Method to Observe Anomaly of Magnetic Susceptibility for Quantum Spin Systems

Abstract

We propose a new method for studying the anomaly of magnetic susceptibility that indicates a phase transition for quantum spin systems. In addition, we introduce the fourth derivative A of the lowest energy eigenvalue per site with respect to magnetization, that is, the second derivative of -1. To verify the validity of this method, we apply it to an S=1/2 XXZ antiferromagnetic chain. The lowest energy of the chain is calculated by numerical diagonalization. As a result, the anomaly of and A exists at zero magnetization. That of A is easier to observe than that of , which indicates that the observation of A is a more efficient method to evaluate an anomaly than that of . The observation of A reveals an anomaly that shows the high order phase transition, namely, the fourth order phase transition. Our method is helpful for analyzing critical phenomena.