The team carried out sophisticated computer simulations of tiny droplets of water as they interact with graphene surfaces. (sciencedaily.com)
This then turns the humidity of air into tiny droplets of water because more energy — as can be measured through infrared emissions — is sent to the atmosphere than received by it. (sciencedaily.com)
Now, a large, international team of researchers led by scientists at USC, Stanford and Berkeley has used X-rays from a free - electron laser to peer inside individual droplets of liquid helium, exploring whether this liquid helium retains its superfluid characteristics even at microscopic scales — such as in tiny droplets of helium mist. (sciencedaily.com)