Majorana-fermion origin of the planar thermal Hall effect in the Kitaev magnet α-RuCl 3 .
Kumpei ImamuraShota SuetsuguYuta MizukamiYusei YoshidaKenichiro HashimotoKenichi OhtsukaYuichi KasaharaNobuyuki KuritaHidekazu TanakaPureum NohJoji NasuEun-Gook MoonYuji MatsudaTakasada ShibauchiPublished in: Science advances (2024)
The field-induced quantum-disordered state of layered honeycomb magnet α-RuCl 3 is a prime candidate for Kitaev spin liquids hosting Majorana fermions and non-Abelian anyons. Recent observations of anomalous planar thermal Hall effect demonstrate a topological edge mode, but whether it originates from Majorana fermions or bosonic magnons remains controversial. Here, we distinguish these origins from combined low-temperature measurements of high-resolution specific heat and thermal Hall conductivity with rotating magnetic fields within the honeycomb plane. A distinct closure of the low-energy bulk gap is observed for the fields in the Ru-Ru bond direction, and the gap opens rapidly when the field is tilted. Notably, this change occurs concomitantly with the sign reversal of the Hall effect. General discussions of topological bands show that this is the hallmark of an angle rotation-induced topological transition of fermions, providing conclusive evidence for the Majorana-fermion origin of the thermal Hall effect in α-RuCl 3 .