Structure transition and zigzag magnetic order in Ir/Rh-substituted honeycomb lattice RuCl3
Abstract
We report magnetization and neutron diffraction studies on crystal and magnetic structures of Ir- and Rh-substituted honeycomb lattice α-RuCl3. The iridium or rhodium atoms are distributed at the Ru site with little structural modification. Both systems undergo a room-temperature monoclinic C2/m to low-temperature trigonal R3 phase transformation with a large recoverable hysteresis. At low temperature, a zigzag spin order is observed with the same characteristic wavevector (0,0.5,1) as in the parent α-RuCl3. Detailed magnetic structure refinement reveals an ordered moment of 0.32(5) μB/Ru and a upper boundary of canting angle of 15(4) away from the basal plane at 5~K for the 10\% Ir-substituted α-RuCl3, which is different from the 0.45-0.73~ μB/Ru and 32-48 canting angle reported in the parent compound α-RuCl3. The observation of unchanged RuCl6 local octahedral environment, reduced magnetic moment size and canting angle highlights the potential to study quantum spin liquid behavior through non-magnetic ion doping.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.