We conducted experimental investigations to explore the nature of slow thermodynamic fluctuations through low-frequency resistance noise spectroscopy in thin films of NdNiO3 in its metastable phase. NdNiO3 is a well-studied example of an electron correlation-driven insulator-to-metal phase transition, accompanied by a structural transition that also undergoes abrupt hysteresis phase transitions. Our experiments have revealed that this transition is primarily governed by spinodal-like criticality, which includes characteristics such as critical slowing down and critical opalescence. Furthermore, in the vicinity of the spinodals, the resistance fluctuations exhibit distinctive signatures of metastability, including a separation of time scales. This qualitative distinction in the nature of fluctuations suggests the emergence of ruggedness within the spinodal landscape.
*1. Feinberg graduate school (Weizmann Institute of Science)2. Council of Scientific and Industrial Research, India
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Publication:1. Critical Slowing Down at the Abrupt Mott Transition: When the First-Order Phase Transition Becomes Zeroth Order and Looks Like Second Order. Phys. Rev. Lett. 124, 095703 (2020). 2. Rugged landscape at spinodal criticality (manuscript under preperation)
Presenters
Satyaki Kundu
Weizmann Institute of Science
Authors
Satyaki Kundu
Weizmann Institute of Science
Ranjan Patel
Indian Institute of Science
anandamohan Ghosh
Indian Institutes of Science Education and Research Kolkata
Srimanta Middey
Indian Institute of Science Bangalore, Indian Institute of Science
Bhavtosh Bansal
Indian Institutes of Science Education and Research Kolkata
