2020
DOI: 10.1103/physrevresearch.2.033105
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Universal behavior in the Nernst effect of heavy fermion materials

Abstract: We report the observation of a universal scaling of the Nernst coefficient over a wide intermediate temperature range in heavy fermion materials, including the superconductors CeCu 2 Si 2 , CeCoIn 5 , and Ce 2 PdIn 8 , the ferromagnetic Kondo lattice Ce 3 RhSi 3 , the nonmagnetic CeRu 2 Si 2 , the intermediate valent YbAl 3 , and the hidden order compound URu 2 Si 2 , that cover a broad spectrum of heavy fermion materials with different crystal, valence, and ground-state properties. The scaling formula follows… Show more

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Cited by 3 publications
(3 citation statements)
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“…The Nernst effect has a magnitude drastically exceeding what is expected for a multiband system. A large Nernst effect has been also discovered in some Bechgaard salts for fields oriented along the magic angles [5] and in some heavy-fermion compounds [21]. More interestingly, our results show that the Nernst effect in the organic metal α − (BEDT − TTF) 2 KHg(SCN) 4 has a very similar behavior and size compared to that in heavy-fermion superconductor CeCoIn 5 [22].…”
Section: Temperature Dependence Of the Nernst Effectsupporting
confidence: 73%
“…The Nernst effect has a magnitude drastically exceeding what is expected for a multiband system. A large Nernst effect has been also discovered in some Bechgaard salts for fields oriented along the magic angles [5] and in some heavy-fermion compounds [21]. More interestingly, our results show that the Nernst effect in the organic metal α − (BEDT − TTF) 2 KHg(SCN) 4 has a very similar behavior and size compared to that in heavy-fermion superconductor CeCoIn 5 [22].…”
Section: Temperature Dependence Of the Nernst Effectsupporting
confidence: 73%
“…Below the coherence temperature T * , the systems exhibit unusual two-fluid behavior [3,22]. This was first observed in La-doped CeCoIn 5 for the susceptibility and specific heat [23] and later extended to other physical properties in many heavy fermion compounds [16,17,[24][25][26][27][28][29][30][31][32]. The two fluids are a heavy electron fluid of the screened f moments and a spin liquid fluid formed of the unscreened ones [28].…”
Section: Two-fluid Phenomenologymentioning
confidence: 97%
“…f (T) may be viewed as an 'order parameter' measuring the f electron itinerancy, and the prefactor f 0 controls the effectiveness of the hybridization [28]. As shown in figure 3, the predicted universal scaling has been widely observed in the Knight shift anomaly [16] and the Nernst coefficient [17] in many heavy fermion compounds, and the Hall coefficient in some Cebased compounds [16,30] over a wide intermediate temperature range. This universality reflects a generic mechanism underlying the complicated heavy fermion physics.…”
Section: Two-fluid Phenomenologymentioning
confidence: 98%