Anomalous transport and chiral charge order in kagome superconductor CsV3Sb5.

Kagome superconductors with TC up to 7K have been discovered over 40 years. In this work, we report our crystal growth, transport, and scanning tunneling microscopy (STM) study of the kagome superconductor CsV3Sb5. We have grown large single crystals, which show transport behaviors including a charge order below 90K with an unusual Hall response, and superconductivity below 2.5K. A fundamental kagome lattice model often predicts a 2x2 charge order. STM study at 4.2K confirms the 2x2 charge order and reveals additional 1x4 superlattices. On defect-free areas, the 2x2 charge order displays intrinsic chirality that can be related to the unusual Hall response, while defects can induce extrinsic effects. The 1x4 superlattices form various small domains, and are likely of surface origin whose relationship with the underlying kagome lattice is unclear. STM study at 0.4K reveals a superconducting energy gap with a gap size 2{\Delta}=0.85meV, which estimates a moderate superconductivity coupling strength with 2{\Delta}/kBTC=3.9. When further applying a c-axis magnetic field, vortex core bound states are observed within this gap, indicative of clean-limit superconductivity. Finally, we discuss the tantalizing relevance of the chiral kagome charge order with Haldane model and Varma model for orbital currents.