Large positive correlation between the effective electron mass and the multipolar fluctuation in the heavy-fermion metal Ce1-xLaxB6

Abstract

For the last few decades, researchers have been intrigued by multipolar ordering phenomena while looking for the related quantum criticality in the heavy-fermion Kondo system Ce1-xLaxB6. However, critical phenomena induced by substitution level (x), temperature (T), and magnetic field (B) are poorly understood despite a large collection of experimental results is available. In this work, we present T-B, x-T, and x-B phase diagrams of Ce1-xLaxB6 (B[110]). These are completed by analyzing heat capacity, magnetocaloric effect (MCE), and elastic neutron scattering. A drastic increase of the Sommerfeld coefficient γ0, which is estimated from the heat capacity down to 0.05 K, is observed with increasing x. The precise T-B phase diagram which includes an unforeseen high-entropy region is drawn by analyzing the MCE for the first time in Ce1-xLaxB6. The x-B phase diagram, which supports the existence of a QCP at x>0.75, is obtained by the same analysis. A detailed interpretation of phase diagrams strongly indicates positive correlation between the fluctuating multipoles and the effective electron mass.