News by Subject Space & Planetary

Public Release: 18-Oct-2018

Superflares from young red dwarf stars imperil planets

Flares from the youngest red dwarfs surveyed are 100 to 1,000 times more energetic than when the stars are older. This younger age is when terrestrial planets are forming around their stars.

Public Release: 18-Oct-2018

ASU astronomers catch red dwarf star in a superflare outburst

Arizona State University

Most red dwarf stars have planet families but are prone to violent outbursts, making their planets less hospitable to life.

Journal: Astrophysical Journal

Public Release: 17-Oct-2018

Double dust ring test could spot migrating planets

University of Warwick

New research by a team led by an astrophysicist at the University of Warwick has a way of finally telling whether newly forming planets are migrating within the disc of dust and gas that typically surrounds stars or whether they are simply staying put in the same orbit around the star.

Journal: Monthly Notices of the Royal Astronomical Society

Public Release: 17-Oct-2018

School students identify sounds caused by solar storm

Queen Mary University of London

School students have successfully identified sounds caused by a solar storm in the Earth's magnetic shield, as part of a Queen Mary University of London research project.

Journal: Space Weather

Public Release: 17-Oct-2018

FEFU astrophysicist contributed into international-team efforts on study Comet 29P

Far Eastern Federal University

Evgenij Zubko of Far Eastern Federal University (FEFU) in collaboration with other team members has developed a comprehensive model to explain the results of a photometric study of the Comet Schwassmann-Wachmann 1 (29P) which was successfully accomplished recently. The findings came as a real surprise revealed that the dust environment of 29P predominantly consists of only one type of material -- magnesium-rich silicate particles with presumably a small amount of iron (Fe-Mg silicates).

Journal: Icarus
Funder: SASPRO Programme, People Programme EuropeanUnion ' s Seventh Framework Programme, Slovak Academy of Sciences, Taras Shevchenko National University

Public Release: 17-Oct-2018

Astronomers find a cosmic Titan in the early universe

University of California - Davis

An international team of astronomers has discovered a titanic structure in the early universe, just two billion years after the Big Bang. This galaxy proto-supercluster, nicknamed Hyperion, is the largest and most massive structure yet found at such a remote time and distance.

Journal: Astronomy & Astrophysics
Funder: European Research Council, INAF, National Science Foundation, NASA, France Berkeley Fund

Public Release: 17-Oct-2018

Supermassive black holes and supercomputers

Frontiers

The universe's deep past is beyond the reach of even the mighty Hubble Space Telescope. But a new review published in Frontiers in Astronomy and Space Sciences explains how creation of the first stars and galaxies is nevertheless being mapped in detail, with the aid of computer simulations and theoretical models -- and how a new generation of supercomputers and software is being built that will fill in the gaps.

Journal: Frontiers in Astronomy and Space Science
Funder: National Science Foundation

Public Release: 16-Oct-2018

Moon helps reveal secrets of the universe

International Centre for Radio Astronomy Research

The moon may be the key to unlocking how the first stars and galaxies shaped the early universe. A team of astronomers led by Dr, Benjamin McKinley at Curtin University node of the International Centre for Radio Astronomy Research (ICRAR) and the ARC Centre of Excellence for All Sky Astrophysics in 3 Dimensions (ASTRO 3D) observed the moon with a radio telescope to help search for the faint signal from hydrogen atoms in the infant universe.

Journal: Monthly Notices of the Royal Astronomical Society

Public Release: 16-Oct-2018

All in the family: Kin of gravitational wave source discovered

University of Maryland

According to new research, an object named GRB150101B -- first reported as a gamma-ray burst in 2015 -- shares remarkable similarities with GW170817, the neutron star merger discovered by LIGO and observed by multiple light-gathering telescopes in 2017. The new analysis, published on Oct. 16, 2018 in the journal Nature Communications, suggests that these two separate objects may in fact be directly related.

Journal: Nature Communications
Funder: NASA, National Research Foundation of Korea

Public Release: 15-Oct-2018

Giant planets around young star raise questions about how planets form

University of Cambridge

Researchers have identified a young star with four Jupiter and Saturn-sized planets in orbit around it, the first time that so many massive planets have been detected in such a young system. The system has also set a new record for the most extreme range of orbits yet observed: the outermost planet is more than a thousand times further from the star than the innermost one, which raises interesting questions about how such a system might have formed.

Journal: Astrophysical Journal Letters

Featured Newsrooms

News by Subject Space & Planetary

Search Archives