Two regimes in conductivity and the Hall coefficient of underdoped cuprates in strong magnetic fields

We address recent experiments shedding light on the energy spectrum of under and optimally doped cuprates at temperatures above the superconducting transition. Angle resolved photoemission reveals coherent excitation only near nodal points on parts of the 'bare' Fermi surface known as the...

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Veröffentlicht in:	Journal of physics. Condensed matter 2014-01, Vol.26 (4), p.1-6
Hauptverfasser:	Gor'kov, L P, Teitel'baum, G B
Format:	Artikel
Sprache:	eng
Schlagworte:	Charge Condensed matter COPPER OXIDE Crossovers Cuprates DOPING ELECTRICAL CONDUCTIVITY Hall effect MAGNETIC FIELD Magnetic fields Oscillations Pocket
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container_title	Journal of physics. Condensed matter
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creator	Gor'kov, L P Teitel'baum, G B
description	We address recent experiments shedding light on the energy spectrum of under and optimally doped cuprates at temperatures above the superconducting transition. Angle resolved photoemission reveals coherent excitation only near nodal points on parts of the 'bare' Fermi surface known as the Fermi arcs. The question debated in the literature is whether the small normal pocket, seen via quantum oscillations, exists at higher temperatures or forms below a charge order transition in strong magnetic fields. Assuming the former case as a possibility, expressions are derived for the resistivity and the Hall coefficient (in weak and strong magnetic fields) with both types of carriers participating in the transport. There are two regimes. At higher temperatures (at a fixed field) electrons are dragged by the Fermi arcs' holes. The pocket being small, its contribution to conductivity and the Hall coefficient is negligible. At lower temperatures electrons decouple from holes behaving as a Fermi gas in the magnetic field. As the mobility of holes on the arcs decreases in strong fields with a decrease of temperature, below a crossover point the pocket electrons prevail, changing the sign of the Hall coefficient in the low temperature limit. Such behavior finds its confirmation in recent high-field experiments.
doi_str_mv	10.1088/09538984/26/4/042202
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Angle resolved photoemission reveals coherent excitation only near nodal points on parts of the 'bare' Fermi surface known as the Fermi arcs. The question debated in the literature is whether the small normal pocket, seen via quantum oscillations, exists at higher temperatures or forms below a charge order transition in strong magnetic fields. Assuming the former case as a possibility, expressions are derived for the resistivity and the Hall coefficient (in weak and strong magnetic fields) with both types of carriers participating in the transport. There are two regimes. At higher temperatures (at a fixed field) electrons are dragged by the Fermi arcs' holes. The pocket being small, its contribution to conductivity and the Hall coefficient is negligible. At lower temperatures electrons decouple from holes behaving as a Fermi gas in the magnetic field. As the mobility of holes on the arcs decreases in strong fields with a decrease of temperature, below a crossover point the pocket electrons prevail, changing the sign of the Hall coefficient in the low temperature limit. Such behavior finds its confirmation in recent high-field experiments.</description><identifier>ISSN: 0953-8984</identifier><identifier>EISSN: 1361-648X</identifier><identifier>DOI: 10.1088/09538984/26/4/042202</identifier><language>eng</language><subject>Charge ; Condensed matter ; COPPER OXIDE ; Crossovers ; Cuprates ; DOPING ; ELECTRICAL CONDUCTIVITY ; Hall effect ; MAGNETIC FIELD ; Magnetic fields ; Oscillations ; Pocket</subject><ispartof>Journal of physics. 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The question debated in the literature is whether the small normal pocket, seen via quantum oscillations, exists at higher temperatures or forms below a charge order transition in strong magnetic fields. Assuming the former case as a possibility, expressions are derived for the resistivity and the Hall coefficient (in weak and strong magnetic fields) with both types of carriers participating in the transport. There are two regimes. At higher temperatures (at a fixed field) electrons are dragged by the Fermi arcs' holes. The pocket being small, its contribution to conductivity and the Hall coefficient is negligible. At lower temperatures electrons decouple from holes behaving as a Fermi gas in the magnetic field. As the mobility of holes on the arcs decreases in strong fields with a decrease of temperature, below a crossover point the pocket electrons prevail, changing the sign of the Hall coefficient in the low temperature limit. 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Condensed matter</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Gor'kov, L P</au><au>Teitel'baum, G B</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Two regimes in conductivity and the Hall coefficient of underdoped cuprates in strong magnetic fields</atitle><jtitle>Journal of physics. Condensed matter</jtitle><date>2014-01-29</date><risdate>2014</risdate><volume>26</volume><issue>4</issue><spage>1</spage><epage>6</epage><pages>1-6</pages><issn>0953-8984</issn><eissn>1361-648X</eissn><abstract>We address recent experiments shedding light on the energy spectrum of under and optimally doped cuprates at temperatures above the superconducting transition. Angle resolved photoemission reveals coherent excitation only near nodal points on parts of the 'bare' Fermi surface known as the Fermi arcs. The question debated in the literature is whether the small normal pocket, seen via quantum oscillations, exists at higher temperatures or forms below a charge order transition in strong magnetic fields. Assuming the former case as a possibility, expressions are derived for the resistivity and the Hall coefficient (in weak and strong magnetic fields) with both types of carriers participating in the transport. There are two regimes. At higher temperatures (at a fixed field) electrons are dragged by the Fermi arcs' holes. The pocket being small, its contribution to conductivity and the Hall coefficient is negligible. At lower temperatures electrons decouple from holes behaving as a Fermi gas in the magnetic field. As the mobility of holes on the arcs decreases in strong fields with a decrease of temperature, below a crossover point the pocket electrons prevail, changing the sign of the Hall coefficient in the low temperature limit. Such behavior finds its confirmation in recent high-field experiments.</abstract><doi>10.1088/09538984/26/4/042202</doi></addata></record>
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subjects	Charge Condensed matter COPPER OXIDE Crossovers Cuprates DOPING ELECTRICAL CONDUCTIVITY Hall effect MAGNETIC FIELD Magnetic fields Oscillations Pocket
title	Two regimes in conductivity and the Hall coefficient of underdoped cuprates in strong magnetic fields
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