Add to ORKGThere is compelling geochemical evidence for primordial helium trapped in Earth’s lower mantle, but the origin and nature of the helium source remain elusive due to scarce knowledge on viable helium-bearing compounds that are extremely rare. Here we explore materials physics underlying this prominent challenge. Our structure searches in conjunction with first-principles energetic and thermodynamic calculations uncover a remarkable helium-bearing compound FeO2He at high pressure-temperature conditions relevant to the core-mantle boundary. Calculated sound velocities consistent with seismic data validate FeO2He as a feasible constituent in ultralow velocity zones at the lowermost mantle. These mutually corroborating findings establish the fir...
Helium and methane are major components of giant icy planets and are abundant in the universe. Howev...
The 3He/4He isotopic ratio of helium inclusions in diamonds have been used in the past to provide bo...
Fluid inclusions trapped in fast-growing diamonds provide a unique opportunity to examine the origin...
There is compelling geochemical evidence for primordial helium trapped in Earth's lower mantle, but ...
An enduring geological mystery concerns the missing xenon problem, referring to the abnormally low c...
Helium is the second most abundant element in the universe, and together with silica, they are impor...
International audienceThe observed escape of the primordial helium isotope, 3He, from the Earth's in...
The purpose of this work is to refine our knowledge about the nature of helium with a high abundance...
© The Author(s), 2022. This article is distributed under the terms of the Creative Commons Attributi...
Crust-derived helium is generated from the radioactive decay of uranium, thorium and other radioacti...
The severe shortage of helium resources is an impending global problem. However, the helium accumula...
International audienceNoble gases (He-Ne-Ar-Kr-Xe) in mantle-derived samples allow an undisputable t...
International audienceA major goal in Earth Science has been to understand how geochemical character...
Author Posting. © American Geophysical Union 2003. This article is posted here by permission of Ame...
Among the isotope systems exploited by mantle geochemists to deduce the chemical evolution of the Ea...
Helium and methane are major components of giant icy planets and are abundant in the universe. Howev...
The 3He/4He isotopic ratio of helium inclusions in diamonds have been used in the past to provide bo...
Fluid inclusions trapped in fast-growing diamonds provide a unique opportunity to examine the origin...
There is compelling geochemical evidence for primordial helium trapped in Earth's lower mantle, but ...
An enduring geological mystery concerns the missing xenon problem, referring to the abnormally low c...
Helium is the second most abundant element in the universe, and together with silica, they are impor...
International audienceThe observed escape of the primordial helium isotope, 3He, from the Earth's in...
The purpose of this work is to refine our knowledge about the nature of helium with a high abundance...
© The Author(s), 2022. This article is distributed under the terms of the Creative Commons Attributi...
Crust-derived helium is generated from the radioactive decay of uranium, thorium and other radioacti...
The severe shortage of helium resources is an impending global problem. However, the helium accumula...
International audienceNoble gases (He-Ne-Ar-Kr-Xe) in mantle-derived samples allow an undisputable t...
International audienceA major goal in Earth Science has been to understand how geochemical character...
Author Posting. © American Geophysical Union 2003. This article is posted here by permission of Ame...
Among the isotope systems exploited by mantle geochemists to deduce the chemical evolution of the Ea...
Helium and methane are major components of giant icy planets and are abundant in the universe. Howev...
The 3He/4He isotopic ratio of helium inclusions in diamonds have been used in the past to provide bo...
Fluid inclusions trapped in fast-growing diamonds provide a unique opportunity to examine the origin...