onto a droplet of distilled water. The peak power of the laser pulses was varied over the range of 1–25 GW. The droplet emission was measured by a spectrometer in the wavelength range of 195 ...

Water droplets under freezing conditions do not spontaneously detach from surfaces as they do at room temperature due to stronger droplet-surface interaction and lack of an energy transformation ...

A groundbreaking study on the freezing of water droplets suspended in air sheds light on a key process in Earth's water cycle: the transformation of supercooled water into ice.

By integrating findings from studies such as the water droplet research, scientists can better predict how new refrigerants interact with atmospheric ice particles, ultimately informing climate ...