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Title: Theory of anisotropic elastoresistivity of two-dimensional extremely strongly correlated metals

Abstract

There is considerable recent interest in the phenomenon of anisotropic electroresistivity of correlated metals. Although some interesting work has been done on the iron-based superconducting systems, not much is known for the cuprate materials. Here we study the anisotropy of elastoresistivity for cuprates in the normal state. We introduce theoretical results for the effect of strain on resistivity and additionally on the optical weight and local density of states. We use the recently developed extremely strongly correlated Fermi liquid theory in two dimensions, which accounts quantitatively for the unstrained resistivities for three families of single-layer cuprates. The strained hoppings of a tight-binding model are roughly modeled analogously to strained transition metals. The strained resistivity for a two-dimensional t-t'-J model are then obtained, using the equations developed in recent work. Our quantitative predictions for these quantities have the prospect of experimental tests in the near future, for strongly correlated materials such as the hole-doped and electron-doped high-Tc materials.

Authors:
ORCiD logo [1]; ORCiD logo [2]; ORCiD logo [1]
+ Show Author Affiliations
  1. Univ. of California, Santa Cruz, CA (United States)
  2. Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States). Center for Nanophase Materials Sciences (CNMS); Univ. of California, Santa Cruz, CA (United States)
Publication Date:
Research Org.:
Univ. of California, Santa Cruz, CA (United States); Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)
Sponsoring Org.:
USDOE Office of Science (SC), Basic Energy Sciences (BES); National Science Foundation (NSF)
OSTI Identifier:
1634110
Alternate Identifier(s):
OSTI ID: 1661201
Grant/Contract Number:  
FG02-06ER46319; DMR-170044; AC05-00OR22725
Resource Type:
Accepted Manuscript
Journal Name:
Physical Review B
Additional Journal Information:
Journal Volume: 101; Journal Issue: 24; Journal ID: ISSN 2469-9950
Publisher:
American Physical Society (APS)
Country of Publication:
United States
Language:
English
Subject:
75 CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY; Cuprate superconductors; elastoresistivity resistivity; Extremely Correlated Fermi Liquid theory

Citation Formats

Arciniaga, Michael, Mai, Peizhi, and Shastry, B Sriram. Theory of anisotropic elastoresistivity of two-dimensional extremely strongly correlated metals. United States: N. p., 2020. Web. doi:10.1103/PhysRevB.101.245149.
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Arciniaga, Michael, Mai, Peizhi, & Shastry, B Sriram. Theory of anisotropic elastoresistivity of two-dimensional extremely strongly correlated metals. United States. https://doi.org/10.1103/PhysRevB.101.245149
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Arciniaga, Michael, Mai, Peizhi, and Shastry, B Sriram. Fri . "Theory of anisotropic elastoresistivity of two-dimensional extremely strongly correlated metals". United States. https://doi.org/10.1103/PhysRevB.101.245149. https://www.osti.gov/servlets/purl/1634110.
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@article{osti_1634110,
title = {Theory of anisotropic elastoresistivity of two-dimensional extremely strongly correlated metals},
author = {Arciniaga, Michael and Mai, Peizhi and Shastry, B Sriram},
abstractNote = {There is considerable recent interest in the phenomenon of anisotropic electroresistivity of correlated metals. Although some interesting work has been done on the iron-based superconducting systems, not much is known for the cuprate materials. Here we study the anisotropy of elastoresistivity for cuprates in the normal state. We introduce theoretical results for the effect of strain on resistivity and additionally on the optical weight and local density of states. We use the recently developed extremely strongly correlated Fermi liquid theory in two dimensions, which accounts quantitatively for the unstrained resistivities for three families of single-layer cuprates. The strained hoppings of a tight-binding model are roughly modeled analogously to strained transition metals. The strained resistivity for a two-dimensional t-t'-J model are then obtained, using the equations developed in recent work. Our quantitative predictions for these quantities have the prospect of experimental tests in the near future, for strongly correlated materials such as the hole-doped and electron-doped high-Tc materials.},
doi = {10.1103/PhysRevB.101.245149},
journal = {Physical Review B},
number = 24,
volume = 101,
place = {United States},
year = {Fri Jun 19 00:00:00 EDT 2020},
month = {Fri Jun 19 00:00:00 EDT 2020}
}
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https://doi.org/10.1103/PhysRevB.101.245149
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