnets and altermagnets. This initiative was launched by the Max Planck Society and is jointly supported by the German Federal Ministry of Education and Research and the Czech Ministry of Education, Youth, and Sports. The centre operates primarily as an experimental group and benefits from close collaboration with the Department of Spintronics and Nanoelectronics, which includes a strong theoretical team. On the German side, the centre is supported by Professor Sebastian T. B. Goennenwein from the University of Konstanz.
Research interests:
Helena Reichlová leads a research team focused on new materials for spintronics, magnonics and spincaloritronics. The aim is to explore the utilisation of the electron´s quantum property – spin- and its excitations, known as magnons, for information transfer and storage.
Summary of publication activity:
Author/co-author of more than 50 papers in international peer-reviewed journals; The number of total citations > 4.000 and H-index: 30 (Google Scholar, February 2026); ORCID ID 
.