St. Petersburg Polytechnic University Journal: Physics and Mathematics

Научно-технические ведомости СПбГПУ. Физико-математические науки

2304-9782, 2618-8686, 2405-7223

10.18721/JPM.181.102

Non-ideal experimental Berry phase in the topological insulator Bi2Se3 single crystal

Неидеальная экспериментально наблюдаемая фаза Берри в монокристалле топологического изолятора Bi2Se3

Fominykh

Bogdan

fominykh@imp.uran.ru

0000-0002-5942-5885

Irkhin

Valentin

valentin.irkhin@imp.uran.ru Perevalova

Aleksandra

domozhirova@imp.uran.ru Naumov

Sergey

naumov@imp.uran.ru Marchenkov

Vyacheslav

M.N. Mikheev Institute of Metal Physics; Ural Federal University Institute of Metal Physics, Ural Division of the RAS M.N. Mikheev Institute of Metal Physics, UB RAS

14 05 2025

18 1.1 11 16

Magnetoresistivity and Hall resistivity of a bulk Bi2Se3 single crystal are investigated. It is found that in high magnetic fields (above 7 T), the Shubnikov – de Haas effect is observed. The Berry phase determined using the standard Lifshitz – Onsager formalism is ФB ≈ 0.8π, which indicates the presence of Dirac fermions in the system. At the same time, ФB deviates from the ideal π value. It is shown that it is important to take into account the Zeeman interaction and the non-ideality of the Dirac dispersion relation for surface states for correct description of topological effects.

Berry phase magnetoresistivity Shubnikov – de Haas oscillations Landau level fan diagram Hall effect topological insulator Bi2Se3