Nematicity and Superconducting Enhancement in Ba_1-xSr_xNi₂As₂

The nematic phase, wherein electronic degrees of freedom drive a reduction in crystal rotational symmetry, is a common motif across a number of high temperature superconductor systems. In an effort to expand on the limited number of known nematic systems we report the evolution of a number of physical properties, including elastoresistance, in the Ba_1-xSr_xNi₂As₂ series, which shows a crossover between structural and electronically driven nematicity in the absence of long range magnetic order and unconventional superconducting pairing. In addition to establishing BaNi₂As₂ as a new and unique nematic system, we also observe dramatically enhanced superconducting Tc near the zero temperature nematic phase boundary in this series, pointing towards enhanced pairing due to strengthened nematic fluctuations.