• Corpus ID: 34150629

# Intertwined Orders in Heavy-Fermion Superconductor CeCoIn

@inproceedings{Kim2016IntertwinedOI,
title={Intertwined Orders in Heavy-Fermion Superconductor CeCoIn},
author={Duk Y. Kim and Shizeng Lin and Franziska Weickert and Michel Kenzelmann and Eric D. Bauer and Filip Ronning and J. D. Thompson and Roman Movshovich},
year={2016}
}
• Published 2016
• Physics
Duk Y. Kim, Shi-Zeng Lin, Franziska Weickert, Michel Kenzelmann, Eric D. Bauer, Filip Ronning, J. D. Thompson, and Roman Movshovich Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA Laboratory for Scientific Developments & Novel Materials, Paul Scherrer Institute, Villigen CH-5232, Switzerland (Received 24 July 2016; revised manuscript received 26 October 2016; published 20 December 2016)

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We report specific heat measurements of the heavy fermion superconductor CeCoIn5 in the vicinity of the superconducting critical field H(c2), with magnetic fields in the [110], [100], and [001]
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We investigate the properties of the coexistence phase of itinerant antiferromagnetism and nodal $d$-wave superconductivity (Q-phase) discovered in heavy fermion CeCoIn5 under applied magnetic field.
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By means of low-temperature scanning tunnelling spectroscopy, a heavy fermion material in its superconducting and mixed states can be imaged. Besides probing the superconducting gap symmetry, the
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The implications of the spin exciton mechanism are exposed in the context of a Spin Density Wave (SDW) instability occurring inside the superconducting phase of a layered heavy electron compound. In
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Physical review letters
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The thermal conductivity measurement of the heavy-fermion superconductor CeCoIn5 reveals a first-order transition at H(c2), indicating a Pauli limited superconducting state and implying that the anisotropic antiferromagnetic fluctuation is relevant to the superconductivity.
Recent study on doping effects in the heavy-fermion superconductor ${\text{CeCoIn}}_{5}$ has shown that a small amount of doping induces unexpectedly large broadening of the transition into the
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Physical review letters
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In the low-temperature and high-field phase, the broad NMR lineshapes suggest ordered local moments, rather than a long-wavelength quasiparticle spin density modulation expected for an FFLO phase.
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Experimental evidence suggests that the Fulde-Ferrell-Larkin-Ovchinnikov (FFLO) state may be realized in the unconventional, heavy-fermion superconductor CeCoIn$_5$. We present a self-consistent
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Physical review letters
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A generic microscopic model is used to argue that CeCoIn5's anomalous superconductor state is a pattern of coexisting condensates: a d-wave singlet superconducting (SC) state, a staggered π-triplet SC state, and a spin density wave (SDW).
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