News by Subject Space & Planetary

News Release 17-Jan-2020

NJIT scientists measure the evolving energy of a solar flare's explosive first minutes

In 2017, a massive new region of magnetic field erupted on the sun's surface next to an existing sunspot. The powerful collision of magnetic energy produced a series of solar flares, causing turbulent space weather conditions at Earth. Scientists have now pinpointed for the first time exactly when and where the explosion released the energy that heated spewing plasma to energies equivalent to 1 billion degrees in temperature.

Journal: Science

News Release 17-Jan-2020

The core of massive dying galaxies already formed 1.5 billion years after the Big Bang

University of Copenhagen

The most distant dying galaxy discovered so far, more massive than our Milky Way -- with more than a trillion stars -- has revealed that the 'cores' of these systems had formed already 1.5 billion years after the Big Bang, about 1 billion years earlier than previous measurements revealed. The discovery will add to our knowledge on the formation of the Universe more generally, and may cause the computer models astronomers use, one of the most fundamental tools, to be revised

Journal: Astrophysical Journal Letters

News Release 15-Jan-2020

Astronomers discover class of strange objects near our galaxy's enormous black hole

University of California - Los Angeles

UCLA astronomers have discovered a new class of bizarre objects at the center of our galaxy, not far from the supermassive black hole called Sagittarius A*. 'Mergers of stars may be happening in the universe more often than we thought, and likely are quite common,' said Andrea Ghez, UCLA's Lauren B. Leichtman and Arthur E. Levine Professor of Astrophysics. She believes the objects were binary stars that merged because of the black hole's gravitational force.

Journal: Nature

News Release 15-Jan-2020

Is there a second planet orbiting the nearest star to the sun?

American Association for the Advancement of Science

An analysis of cyclical changes in the light spectrum emitted by Proxima Centauri, the star closest to the Sun, suggests it may be orbited by a second planet. Mario Damasso and colleagues present data suggesting that this candidate planet orbits Proxima Centauri every 5.2 years and may be a 'super-Earth,' with a mass higher than Earth's, though much lower than that.

Journal: Science Advances

News Release 14-Jan-2020

'Cold Neptune' and two temperate super-Earths found orbiting nearby stars

Carnegie Institution for Science

A 'cold Neptune' and two potentially habitable worlds are part of a cache of five newly discovered exoplanets and eight exoplanet candidates found orbiting nearby red dwarf stars by a team led by Carnegie's Fabo Feng and Paul Butler. The two potentially habitable planets are among the nearest stars to our own Sun, making them prime targets for observations by next-generation space- and land-based telescopes.

Journal: The Astrophysical Journal Supplement Series

News Release 13-Jan-2020

Stars need a partner to spin universe's brightest explosions

University of Warwick

When it comes to the biggest and brightest explosions seen in the universe, University of Warwick astronomers have found that it takes two stars to make a gamma-ray burst.

Journal: Monthly Notices of the Royal Astronomical Society
Funder: Science and Technology Facilities Council

News Release 13-Jan-2020

Meteorite contains the oldest material on Earth: 7-billion-year-old stardust

Field Museum

Scientists have discovered the oldest solid material on Earth: 7-billion-year-old stardust trapped inside a meteorite. (For comparison, the sun is 4.6 billion years old, and the Earth is 4.5.) This stardust provides evidence for a 'baby boom' of new stars that formed 7 billion years ago, contrary to thinking that star formation happens at a steady, constant rate.

Journal: Proceedings of the National Academy of Sciences
Funder: NASA

News Release 10-Jan-2020

Explosion or collapse?

Helmholtz Association

A group of scientists, among them several from GSI Helmholtzzentrum für Schwerionenforschung and from Technical University of Darmstadt, succeeded to experimentally determine characteristics of nuclear processes in matter ten million times denser and 25 times hotter than the center of our sun. A result of the measurement is that intermediate-mass stars are very likely to explode, and not, as assumed until now, collapse. The findings are now published in the scientific magazine Physical Review Letters.

Journal: Physical Review Letters

News Release 10-Jan-2020

When David poses as Goliath

University of Erlangen-Nuremberg

Recently, a Chinese team of astronomers claimed to have discovered a black hole as massive as 70 solar masses, which, if confirmed, would severely challenge the current view of stellar evolution. Among those to take a closer look at the object were astronomers from the Universities of Erlangen-Nürnberg and Potsdam. They discovered that it may not necessarily be a black hole at all, but possibly a massive neutron star or even an 'ordinary' star.

Journal: Astronomy & Astrophysics

News Release 8-Jan-2020

Planet WASP-12b is on a death spiral, say Princeton scientists

Princeton University

A Princeton-led team of astrophysicists has shown that exoplanet WASP-12b, located 600 light-years away, is spiraling in toward certain destruction in about 3 million years. 'Ever since the discovery of the first 'hot Jupiter' in 1995 -- a discovery that was recognized with this year's Nobel Prize in Physics -- we have wondered how long such planets can survive,' said Prof. Joshua Winn.

Journal: Astrophysical Journal Letters
Funder: Princeton University, Heising-Simons Foundation, NASA Solar Systems, Pennsylvania State University, Eberly College of Science, Pennsylvania Space Grant Consortium

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