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MNRAS, one of the world’s leading astronomy journals for over 190 years, has an average time from submission to first decision of 32 days, and supports embedded videos and 3D figures. …
Find out more Key Papers from MNRAS
Join us in celebrating another year of excellence in astronomy and astrophysics research. The 'Best Of 2020' collection showcases an array of the most cited, most downloaded, and top Altmetric scoring articles published in the journal in the last year.
Special Issue: Comets - A New Vision After Rosetta and Philae
Read the latest free Special Issue following the international conference on cometary science “Comets: A New Vision After Rosetta and Philae” online now.
Special Issue: ESLAB 50 Symposium
Read the free Special Issue on the ESLAB 50 Symposium – spacecraft at comets from 1P/Halley to 67P/Churyumov-Gerasimenko online now.
Image credit: ESA/ATG medialab; Comet image: ESA/Rosetta/NavCam
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Highly Cited Articles
Read a free collection of highly-cited articles published in 2018 and 2019 showcasing the top-quality research from MNRAS.
Altmetric Data Available
Article-level metrics are available for all MNRAS articles. Read the articles with the highest Altmetric scores, currently freely available online.
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All Zooniverse papers published in MNRAS are free to read online to ensure that all of those contributing to them can read the official published version of the article.
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Understanding black holes: young star clusters filling up gaps
Since their groundbreaking discovery of gravitational waves from a pair of in-spiralling black holes back in 2015, the LIGO-Virgo-KAGRA collaboration has detected nearly 70 candidates of such events, 50 being confirmed and published until now. A tight binary comprising black holes or neutron stars would always spiral in and become tighter with time by losing energy in the form of gravitational waves until they plunge onto each other and merge.
Modifying gravity to save cosmology
The unexpectedly rapid local expansion of the Universe could be due to us residing in a large void. However, a void wide and deep enough to explain this discrepancy—often called the “Hubble tension”—is not possible in standard cosmology, which is built on Einstein’s theory of gravity, General Relativity. Now, a team of astronomers have shown how such a void is possible in one of the leading alternative gravity theories called Modified Newtonian Dynamics (or MOND).
Supermassive black holes: monsters in the early Universe
A star such as the Sun will never leave a black hole because the quantum forces between matter stop this from squeezing into a sufficiently small volume. Once the Sun dies it will merely leave a white dwarf star, which slowly cools and dims over billions of years. But when the nuclear furnace of a star weighing more than approximately 20 times the Sun exhausts itself, the quantum forces cannot halt its immense gravitational collapse, sparking its explosion as a supernova and often leaving a stellar mass black hole in memory of its previous glory.
The enduring mystery of how galaxies grow up
Astronomers have discovered that there are two different types of galaxies in the Universe: elliptical galaxies and spiral galaxies. Elliptical galaxies are dead galaxies full of very old, red stars that move on chaotic random orbits around the centre of their galaxy in such a way that makes their shape look like fluffy footballs. On the other hand, live spiral galaxies contain both old stars and many new, freshly formed stars. They appear as beautiful spiral galaxies as their stars and gas move on nearly circular paths around a common centre in a thin rotating disk
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