A groundbreaking study has unveiled a fiery, subterranean process that could explain the abundance of water across the solar ...

Our galaxy's most abundant type of planet could be rich in liquid water due to formative interactions between magma oceans ...

Models that inform how magma moves and volcanic eruptions unfold may need an update, according to a new study. It reports that gas bubbles in magmas can form through the mechanical forces of shear as ...

Washington, DC— Our galaxy’s most abundant type of planet could be rich in liquid water due to formative interactions between ...

Scientists have shown how the freezing of a ‘slushy’ ocean of magma may be responsible for the composition of the Moon’s crust. The scientists, from the University of Cambridge and the Ecole normale ...

In the beginning, when planets were newborn, they glowed like furnaces, vast oceans of molten rock wrapped in heavy blankets ...

Underwater volcanoes are powerful geological forces shaping our planet and oceans. These hidden giants form through tectonic activity and magma rising from Earth's depths. While most eruptions are ...

Since silicic magmas are colder and goopier than mafic magmas, dissolved gases have a harder time venting out of them. This ...

Philosophical Transactions: Mathematical, Physical and Engineering Sciences, Vol. 377, No. 2139, Theo Murphy meeting issue: Magma reservoir architecture and dynamics (25 February 2019), pp. 1-30 (30 ...

Scientists have shown how the freezing of a 'slushy' ocean of magma may be responsible for the composition of the Moon's crust. Scientists have shown how the freezing of a 'slushy' ocean of magma may ...

Scientists have shown how the freezing of a ‘slushy’ ocean of magma may be responsible for the composition of the Moon’s crust. The scientists, from the University of Cambridge and the Ecole normale ...