Surface Charge Density Wave Transition in NbSe3

Abstract

The two charge-density wave (CDW) transitions in NbSe3 %at wave numbers at q1 and q2, occurring at the surface were investigated by scanning tunneling microscopy (STM) on in situ cleaved (b,c) plane. The temperature dependence of first-order CDW satellite spots, obtained from the Fourier transform of the STM images, was measured between 5-140 K to extract the surface critical temperatures (Ts). The low T CDW transition occurs at T2s=70-75 K, more than 15 K above the bulk T2b=59K while at exactly the same wave number. %determined by x-ray diffraction experiments. Plausible mechanism for such an unusually high surface enhancement is a softening of transverse phonon modes involved in the CDW formation.% The large interval of the 2D regime allows to speculate on % %the special Berezinskii-Kosterlitz-Thouless type of the surface transition expected for this incommensurate CDW. This scenario is checked by extracting the temperature dependence of the order % %parameter correlation functions. The regime of 2D fluctuations is analyzed according to a Berezinskii-Kosterlitz-Thouless type of surface transition, expected for this incommensurate 2D CDW, by extracting the temperature dependence of the order parameter correlation functions.