Electrical, Thermal and Spectroscopic Characterization of Bulk Bi2Se3 Topological Insulator
Rabia Sultana, Geet Awana, Banabir Pal, P.K. Maheshwari, Monu Mishra,, Govind Gupta, Anurag Gupta, S. Thirupathaiah, V.P.S. Awana

TL;DR
This study comprehensively characterizes bulk Bi2Se3 topological insulator using electrical, thermal, and spectroscopic methods, revealing its metallic behavior, magnetoresistance sensitivity, and detailed electronic structure.
Contribution
It provides a detailed multi-technique analysis of bulk Bi2Se3 grown by self flux method, including new insights into its physical properties and electronic structure.
Findings
Bi2Se3 exhibits metallic behavior down to 5K.
Magnetoresistance is highly angle-dependent, reaching up to 400%.
ARPES reveals bulk conduction, surface states, and Dirac point.
Abstract
We report electrical (angular magneto-resistance, and Hall), thermal (heat capacity) and spectroscopic (Raman, x-ray photo electron, angle resolved photo electron) characterization of bulk Bi2Se3 topological insulator, which is being is grown by self flux method through solid state reaction from high temperature (950C) melt and slow cooling (2C/hour) of constituent elements. Bi2Se3 exhibited metallic behaviour down to 5K. Magneto transport measurements revealed linear up to 400% and 30% MR at 5K under 14 Tesla field in perpendicular and parallel field direction respectively. We noticed that the magneto-resistance (MR) of Bi2Se3 is very sensitive to the angle of applied field. MR is maximum when the field is normal to the sample surface, while it is minimum when the field is parallel. Hall coefficient (RH) is seen nearly invariant with negative carrier sign down to 5K albeit having near…
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Taxonomy
TopicsTopological Materials and Phenomena · Advanced Physical and Chemical Molecular Interactions · Chemical and Physical Properties of Materials
