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An optically stimulated superconducting-like phase in K3C60 far above equilibrium Tc

The control of non-equilibrium phenomena in complex solids is an important research frontier, encompassing new effects like light induced superconductivity. Here, we show that coherent optical excitation of molecular vibrations in the organic conductor K3C60 can induce a non-equilibrium state with the optical properties of a superconductor. A transient gap in the real part of the optical conductivity and a low-frequency divergence of the imaginary part are measured for base temperatures far above equilibrium Tc=20 K. These findings underscore the role of coherent light fields in inducing emergent order.

preprint2015arXivOpen access
M. MitranoA. CantaluppiD. NicolettiS. KaiserA. PerucchiS. LupiP. Di PietroD. PontiroliM. RiccòA. SubediS. R. ClarkD. JakschA. Cavalleri
cond-mat.supr-concond-mat.str-el
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Open access13 authors2 topics
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M. MitranoA. CantaluppiD. NicolettiS. KaiserA. PerucchiS. LupiP. Di PietroD. PontiroliM. RiccòA. SubediS. R. ClarkD. JakschA. Cavalleri

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