Suppression of the Charge-Density-Wave State in Sr10Ca4Cu24O41 by External Pressure

Abstract

The influence of external pressure on the charge-density-wave (CDW) ground state of the quasi-one-dimensional two-leg ladder compound Sr10Ca4Cu24O41 has been studied by optical reflectivity measurements as a function of temperature (10 - 300~K) and pressure P (0.3 - 4.3~GPa) over the spectral range 580 - 6000 cm1. With increasing pressure the CDW transition temperature TCDW decreases with the linear pressure coefficient ≈-70~K/GPa, and above ≈3~GPa the CDW phase is suppressed at all temperatures. This behavior is similar to that in compounds Sr14-xCaxCu24O41 with increasing Ca content x at ambient pressure, with the simple scaling x ≈ 3· P(GPa). The size of the CDW gap decreases with increasing pressure, whereas the dimensionality of the high-temperature insulating phase in Sr10Ca4Cu24O41 within the ladder plane is hardly affected by external pressure.