We studied the nanojet breakup formation process in a vacuum environment by using molecular dynamics simulation based on the Lennad-Jonces potential. The nanojet breakup characteristics are subsequently affected by temperature, velocity, and nozzle si...
We studied the nanojet breakup formation process in a vacuum environment by using molecular dynamics simulation based on the Lennad-Jonces potential. The nanojet breakup characteristics are subsequently affected by temperature, velocity, and nozzle sizes. We have found various rupture phenomena and the formation of small droplets. Observed the growth rate of the disturbance length and the drop size compare to the Rayleigh theory. The result show that the rupture phenomena on nanojet is in accordance with the theoretical and experimental investigation.