top of page

This site was designed with the

website builder. Create your website today.Start Now

Inverse Spin Hall Effect in Electron Beam Evaporated Topological Insulator Bi2Se3 Thin Film

Braj B Singh et al.

physica status solidi (RRL)–Rapid Research Letters 13 (3), 2018, 1800492

Spintronics exploiting pure spin current in ferromagnetic (FM)/heavy metals (HM) is a subject of intense research. Topological insulators having spin momentum locked surface states exhibit high spin–orbit coupling and thus possess a huge potential to replace the HM like Pt, Ta, W, etc. In this context, the spin pumping phenomenon in Bi2Se3/CoFeB bilayers has been investigated. Bi2Se3 thin films are fabricated by electron beam evaporation method on Si (100) substrate. In order to confirm the topological nature of Bi2Se3, low temperature magnetotransport measurement on a 30 nm thick Bi2Se3 film which shows 10% magnetoresistance (MR) at 1.5 K has been performed. A linear increase in MR with applied magnetic field indicates the presence of spin momentum‐locked surface states. A voltage has been measured at room temperature to quantify the spin pumping which is generated via inverse spin Hall effect (ISHE). For the separation of spin rectification effects mainly produced by the FM CoFeB layer, in plane angular dependence of the dc voltage with respect to applied magnetic field has been measured. Our analysis reveals that spin pumping induced ISHE is the dominant contribution in the measured voltage.

Homepage of
Prof. Dr. Subhankar Bedanta
Professor in Physics
Chief-Coordinator of Centre for Interdisciplinary Sciences (CIS), NISER

Laboratory for Nanomagnetism and Magnetic Materials (LNMM)

National Institute of Science Education and Research

(NISER, Bhubaneswar)

Collaborators

Prof. Ramanathan Mahendiran National University of Singapore (NUS)
Prof. Wolfgang Kleemann

University Duisburg-Essen, Duisburg, Germany

Prof. Thomas Brueckel, Prof. Oleg Petracic, and Dr. Sabine Puetter

Juelich Center for neutron sciences (JCNS), Juelich, Germany

Prof. Koki Takanashi, Prof. Takeshi Seki, and Prof. Takahide Kubota

Institute of Material Science, Tohoku University, Sendai, Japan

Dr. Stanislas Rohart, Dr. Alexandra Mougin and Dr. Andre Thiaville

Laboratoire de Physique des Solides Université Paris-Sud, Université Paris- Saclay, France

Prof. Christian Binek

The University of Nebraska-Lincoln, USA

Prof. Andrzej Maziewski

Department of Physics of Magnetism, University of Bialystok, Poland

Dr. Biswarup Satapati

Saha Institute of Nuclear Physics (SINP), Kolkata, India

Prof. Anjan Barman

S. N. Bose Institute for Basic Sciences, Kolkata, India

Prof. A. Perumal

Indian Institute of Technology, Guwahati, India

Prof. Kanishka Biswas

Jawaharlal Nehru Centre for Advanced Scientific Research (JNCASR),

Bangalore, India

Prof. Chandrasekhar Murapaka Indian Institute of Technology, Hyderabad

Prof. Indranil Sarkar Institute of Nanoscience and Technology

Prof. Debajyoti De Assistant Professor, Sukumar Sengupta Mahavidyalaya, Former Asst. Prof., The Neotia University

Dr. Debakanta Samal Reader-F, Institute of Physics, Bhubaneswar, India

bottom of page