Cosmic-rays detected half a mile underground in a disused U.S. iron-mine can be used to detect major ... -energy cosmic-rays reaching a detector deep underground, closely matches temperature measurements ...
... of Boulder scientists and engineers tested a new instrument prototype that might be used to detect groundwater deep inside Mars. The Mars Time Domain Electromagnetic Sounder (MTDEM) uses induction to ...
... , impermeable "cap rock," that traps the gas deep underground for long periods of time.
Cap ... pattern of flow when carbon dioxide is injected into a deep underground aquifer.
"Our new modeling tool ...
New observations from NASA's Mars Reconnaissance Orbiter indicate that the crust and upper mantle of Mars are stiffer and colder than previously thought. The findings suggest any liquid water that ...
... Laboratory shows a theoretical scenario in which fatty acids are formed on the surface of minerals deep underground, and then brought to the surface by the eruption of a geyser.
When fatty acids ...
... The idea of geosequestration is to trap carbon dioxide and to lock it into minerals deep underground. Geosequestration of carbon dioxide is one of the methods under debate to reduce greenhouse gases ...
The Strategic Petroleum Reserve is a backup supply of crude oil that's pumped into deep underground salt caverns.
The release of the Garnaut Review and the government's Green Paper have highlighted the need for further research into safe and economical technologies to reduce greenhouse gas emissions, such as ...
... a WIMP particle with an atom in their detectors.
Teams of researchers around the globe work deep underground to create the best conditions to isolate WIMPs from their travelling companions, namely ...
... of the fungus. The fungus even performs under low-oxygen conditions like those found deep underground.
Strobel's discovery suggests that fungi living in ancient plants may have contributed to the ...
... to have the rock-solid evidence that suggests carbon dioxide can be safely and permanently sequestered in deep, underground basalt rock formations, without risk of it eventually escaping to the ...
... . These are the types of particles, including one called the neutralino, which should be detectable by the deep underground experiments.
"I think probably in the next five years, someone will see a ...
For the first time on record, humans have made contact with molten rock in its natural environment deep inside Earth. The breakthrough came as a surprise to drillers deep underground.
Australia has the potential to generate sustainable energy from 'hot rocks' located deep underground, write Martin Albrecht and Doone Wyborn.
... use of wells for drinking water.
Scientists had long assumed that the contamination process occurred deep underground, in buried sediments that release arsenic into aquifers 100 to 130 feet below the ...
