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Auteurs principaux: Nandi, Moumita, Dutta, Surajit, Thamizhavel, A., Dhar, S. K.
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2407.10120
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author Nandi, Moumita
Dutta, Surajit
Thamizhavel, A.
Dhar, S. K.
author_facet Nandi, Moumita
Dutta, Surajit
Thamizhavel, A.
Dhar, S. K.
contents Intercalation of magnetic atoms into the van der Waals gaps of layered transition metal dichalcogenides offers an excellent platform to produce exotic physical properties. Here, we report a detailed study of magnetic and electrical transport properties of Co$_{0.28}$TaS$_2$. The temperature dependent resistivity measurements display anomalous upturn below 11 K, which persists in presence of magnetic field even up to 14 T. In the low temperature region, the resistivity upturn exhibits a unique $T^{1/2}$ scaling behavior, which remains unchanged when an external magnetic field is applied. The $T^{1/2}$ dependence of resistivity upturn is the hallmark of non-Fermi liquid state in orbital two-channel Kondo effect(2CK). This anomalous resistivity upturn in Co$_{0.28}$TaS$_2$ can be attributed to the orbital two-channel Kondo mechanism.
format Preprint
id arxiv_https___arxiv_org_abs_2407_10120
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Anomalous resistivity upturn in Co intercalated TaS$_2$
Nandi, Moumita
Dutta, Surajit
Thamizhavel, A.
Dhar, S. K.
Strongly Correlated Electrons
Materials Science
Intercalation of magnetic atoms into the van der Waals gaps of layered transition metal dichalcogenides offers an excellent platform to produce exotic physical properties. Here, we report a detailed study of magnetic and electrical transport properties of Co$_{0.28}$TaS$_2$. The temperature dependent resistivity measurements display anomalous upturn below 11 K, which persists in presence of magnetic field even up to 14 T. In the low temperature region, the resistivity upturn exhibits a unique $T^{1/2}$ scaling behavior, which remains unchanged when an external magnetic field is applied. The $T^{1/2}$ dependence of resistivity upturn is the hallmark of non-Fermi liquid state in orbital two-channel Kondo effect(2CK). This anomalous resistivity upturn in Co$_{0.28}$TaS$_2$ can be attributed to the orbital two-channel Kondo mechanism.
title Anomalous resistivity upturn in Co intercalated TaS$_2$
topic Strongly Correlated Electrons
Materials Science
url https://arxiv.org/abs/2407.10120