Collection

Nature's Astronomical Highlights

The journal Nature has been at the pinnacle of scientific publishing for many years. Founded by an astronomer, Norman Lockyer, it has had an extensive history in publishing the most significant developments in the Natural Sciences. For instance, James Chadwick published his discovery of the neutron in Nature; James Watson and Francis Crick presented the helical structure of DNA. Naturally, astronomy has been no exception: part of the discussion following the “Great Debate” on the nature of the Spiral Nebulae (were these small nebulae within our Galaxy or distant galaxies in their own right?) was contained in Nature’s pages in the early 1920s. In the 1960s, Maarten Schmidt’s discovery of the first quasar and Antony Hewish & Jocelyn Bell’s discovery of the first pulsar were presented in Nature. Even up until the present day, Nature is publishing discoveries that not only are of great interest to professional and amateur astronomers and astrophysicists, but also of relevance to humankind in general. In 2016 we discovered through the work of Guillem Anglada-Escudé and collaborators that the nearest star to our Solar System harbours a rocky planet in a temperate orbit.

It is on the back of these discoveries and this extensive history that Nature Research is launching a new journal in 2017, Nature Astronomy, so that more astronomical research might be published with a similar high standard of editing, peer review and production as Nature’s. To celebrate Nature’s comprehensive astronomical heritage, we at Nature Astronomy have curated this Web Collection of 40 Nature papers that have had significant impact on astronomical research. Several of these papers have been cited over 1,000 times in the astronomical literature. To include some more recent papers, which have not had the luxury of many years over which to accrue citations, we have also consulted Altmetric scores, which gauge social media impact among other things. The result is a Collection of Letters, Articles and Reviews that have been roughly grouped into seven themes: exoplanets, pulsars, black holes & short gamma-ray bursts, long gamma-ray bursts & supernovae, galaxies, dark matter and the large-scale structure of the Universe. Several of these papers have been selected for Free Access for a limited period; these can be found collected together below, or in the “Free access” tab, above. 

Before we delve into these seven topics, there is one stimulating paper that stands apart, written by astronomer and science communicator Carl Sagan and his colleagues (Sagan et al. 1993). It details an experiment performed with the Galileo spacecraft on its way to Jupiter. Galileo was commanded to turn towards the Earth, and capture data with its instruments. Effectively it observed the Earth for signs of life. However, it only just managed to find them: it saw a water-rich atmosphere and surface; it saw signs of biological activity in the high levels of methane; it saw a red-absorbing pigment that might have been responsible for photosynthesis; but the only compelling and indicative detection was that of narrow-band radio emission suggestive of a technological civilisation. The paper presented a unique opportunity to objectively observe our blue marble planet from afar.

Free access

  • Nature | Letter

    A small planet of at least 1.3 Earth masses is orbiting Proxima Centauri with a period of about 11.2 days, with the potential for liquid water on its surface.

    • Guillem Anglada-Escudé
    • , Pedro J. Amado
    • , John Barnes
    • , Zaira M. Berdiñas
    • , R. Paul Butler
    • , Gavin A. L. Coleman
    • , Ignacio de la Cueva
    • , Stefan Dreizler
    • , Michael Endl
    • , Benjamin Giesers
    • , Sandra V. Jeffers
    • , James S. Jenkins
    • , Hugh R. A. Jones
    • , Marcin Kiraga
    • , Martin Kürster
    • , Marίa J. López-González
    • , Christopher J. Marvin
    • , Nicolás Morales
    • , Julien Morin
    • , Richard P. Nelson
    • , José L. Ortiz
    • , Aviv Ofir
    • , Sijme-Jan Paardekooper
    • , Ansgar Reiners
    • , Eloy Rodríguez
    • , Cristina Rodrίguez-López
    • , Luis F. Sarmiento
    • , John P. Strachan
    • , Yiannis Tsapras
    • , Mikko Tuomi
    •  &  Mathias Zechmeister
  • Nature | Review

    In the ΛCDM paradigm, 95% of the Universe consists of dark energy and cold dark matter, but the low-density cores of dark matter measured at the centre of galaxies are hard to explain using this model; here a review of recent work shows that the action of stars and gas can significantly alter the distribution of cold dark matter through a coupling based on rapid gravitational potential fluctuations.

    • Andrew Pontzen
    •  &  Fabio Governato
  • Nature | Article

    A simulation that starts 12 million years after the Big Bang and traces 13 billion years of cosmic evolution yields a reasonable population of elliptical and spiral galaxies, reproduces the observed distribution of galaxies in clusters and the characteristics of hydrogen on large scales, and at the same time matches the ‘metal’ and hydrogen content of galaxies on small scales.

    • M. Vogelsberger
    • , S. Genel
    • , V. Springel
    • , P. Torrey
    • , D. Sijacki
    • , D. Xu
    • , G. Snyder
    • , S. Bird
    • , D. Nelson
    •  &  L. Hernquist