Thank you for visiting nature.com. You are using a browser version with limited support for CSS. To obtain
the best experience, we recommend you use a more up to date browser (or turn off compatibility mode in
Internet Explorer). In the meantime, to ensure continued support, we are displaying the site without styles
and JavaScript.
A commonly held view is that presolar grains could not survive the high temperatures of the protoplanetary disk close to the Sun, where calcium–aluminium-rich inclusions (CAI) formed. Yet a detailed noble gas isotopic composition analysis of a CAI shows evidence of presolar SiC incorporated in it that could withstand high-temperature processing.
The pyrolysis experiments of the SAM instrument on board the Curiosity rover reconstruct the origin of organics at Gale crater. Some of them come from meteorites, but others have been formed in situ, with widespread past formation of carbonates via cryogenesis. More than 0.5 bar of CO2 might have precipitated from the atmosphere.
Keen observations of the Cassiopeia A supernova remnant have identified a circumstellar clump that lies outside the supernova shock front. This unprocessed material from the supernova progenitor contains iron in the gas phase, and is consistent with an origin within a blue supergiant star.
A dust impact event detected by the ROSINA mass spectrometer towards the end of the Rosetta mission brings evidence of the presence of ammonium salts in comets. Ammonium salts can store enough nitrogen to explain the observed nitrogen depletion in comets and may have a role in amino acid formation.
Relativistic modelling of long X-ray observations of a highly variable active galaxy reveals that the height of its X-ray corona increases with increasing luminosity. X-ray reverberation is shown to be a powerful technique to measure black hole masses.
A ring of maser emission seemingly expanding at 0.05 c is actually tracing the propagation of heat through the circumstellar medium around a high-mass protostar rather than subluminal motion. The heatwave is a manifestation of an accretion burst.
A joint analysis of spectroastrometry and reverberation mapping observations independently measures the distance to the active galaxy nucleus 3C 273 and the value of H0. Future observations of about 30 such sources will measure H0 to less than 3% precision.
Bright star \(\nu\) Indi shows elevated levels of alpha-process elements, suggesting great age, and is kinematically heated, probably from the merger of a dwarf galaxy with the Milky Way. Chaplin et al. make a case for \(\nu\) Indi being an accurate indicator of the timing for the Gaia–Enceladus merger.
The early Solar System might have been similar to the ringed protoplanetary disks observed by ALMA. One of the gaps, at Jupiter’s position, could be the cause of the observed dichotomy between carbonaceous and non-carbonaceous material.
A refined analysis of infrared observations of comet 67P/Churyumov–Gerasimenko from the VIRTIS instrument on board the Rosetta spacecraft has revealed the presence of aliphatic organic molecules on the comet nucleus.
Spectroscopic simulations of exoplanetary atmospheres show that our best chance to detect molecular oxygen lies in the 6.4-μm band of collision-induced absorptions. The first detections could be possible with the James Webb Space Telescope.
Fragile et al. study the physics of accretion onto a neutron star from a thin accretion disk when interacting with an X-ray burst. A number of processes occur in the inner disk, including a reflexive retreat of the inner edge of the disk from the star, on the timescale of the burst.