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).
In the new issue of Physical Review Letters a paper has been published titled “Microscopic properties of the ‘pinwheel’ kagome compound Rb2Cu3SnF12” (PRL 110, 247203 (2013)), where the leading author ia a member of our NMR group Mihael Grbić. Paper studies the characteristics of a valence-bond solid (VBS) ground state of spins on a kagome lattice. This is the first kagome compound with a VBS ground state, formed by structural deformation of the lattice. Also, the work presents first report of determined spin polarization on a kagome lattice. Theoretical analysis revealed a novel interplay of symmetry which determines the ground state properties of the kagome lattice.
Research was done during the postdoctoral stay of dr. Grbić at Laboratoire National des Champs Magnétiques Intenses (Grenoble, Francuska).
Free version of the paper is also available on the arXiv.
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