Pressure-induced double-dome superconductivity in kagome metal CsTi3Bi5

Abstract

We present high-pressure resistance measurements up to 40 GPa on recently discovered titanium-based kagome metal CsTi3Bi5. At ambient pressure, CsTi3Bi5 shows no evidence of superconductivity in resistivity and specific heat. By applying pressure, superconductivity emerges and the superconducting transition temperature T c reaches its first maximum of 1.2 K at 5 GPa. Then the T c is suppressed by pressure and cannot be detected around 10 GPa, manifesting as a superconducting dome. Remarkably, upon further increasing pressure above 13 GPa, another superconducting dome shows up, with the maximum T c of 0.6 K and ending pressure at 36 GPa. The variation of T c displays a clear double-dome shape in the superconducting phase diagram. Our work demonstrates the similarity between CsTi3Bi5 and CsV3Sb5, providing valuable insights into the rich physics of these novel kagome metals.