ABSTRACT
We report the results of magnetisation, non-linear dc susceptibility, electrical transport, and heat capacity measurements on Y-substituted heavy fermion CeNiGe2. Investigations are carried out on the compounds CeNiGe2, Ce0.9Y0.1NiGe2, Ce0.8Y0.2NiGe2 and Ce0.6Y0.4NiGe2. It is observed that with the increase in Y-concentration, the magnetic ordering temperature decreases. For CeNiGe2, below ordering temperature Arrott plots suggest the presence of spin density wave (SDW). Third- and fifth-order dc susceptibility indicates magnetic instability which possibly leads to partial gap opening resulting in the observation of SDW. These observations are further investigated through resistivity and heat capacity measurements which also point toward partial gap opening in CeNiGe2. Interestingly, with the increase in Y-substitution, it is noted that the gap opening is suppressed and also shifted towards lower temperature. Moreover, our investigations reveal absence of non-Fermi liquid behaviour or zero field quantum critical point even after 40% dilution of Ce-site.
Acknowledgements
The authors acknowledge experimental facilities of Advanced Material Research Centre (AMRC), IIT Mandi. Financial support from IIT Mandi is also acknowledged.
Disclosure statement
No potential conflict of interest was reported by the authors.
ORCID
K. Mukherjee http://orcid.org/0000-0002-7965-4503