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Nucleation and growth bottleneck in the conductivity recovery dynamics of nickelate thin films

We investigate THz conductivity dynamics in NdNiO$_3$ and EuNiO$_3$ thin films following a photoinduced thermal quench into the metallic state and reveal a clear contrast between first- and second-order dynamics. While in EuNiO$_3$ the conductivity recovers exponentially, in NdNiO$_3$ the recovery is non-exponential and slower than a simple thermal model. Crucially, it is consistent with first-order dynamics and well-described by a 2d Avrami model, with supercooling leading to metastable phase coexistence. The large transients seen in our films are promising for fast electronic (and magnetic) switching applications.

preprint2019arXivOpen access
Elsa AbreuDerek MeyersVerner K. ThorsmolleJingdi ZhangXiaoran LiuKun GengJak ChakhalianRichard D. Averitt
cond-mat.str-el
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Elsa AbreuDerek MeyersVerner K. ThorsmolleJingdi ZhangXiaoran LiuKun GengJak ChakhalianRichard D. Averitt

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