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Showing 1–8 of 8 results
Advanced filters: Author: M. Krips Clear advanced filters

  • A series of early-time, multiwavelength observations of an optical transient, AT2022cmc, indicate that it is a relativistic jet from a tidal disruption event originating from a supermassive black hole.

    • Igor Andreoni
    • Michael W. Coughlin
    • Jielai Zhang
    Research
    Nature
    Volume: 612, P: 430-434

  • An unusual ultraviolet compact object associated with a dusty starburst has been observed at a redshift of about 7.2, with a luminosity that falls between that of quasars and galaxies, possibly in transition between the two. 

    • S. Fujimoto
    • G. B. Brammer
    • P. A. Oesch
    Research
    Nature
    Volume: 604, P: 261-265

  • A massive starburst galaxy with 100 billion solar masses of gas is identified at a redshift of 6.34; a ‘maximum starburst’ converts the gas into stars at a rate more than 2,000 times that of the Milky Way.

    • Dominik A. Riechers
    • C. M. Bradford
    • J. Zmuidzinas
    Research
    Nature
    Volume: 496, P: 329-333

  • Massive galaxies in the early Universe have been shown to be forming stars at high rates. Probing the properties of individual star-forming regions is beyond the resolution and sensitivity of existing telescopes. Here, however, observations are reported of the galaxy SMMJ2135–0102 at redshift z=2.3259, which has been gravitationally magnified by a factor of 32 by a galaxy cluster lens in the foreground. The physics underlying star formation here is similar to that in local galaxies, but the energetics are very different.

    • A. M. Swinbank
    • I. Smail
    • J. D. Younger
    Research
    Nature
    Volume: 464, P: 733-736

  • A high-velocity outflow of molecular gas from a starburst galaxy has been observed to extend about ten kiloparsecs; its velocity is consistent with the momentum flux from stellar radiation pressure, showing that bursts of star formation can eject large amounts of cold gas from the central regions of galaxies, curtailing star formation.

    • J. E. Geach
    • R. C. Hickox
    • J. Moustakas
    Research
    Nature
    Volume: 516, P: 68-70