Efficient and stable algorithms for the calculation of spectral quantities and correlation
functions are some of the key tools in computational condensed-matter physics. In this paper …

Despite their exceptional flexibility and popularity, Monte Carlo methods often suffer from
slow mixing times for challenging statistical physics problems. We present a general strategy …

A universal curve for the change in the magnetic entropy has been recently proposed for
materials with second-order phase transitions. In this work we have studied the universal …

The critical behavior at the paramagnetic to ferromagnetic phase transition in Pr 0.5 Sr 0.5
MnO 3 is studied using techniques such as modified Arrott plot, Kouvel-Fisher plot, and …

The past years have seen rapid progress in the classification of topological materials. These
diagnostical methods are increasingly getting explored in the pertinent context of magnetic …

The influence of quenched disorder on the competition between ordered states separated
by a first-order transition is investigated. A phase diagram with features resembling quantum …

We develop the self-learning Monte Carlo (SLMC) method, a general-purpose numerical
method recently introduced to simulate many-body systems, for studying interacting fermion …

The nanocrystalline La 0.67− x Bi x Ca 0.33 MnO 3 (x= 0.0, 0.1) samples were synthesized
using a citrate complex method. The synthesized samples crystallizes in single phase and …

We introduce an efficient Langevin method to study bilinear fermionic Hamiltonians
interacting with classical fields. Our approach is orders of magnitude faster than previous …

In recent decades, novel magnetism of d-and f-electron compounds has been discussed
very intensively both in experimental and theoretical research fields of condensed matter …