124503 Here

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

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)?

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. 124503

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.

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. The studies typically use the Steinhardt bond order

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.

) and its threshold values to distinguish between liquid-like and solid-like (FCC, HCP, BCC) particles during simulated quenching. Computational studies of the glass-forming ability of model

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.