Research Interests:
crystal growth
geometrically frustrated magnets
multiferroics
muon spin relaxation/rotation (μSR)
Raman scattering
Profile:
2017.03 he obtained PhD at Saga University, Japan. From 2017.05, he is working as Lecturer in Condensed Matter Physics at ZUST. The current research focus on understanding the strongly correlated electron phenomena in novel d-electron materials. These phenomena include ferroelectricity, magnetism, and effects arising from their interplay.
Publications:
[1] Critical slowing of quantum atomic deuterium/hydrogen with features of multiferroicity in the geometrically frustrated system Co2(OD)3Cl/Co2(OH)3Cl, Phys. Rev. B 95, 024111 (2017).
[2] Utilizing muon-spin-relaxation to probe ferroelectric transition in hydroxyl salt Co2(OD)3Cl, Ferroelectrics 505, 141 (2016).
[3] Investigation of hydrogen dynamics in hydroxyl salts Co2(OD)3Cl, RIKEN Accel. Prog. Rep. 48, 262 (2015).