Beatrix Fehér successfully defended her PhD Thesis

Beatrix Fehér successfully defended her PhD Thesis.

Title: Laser-Field-Controlled Ultrafast Currents in Metals

Supervisor: Péter Dombi, Vaclav Hanus  

Congratulation!

 

 

Róbert Kovács succesfully defended his doctoral thesis of the Hungarian Academy of Sciences

Róbert Kovács succesfully defended his doctoral thesis of the Hungarian Academy of Sciences

Title: Két időskálás hővezetési modellek elemzése és alkalmazása heterogén anyagokra

 

Congratulation!

István Vona successfully defended his PhD Thesis

István Vona successfully defended his PhD Thesis.

Title: Non-perturbative effects in integrable quantum field theories

Supervisor:  Zoltán Bajnok  

Congratulation!

 

Balázs Kacskovics defended his PhD Thesis

Balázs Kacskovics successfully defended his PhD Thesis.

Title: Modeling Gravitational Wave Sources and Compact Stars 

Supervisors:  Mátyás Vasúth; Dániel Barta 

Congratulation!

 

Silicon Carbide Quantum Defects: From Fundamental Physics to Bioinert Quantum Sensors 

Researchers led by Adam Gali and collaborators have unveiled in their publication in Physical Review Letters how atomic-scale defects in silicon carbide (4H-SiC) can serve as robust building blocks for next-generation quantum technologies — spanning quantum communication, sensing, and biocompatible photonics.

When can space plasma be considered a fluid?

Zoltan Németh has developed a new criterion that offers guidance on when the fluid model can be employed to describe the extremely rarefied, magnetized, conductive gas known as space plasma, which fills most of the Universe's volume, encompassing the space between planets, stars, and galaxies.  The article presenting this work was published in The Astrophysical Journal

A new class of quantum light sources in silicon carbide

When “bright” defects don’t conduct or resist: a new class of quantum light sources in silicon carbide  

Sweden’s most powerful laser delivers record-short light pulses

A recent publication in the Nature journal Photonics (Nat. Photon. 19, 1013-1019 (2025)) describes the implementation of an enhanced optical parametric chirped pulse amplifier system led by Prof. Dr. László Veisz at Umeå University in Sweden, which produced laser pulses with a completely regular waveform, a duration of 4.3 fs, and a power of 100 TW in the visible to near-infrared range of spectrum.

Our colleagues' paper published in the journal Quantum

 

Deciding whether a mixed state of a quantum system is entangled or not is a notoriously difficult problem. In the paper published in Quantum, our colleagues Szilárd Szalay and Géza Tóth presented new one-parameter multipartite entanglement properties, and the corresponding metrological criteria qualifying these.

Defect engineering in two-dimensional materials for quantum teechnology

Crystallographic defects play a crucial role in the properties of materials, with some being harmful while others are useful for specific applications, such as controlling electrical properties or creating artificial atoms for quantum technologies. Identifying these defects is essential but challenging. In collaboration of scientists from University of Montpelliers, Kansas State University and Polish Academy of Sciences in collaboration with Dr. Anton Pershin and Prof.