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dc.contributor.authorZhang, Chenglin
Park, J.T.
Lu, Xingye
Yu, Rong
Li, Yu
Zhang, Wenliang
Zhao, Yang
Lynn, J.W.
Si, Qimiao
Dai, Pengcheng
dc.date.accessioned 2018-12-12T18:59:21Z
dc.date.available 2018-12-12T18:59:21Z
dc.date.issued 2015
dc.identifier.citation Zhang, Chenglin, Park, J.T., Lu, Xingye, et al.. "Neutron spin resonance as a probe of superconducting gap anisotropy in partially detwinned electron underdoped ${\mathrm{NaFe}}_{0.985}{\mathrm{Co}}_{0.015}\mathrm{As}$." Physical Review B, 91, no. 10 (2015) American Physical Society: https://doi.org/10.1103/PhysRevB.91.104520.
dc.identifier.urihttps://hdl.handle.net/1911/103838
dc.description.abstract We use inelastic neutron scattering (INS) to study the spin excitations in partially detwinned NaFe0.985Co0.015As which has coexisting static antiferromagnetic (AF) order and superconductivity (Tc=15 K, TN=30 K). In previous INS work on a twinned sample, spin excitations formed a dispersive sharp resonance near Er1=3.25 meV and a broad dispersionless mode at Er1=6 meV at the AF ordering wave vector QAF=Q1=(1,0) and its twinned domain Q2=(0,1). For partially detwinned NaFe0.985Co0.015As with the static AF order mostly occurring at QAF=(1,0), we still find a double resonance at both wave vectors with similar intensity. Since Q1=(1,0) characterizes the explicit breaking of the spin rotational symmetry associated with the AF order, these results indicate that the double resonance cannot be due to the static and fluctuating AF orders but originate from the superconducting gap anisotropy.
dc.language.iso eng
dc.publisher American Physical Society
dc.rights Article is made available in accordance with the publisher's policy and may be subject to US copyright law. Please refer to the publisher's site for terms of use.
dc.title Neutron spin resonance as a probe of superconducting gap anisotropy in partially detwinned electron underdoped ${\mathrm{NaFe}}_{0.985}{\mathrm{Co}}_{0.015}\mathrm{As}$
dc.type Journal article
dc.citation.journalTitle Physical Review B
dc.citation.volumeNumber 91
dc.citation.issueNumber 10
dc.type.dcmi Text
dc.identifier.doihttps://doi.org/10.1103/PhysRevB.91.104520
dc.type.publication publisher version
dc.citation.articleNumber 104520


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