An investigation of a cosmic explosion that marked the violent demise of a large star has referred to as into query our understanding of the connection between ejected particles violently placing surrounding matter and the power output of those occasions.
The supernova on the coronary heart of this analysis, designated SN 2024bch, erupted round 65 million light-years away from Earth and was first noticed in February 2024. It’s an instance of a Sort II supernova, an explosion that happens when nuclear fusion ceases within the cast-iron core of a large star, inflicting it to break down, sending shockwaves into the star’s outer layers, resulting in them being ejected.
The staff behind this analysis, hailing from the Nationwide Institute for Astrophysics (INAF), studied this supernova for 140 days, utilizing a variety of ground-based telescopes and the Swift spacecraft, discovering the slim emission strains in its spectra. This function has beforehand been thought of a check for locating if a dying star is interacting with its setting.
Nevertheless, within the case of SN 2024bch, the launched power does not appear to be the results of ejected matter mixing with a dense fuel shell. As a substitute, the INAF researchers counsel a distinct mechanism to account for the power, termed Bowen fluorescence.
“We utilized a non-traditional and unprejudiced perspective,” Leonardo Tartaglia, staff chief and INAF researcher, stated in a translated assertion.” For the primary time in such a transient, we show that the first mechanism is Bowen fluorescence, a phenomenon identified for the reason that first half of the twentieth century that had by no means been thought of within the examine of comparable objects. Our state of affairs describes all of the evolutionary phases of the supernova with nice precision.”
Bowen fluorescence is akin to an echo however of high-energy gentle slightly than sound. On this case, intense ultraviolet gentle from the supernova excites surrounding helium atoms, and these atoms then switch power to different parts like oxygen and nitrogen additionally current across the dying star. It’s this switch of power that generates the slim spectral strains seen by the staff.
This revelation means scientists may need to rethink Sort II supernova fashions, which might end in a few of these cosmic explosions being dominated out as a supply of neutrinos, nearly massless, chargeless “ghost particles” that stream by way of house at close to light-speed.
This might have ramifications for a strong technique of investigating the cosmos referred to as multimessenger astronomy, which entails learning occasions and objects in electromagnetic radiation together with gravitational waves or neutrinos.
“Our examine highlights that, for a minimum of a fraction of those transients, interplay will not be the first driver of emissions, and this has essential implications for multi-messenger astronomy,” Tartaglia stated. “Exhibiting no proof of interplay, supernova SN 2024bch lacks the bodily circumstances crucial for the emission of high-energy neutrinos.”
The staff’s analysis has been accepted for publication in Astronomy & Astrophysics.
 
		

