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Literature DB >> 27182054

Nuclear magnetic resonance in Kondo lattice systems.

Abstract

Nuclear magnetic resonance has emerged as a vital tool to explore the fundamental physics of Kondo lattice systems. Because nuclear spins experience two different hyperfine couplings to the itinerant conduction electrons and to the local f moments, the Knight shift can probe multiple types of spin correlations that are not accessible via other techniques. The Knight shift provides direct information about the onset of heavy electron coherence and the emergence of the heavy electron fluid.

Year: 2016 PMID： 27182054 DOI： 10.1088/0034-4885/79/6/064501

Source DB: PubMed Journal: Rep Prog Phys ISSN： 0034-4885

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Cited

1 in total

1. Non-monotonic pressure dependence of high-field nematicity and magnetism in CeRhIn₅.

Authors: Toni Helm; Audrey D Grockowiak; Fedor F Balakirev; John Singleton; Jonathan B Betts; Kent R Shirer; Markus König; Tobias Förster; Eric D Bauer; Filip Ronning; Stanley W Tozer; Philip J W Moll
Journal: Nat Commun Date: 2020-07-13 Impact factor: 14.919

1 in total

Nuclear magnetic resonance in Kondo lattice systems.

1. Non-monotonic pressure dependence of high-field nematicity and magnetism in CeRhIn5.

1. Non-monotonic pressure dependence of high-field nematicity and magnetism in CeRhIn₅.