P. Kolar, M. S. Grbić, S. Hrabar, Sensors 19, 03064 (2019)
M. S. Grbić, JAP 125, 224501 (2019)
T. Cvitanić, M. Lukas, M. S. Grbić, Rev. Sci. Instrum. 90, 043903 (2019)
D. Pelc, P. Popčević, M. Požek, M. Greven, and N. Barišić, Sci. Adv. 5, eaau4538 (2019)
D. Pelc, H.-J. Grafe, G. D. Gu, and M. Požek, Phys. Rev. B 95, 054508 (2017).
R. Blinder et al. Phys. Rev. B 95, 020404(R) (2017).
D. Pelc, M. Vučković, H.-J. Grafe, S.-H. Baek, M. Požek, Nature Communications 7, 12775 (2016).
D. Pelc, M. Požek, V. Despoja and D. K. Sunko, New J. Phys. 17, 083033 (2015).
M. Došlić, D. Pelc and M. Požek, Rev. Sci. Instrum 85, 073905 (2014).
T. Cvitanić, D. Pelc, M. Požek, E. Amit, and A. Keren, Phys. Rev. B 90, 054508 (2014).
Researchers of the Department of Physics Damjan Pelc, Miroslav Požek and Neven Barišić, in collaboration with colleagues from the Institute of physics (Zagreb), Austria (TU Wien) and USA (University of Minnesota) suggested a phenomenological model of hightemperature superconductors based on copper oxides (cuprates), which explains and connects most basic properties of these materials in a simple manner. The paper has been published in Science Advances.