Evidence for metastable photo-induced superconductivity in K\(_3\)C\(_{60}\)

Far and mid infrared optical pulses have been shown to induce non-equilibrium unconventional orders in complex materials, including photo-induced ferroelectricity in quantum paraelectrics, magnetic polarization in antiferromagnets and transient superconducting correlations in the normal state of cup...

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Published inarXiv.org
Main Authors Budden, M, Gebert, T, Buzzi, M, Jotzu, G, Wang, E, Matsuyama, T, Meier, G, Laplace, Y, Pontiroli, D, Riccò, M, Schlawin, F, Jaksch, D, Cavalleri, A
Format Paper
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 28.02.2020
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Summary:Far and mid infrared optical pulses have been shown to induce non-equilibrium unconventional orders in complex materials, including photo-induced ferroelectricity in quantum paraelectrics, magnetic polarization in antiferromagnets and transient superconducting correlations in the normal state of cuprates and organic conductors. In the case of non-equilibrium superconductivity, femtosecond drives have generally resulted in electronic properties that disappear immediately after excitation, evidencing a state that lacks intrinsic rigidity. Here, we make use of a new optical device to drive metallic K\(_3\)C\(_{60}\) with mid-infrared pulses of tunable duration, ranging between one picosecond and one nanosecond. The same superconducting-like optical properties observed over short time windows for femtosecond excitation are shown here to become metastable under sustained optical driving, with lifetimes in excess of ten nanoseconds. Direct electrical probing becomes possible at these timescales, yielding a vanishingly small resistance. Such a colossal positive photo-conductivity is highly unusual for a metal and, when taken together with the transient optical conductivities, it is rather suggestive of metastable light-induced superconductivity.
ISSN:2331-8422
DOI:10.48550/arxiv.2002.12835