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Orbital Mott transition in two dimensional pyrochlore lattice

We study orbital Mott transition in two dimensional pyrochlore lattice, using a two orbital Hubbard model with only inter-orbital electronic hopping. We use a real space Monte Carlo based approach to study the model at finite temperature, and establish temperature-interaction phase diagram that high...

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Published in:	Journal of physics. Condensed matter 2020-06, Vol.32 (25), p.255601-255601
Main Authors:	Saket, Abhinav, Tiwari, Rajarshi
Format:	Article
Language:	English
Subjects:	Monte Carlo orbital Mott transition pyrochlore lattice
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creator	Saket, Abhinav Tiwari, Rajarshi
description	We study orbital Mott transition in two dimensional pyrochlore lattice, using a two orbital Hubbard model with only inter-orbital electronic hopping. We use a real space Monte Carlo based approach to study the model at finite temperature, and establish temperature-interaction phase diagram that highlights the Mott transition, orbital ordering, and spectral trends, and possible window of pseudogap. Due to only inter-orbital hopping, the Mott insulator 'generates' ferro exchange resulting in ferro-orbital ordering, with Tcorr/t peaked at ≈0.2 around U/t ≈ 6. The optical conductivity shows unusual two peak feature due to two dimensional pyrochlore lattice.
doi_str_mv	10.1088/1361-648X/ab7a4b
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subjects	Monte Carlo orbital Mott transition pyrochlore lattice
title	Orbital Mott transition in two dimensional pyrochlore lattice
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