Please use this identifier to cite or link to this item: http://dr.iiserpune.ac.in:8080/xmlui/handle/123456789/4795
Title: Electronic structure and local spectroscopy of 2-D Mott insulators
Authors: KABIR, MUKUL
JHA THAKUR, AMITAYUSH
Dept. of Physics
20151021
Keywords: Condensed Matter, Density functional theory
Condensed Matter
Density functional theory
2020
Issue Date: Apr-2020
Abstract: Here we explore the electronic structure of Monolayer Sn/Si(111) √3 ×√3 which is thought to be a correlated 2D Mott insulator. Previous theoretical considerations have indicated that the system might display a row-wise AFM phase or a 1200 AFM Neel state.Utilizing DFT and DFT+U calculations we compare the various magnetic configurationsto identify the ground state configuration for the system which turns out to be in a row-wise AFM order. The mechanism behind the insulating behaviour can be attributed to be either a weak correlation driven Slater insulator or a true strongly correlated Mott insulator. We show that the system is most likely to be a Slater insulator from our calculations. By examining the core level electronic spectra we are also able to provide an explanation for the 2 double peaks seen in the core level ARPES spectra. Finally, we are able to observe a doping driven insulator to metal transition and calculate the electronic structure and magnetic configuration of these possible doped states.
URI: http://dr.iiserpune.ac.in:8080/xmlui/handle/123456789/4795
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