124503 -

The studies typically use the Steinhardt bond order parameter ( q̄6q bar sub 6

Based on your request, "124503" refers to a frequently cited identifier for articles in major physical science journals, primarily the , which often publishes significant research on fluid-solid transitions, molecular dynamics, and structure simulation.

If you were looking for a different field (such as plasma physics, NMR, or soft tissue elasticity), the "124503" identifier also appears in those domains, specifically in other 2020-2025 JCP/JAP/JBO volumes. 124503

Computational studies of the glass-forming ability of model bulk metallic glasses, often featuring large-scale molecular dynamics (MD) simulations to understand crystallization and amorphous structure formation.

) and its threshold values to distinguish between liquid-like and solid-like (FCC, HCP, BCC) particles during simulated quenching. The studies typically use the Steinhardt bond order

To make sure I've got the right one, was this article about: (as summarized above)? Proton-Driven Spin Diffusion/NMR (2011/2020)? Anisotropic Soft Media/Rayleigh Waves (2025)?

The research frequently explores how cooling rates affect the crystallization of liquids, finding a maximum in the number of crystalline clusters at intermediate cooling rates, which helps identify the critical cooling rate required to form a glass rather than a crystal. ) and its threshold values to distinguish between

This work is critical for understanding the physical mechanisms behind the fluid-solid transition and provides concrete data to improve the creation of stable amorphous materials (glasses) in simulation.