The Sulfur Plume in the Horsehead Nebula: New Detections of S2H, SH+, and CO+
A. Fuente et al 2025 ApJL 986 L17 Using the Atacama Large Millimeter/submillimeter Array, researchers have detected multiple sulfur-containing species; the data support a formation pathway for S2H…
Read the full articleYou might also wanna read
VLT Study Reveals Dramatic Nickel Emission and CN Outgassing in Interstellar Comet 3I/ATLAS
We report VLT spectroscopy of the interstellar comet 3I/ATLAS (C/2025 N1) from $r_{\rm h}\!\simeq\!4.4$ to $2.85$ au using X-shooter (300-55
JWST Detects New Spectral Signatures of Buckyballs in Planetary Nebula Tc 1
JWST observations serendipitously revealed new emission features from fullerenes, the largest molecules definitively detected in space.
JWST Detects New Spectral Signatures of Buckyballs in Planetary Nebula Tc 1
JWST observations serendipitously revealed new emission features from fullerenes, the largest molecules definitively detected in space.
JWST detects molecular hydrogen in the ultra-low metallicity dwarf galaxy Leo P
Considering that molecular hydrogen is the most abundant molecule in the universe, you’d think it’d be easier to find.
JWST detects molecular hydrogen in the ultra-low metallicity dwarf galaxy Leo P
Considering that molecular hydrogen is the most abundant molecule in the universe, you’d think it’d be easier to find.
Newborn stars preserve organic-rich gas within ancient supernova debris
For the first time, astronomers have discovered stellar cocoons rich in complex organic molecules within a supernova remnant. A research tea
James Webb Space Telescope detects methane and other gases on interstellar Comet 3I/ATLAS
Webb's MIRI image of the interstellar Comet 3I/ATLAS in three different light wavelengths
NASA's Webb Telescope Detects Methane on Interstellar Comet 3I/ATLAS
NASA’s James Webb Space Telescope has collected its first mid-infrared chemical fingerprint of an interstellar object during a recent revisi

Comments
Sign in to join the conversation.
No comments yet. Be the first.