In The News: Graduate College
The findings could have implications for our understanding of distant, water-rich planets.
A team of scientists working in 51³Ô¹ÏºÚÁÏ's Nevada Extreme Conditions Lab pioneered a new method for measuring the properties of water under high pressure. The water sample was first squeezed between the tips of two opposite-facing diamonds—freezing into several jumbled ice crystals. The ice was then subjected to a laser-heating technique that temporarily melted it before it quickly re-formed into a powder-like collection of tiny crystals.
A team of scientists working in 51³Ô¹ÏºÚÁÏ's Nevada Extreme Conditions Lab pioneered a new method for measuring the properties of water under high pressure. The water sample was first squeezed between the tips of two opposite-facing diamonds—freezing into several jumbled ice crystals. The ice was then subjected to a laser-heating technique that temporarily melted it before it quickly re-formed into a powder-like collection of tiny crystals.
The scientists made Ice-VIIt in the lab by squeezing water at a pressure more than 50,000 that found at sea level.
The scientists made Ice-VIIt in the lab by squeezing water at a pressure more than 50,000 that found at sea level.
A diamond anvil squashed water ice into a never-before-seen transitional form that may exist on other planets.
A diamond anvil squashed water ice into a never-before-seen transitional form that may exist on other planets.
Physicists have discovered a new form of ice, something they say redefines the properties of water at high pressures. A team of scientists working in the Nevada Extreme Conditions Lab at the University of Nevada, Las Vegas, pioneered a new method for measuring the properties of water under high pressure, according to a recent report from the university.
Physicists have discovered a new form of ice, something they say redefines the properties of water at high pressures. A team of scientists working in the Nevada Extreme Conditions Lab at the University of Nevada, Las Vegas, pioneered a new method for measuring the properties of water under high pressure, according to a recent report from the university.
Researchers hypothesise that the Ice-VIIt phase of ice could exist in abundance in the crust and upper mantle of expected water-rich planets outside of our solar system
Researchers hypothesise that the Ice-VIIt phase of ice could exist in abundance in the crust and upper mantle of expected water-rich planets outside of our solar system
Recently, Scientists at the University of Nevada, Las Vegas, have discovered a new form of ice. The research was published in the journal, Physical Review B.