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Paper detail

Probing spin correlations using angle resolved photoemission in a coupled metallic/Mott insulator system

A nearly free electron metal and a Mott insulating state can be thought of as opposite ends of possibilities for the motion of electrons in a solid. In the magnetic oxide metal PdCrO$_{2}$, these two coexist as alternating layers. Using angle resolved photoemission, we surprisingly find sharp band-like features in the one-electron removal spectral function of the correlated subsystem. We show that these arise because a hole created in the Mott layer moves to and propagates in the metallic layer while retaining memory of the Mott layer's magnetism. This picture is quantitatively supported by a strong coupling analysis capturing the physics of PdCrO$_{2}$ in terms of a Kondo lattice Hamiltonian. Our findings open new routes to use the non-magnetic probe of photoemission to gain insights into the spin-susceptibility of correlated electron systems.

preprint2020arXivOpen access
V. SunkoF. MazzolaS. KitamuraS. KhimP. KushwahaO. J. ClarkM. WatsonI. MarkovicD. BiswasL. PourovskiiT. K. KimT. -L. LeeP. K. ThakurH. RosnerA. GeorgesR. MoessnerT. OkaA. P. MackenzieP. D. C. King
cond-mat.str-el
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V. SunkoF. MazzolaS. KitamuraS. KhimP. KushwahaO. J. ClarkM. WatsonI. MarkovicD. BiswasL. PourovskiiT. K. KimT. -L. LeeP. K. ThakurH. RosnerA. GeorgesR. MoessnerT. OkaA. P. MackenzieP. D. C. King

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