Home The Latest News The Latest News Read the latest news about our breakthrough discoveries, get a behind-the-scenes looks at our researchers at work, and join our scientists as they redefine the pursuit of what's possible. Search search Search Clear All Research Area Astronomy & Astrophysics Earth Science Global Ecology Genetics & Developmental Biology Matter at Extreme States Planetary Science Plant Science Type Organizational News Awards Feature Story First-person Narrative Press Release Q&A Event Highlights Spotlight Trustee News Campus News Alumni Profiles Yearbook Division Biosphere Sciences & Engineering Embryology Global Ecology Plant Biology Carnegie Administration Earth & Planets Laboratory Observatories Sort by Date Ascending Date Descending Filter By: Clear All Type Organizational News Awards Feature Story First-person Narrative Press Release Q&A Event Highlights Spotlight Trustee News Campus News Alumni Profiles Yearbook Research Area Astronomy & Astrophysics Earth Science Global Ecology Genetics & Developmental Biology Matter at Extreme States Planetary Science Plant Science Division Biosphere Sciences & Engineering Embryology Global Ecology Plant Biology Carnegie Administration Earth & Planets Laboratory Observatories Sort by Date Ascending Date Descending Filter results 425 results found for: March 02, 2022 Discovered: An Easier Way To Create "Flexible Diamonds" Working with magnesium germanate, Mg2GeO4, analogous to one of the mantle’s most abundant silicate minerals, the team was able to glean information about the potential mineralogy of super-Earths and other large, rocky exoplanets. Under about 2 million times normal atmospheric pressure a new phase emerged with a distinct crystalline structure that involves one germanium bonded with eight oxygens. The new eight-coordinated, intrinsically discorded mineral is expected to strongly affect the internal temperature and dynamics of these planets. Illustration is courtesy of Rajkrishna Dutta. March 01, 2022 What’s Happening In The Depths Of Distant Worlds? February 15, 2022 Awards Marilyn Fogel Wins Geochemical Society’s Highest Honor February 14, 2022 Campus News #ScienceValentines February 08, 2022 Campus News Letter from the Director | February 2022 February 08, 2022 Spotlight Nat Geo Explorer Munazza Alam inspires girls in STEM as she studies distant worlds January 19, 2022 Campus News Carnegie Alum discusses JWST on C-Span as EPL scientists prepare their projects January 14, 2022 Awards Alan Boss Selected As AAS Fellow January 13, 2022 Martian Meteorite’s Organic Materials Origin Not Biological January 13, 2022 Campus News Applications reopen for MUSICA teacher workshop Pagination Previous page chevron_left … Page 14 Current page 15 Page 16 … Next page chevron_right
Working with magnesium germanate, Mg2GeO4, analogous to one of the mantle’s most abundant silicate minerals, the team was able to glean information about the potential mineralogy of super-Earths and other large, rocky exoplanets. Under about 2 million times normal atmospheric pressure a new phase emerged with a distinct crystalline structure that involves one germanium bonded with eight oxygens. The new eight-coordinated, intrinsically discorded mineral is expected to strongly affect the internal temperature and dynamics of these planets. Illustration is courtesy of Rajkrishna Dutta. March 01, 2022 What’s Happening In The Depths Of Distant Worlds?
February 08, 2022 Spotlight Nat Geo Explorer Munazza Alam inspires girls in STEM as she studies distant worlds
January 19, 2022 Campus News Carnegie Alum discusses JWST on C-Span as EPL scientists prepare their projects
