We perform the state-of-the-art tensor network simulations directly in the thermodynamic limit
to clarify the critical properties of the q-state clock model on the square lattice. We determine …

We simulate the phase diagram and critical behavior of the q-state clock model on the
square lattice by using the state-of-the-art loop optimization for tensor-network …

We study q-state clock models of regular and Villain types with using cluster-spin updates
and observed double transitions in each model. We calculate the correlation ratio and size …

The two-dimensional q-state clock model for q≥ 5 undergoes two Berezinskii-Kosterlitz-
Thouless (BKT) phase transitions as temperature decreases. Here we report an extensive …

We investigate the Berezinskii-Kosterlitz-Thouless transitions for the square-lattice six-state
clock model with the corner-transfer matrix renormalization group (CTMRG). Scaling …

Entanglement is known as an important indicator for characterizing different types of
quantum phase transitions (QPTs); however, it faces some challenges in the Kosterlitz …

We study response to a twist in the two-dimensional p-state clock model, which has the
discrete Z p symmetry. The response is measured in terms of helicity modulus, which is …

For performing regression tasks involved in various physics problems, enhancing the
precision or equivalently reducing the uncertainty of regression results is undoubtedly one of …

Using the tensor renormalization group method based on the higher-order singular value
decomposition, we have studied the phase transitions of the five-state clock model on the …

The $ q-$ state clock model, sometimes called the discrete $ XY $ model, is known to show
a second-order (symmetry breaking) phase transition in two-dimension (2D) for $ q\le 4 …