# Constraining the TeV gamma-ray emission of SN 2024bch, a possible type IIn-L from a red supergiant progenitor. Multiwavelength observations and analysis of the progenitor

**Authors:** The CTAO-LST Project: K.Abe (1), S.Abe (2), A.Abhishek (3), F.Acero (4,5), A.Aguasca-Cabot (6), I.Agudo (7), C.Alispach (8), D.Ambrosino (9), F.Ambrosino (10), L.A.Antonelli (10), C.Aramo (9), A.Arbet-Engels (11), C.Arcaro (12), T.T.H.Arnesen (13), K.Asano (2), P.Aubert (14), A.Baktash (15), M.Balbo (8), A.Bamba (16), A.Baquero-Larriva (17,18), U.Barresde-Almeida (19), J.A.Barrio (17), L.Barrios-Jim\'enez (13), I.Batkovic (12), J.Baxter (2), J.BecerraGonz\'alez (13), E.Bernardini (12), J.Bernete (20), A.Berti (11), I.Bezshyiko (21), C.Bigongiari (10), E.Bissaldi (22), O.Blanch (23), G.Bonnoli (24), P.Bordas (6), G.Borkowski (25), G.Brunelli (26,27), A.Bulgarelli (26), M.Bunse (28), I.Burelli (29), L.Burmistrov (21), M.Cardillo (30), S.Caroff (14), A.Carosi (10), R.Carraro (10), M.S.Carrasco (31), F.Cassol (31), N.Castrej\'on (32), D.Cerasole (33), G.Ceribella (11), A.Cervi\~no-Cort\'inez (17), Y.Chai (11), K.Cheng (2), A.Chiavassa (34,35), M.Chikawa (2), G.Chon (11), L.Chytka (36), G.M.Cicciari (37,38), A.Cifuentes (20), J.L.Contreras (17), J.Cortina (20), H.Costantini (31), M.Dalchenko (21), P.DaVela (26), F.Dazzi (10), A.DeAngelis (12), M.de Bony de Lavergne (39), R.Del Burgo (9), C.Delgado (20), J.Delgado Mengual (40), M.Dellaiera (14), D.della Volpe (21), B.De Lotto (29), L.Del Peral (32), R.de Menezes (34), G.De Palma (22), C.D\'iaz (20), A.Di Piano (26), F.Di Pierro (34), R.Di Tria (33), L.Di Venere (41), R.M.Dominik (42), D.Dominis Prester (43), A.Donini (10), D.Dore (23), D.Dorner (44), M.Doro (12), L.Eisenberger (44), D.Els\"asser (42), G.Emery (31), J.Escudero (7), V.Fallah Ramazani (45,46), F.Ferrarotto (47), A.Fiasson (14,48), L.Foffano (30), F.Fr\'ias Garc\'ia-Lago (13), S.Fr\"ose (42), Y.Fukazawa (49), S.Gallozzi (10), R.Garcia L\'opez (13), S.Garcia Soto (20), C.Gasbarra (50), D.Gasparrini (50), D.Geyer (42), J.Giesbrecht Paiva (19), N.Giglietto (22), F.Giordano (33), N.Godinovic (51), T.Gradetzke (42), R.Grau (23), D.Green (11), J.Green (11), S.Gunji (52), P.G\"unther (44), J.Hackfeld (53), D.Hadasch (2), A.Hahn (11), M.Hashizume (49), T.Hassan (20), K.Hayashi (2,54), L.Heckmann (11), M.Heller (21), J.Herrera Llorente (13), K.Hirotani (2), D.Hoffmann (31), D.Horns (15), J.Houles (31), M.Hrabovsky (36), D.Hrupec (55), D.Hui (2,56), M.Iarlori (57), R.Imazawa (49), T.Inada (2), Y.Inome (2), S.Inoue (2,58), K.Ioka (59), M.Iori (47), T.Itokawa (2), A.Iuliano (9), J.Jahanvi (29), I.Jimenez Martinez (11), J.Jimenez Quiles (23), I.Jorge Rodrigo (20), J.Jurysek (60), M.Kagaya (2,54), O.Kalashev (61), V.Karas (62), H.Katagiri (63), D.Kerszberg (23,64), T.Kiyomot (65), Y.Kobayashi (2), K.Kohri (66), A.Kong (2), P.Kornecki (7), H.Kubo (2), J.Kushida (1), B.Lacave (21), M.Lainez (17), G.Lamanna (14), A.Lamastra (10), L.Lemoigne (14), M.Linhoff (42), S.Lombardi (10), F.Longo (67), R.L\'opez-Coto (7), M.L\'opez-Moya (17), A.L\'opez-Oramas (13), S.Loporchio (33), A.Lorini (3), J.LozanoBahilo (32), F.Lucarelli (10), H.Luciani (67), P.L.Luque-Escamilla (68), P.Majumdar (2,69), M.Makariev (70), M.Mallamaci (37,38), D.Mandat (60), M.Manganaro (43), D.K.Maniadakis (10), G.Manic\`o (38), K.Mannheim (44), S.Marchesi (26,27,71), F.Marini (12), M.Mariotti (12), P.Marquez (72), G.Marsella (37,38), J.Mart\'i (68), O.Martinez (73), G.Mart\'inez (20), M.Mart\'inez (23), A.Mas-Aguilar (17), M.Massa (3), G.Maurin (14), D.Mazin (2,11), J.M\'endez-Gallego (7), S.Menon (10, 86), E.MestreGuillen (74), S.Micanovic (43), D.Miceli (12), T.Miener (17), J.M.Miranda (73), R.Mirzoyan (11), M.Mizote (75), T.Mizuno (49), M.Molero Gonzalez (13), E.Molina (13), T.Montaruli (21), A.Moralejo (23), D.Morcuende (7), A.Moreno Ramos (73), A.Morselli (50), V.Moya (17), H.Muraishi (76), S.Nagataki (77), T.Nakamori (52), A.Neronov (61), D.Nieto Casta\~no (17), M.Nievas Rosillo (13), L.Nikolic (3), K.Nishijima (1), K.Noda (2,58), D.Nosek (78), V.Novotny (78), S.Nozaki (11), M.Ohishi (2), Y.Ohtani (2), T.Oka (79), A.Okumura (80,81), R.Orito (82), L.Orsini (3), J.Otero-Santos (7), P.Ottanelli (83), M.Palatiello (10), G.Panebianco (26), D.Paneque (11), F.R.Pantaleo (22), R.Paoletti (3), J.M.Paredes (6), M.Pech (36,60), M.Pecimotika (23), M.Peresano (11), F.Pfeifle (44), E.Pietropaolo (57), M.Pihet (6), G.Pirola (11), C.Plard (14), F.Podobnik (3), M.Polo (20), E.Prandini (12), M.Prouza (60), S.Rain\`o (33), R.Rando (12), W.Rhode (42), M.Rib\'o (6), V.Rizi (57), G.Rodriguez Fernandez (50), M.D.Rodr\'iguez Fr\'ias (32), P.Romano (24), A.Roy (49), A.Ruina (12), E.Ruiz-Velasco (14), T.Saito (2), S.Sakurai (2), D.A.Sanchez (14), H.Sano (2,84), T.\v{S}ari\'c (51), Y.Sato (85), F.G.Saturni (10), V.Savchenko (61), F.Schiavone (33), B.Schleicher (44), F.Schmuckermaier (11), J.L.Schubert (42), F.Schussler (39), T.Schweizer (11), M.Seglar Arroyo (23), T.Siegert (44), G.Silvestri (12), A.Simongini (10,86), J.Sitarek (25), V.Sliusar (8), A.Stamerra (10), J.Stri\v{s}kovi\'c (55), M.Strzys (2), Y.Suda (49), A.Sunny (10,86), H.Tajima (80), M.Takahashi (80), J.Takata (2), R.Takeishi (2), P.H.T.Tam (2), S.J.Tanaka (85), D.Tateishi (65), T.Tavernier (60), P.Temnikov (70), Y.Terada (65), K.Terauchi (79), T.Terzic (43), M.Teshima (2,11), M.Tluczykont (15), F.Tokanai (52), T.Tomura (2), D.F.Torres (74), F.Tramonti (3), P.Travnicek (60), G.Tripodo (38), A.Tutone (10), M.Vacula (36), J.van Scherpenberg (11), M.V\'azquez Acosta (13), S.Ventura (3), S.Vercellone (24), G.Verna (3), I.Viale (12), A.Vigliano (29), C.F.Vigorito (34,35), E.Visentin (34,35), V.Vitale (50), V.Voitsekhovskyi (21), G.Voutsinas (21), I.Vovk (2), T.Vuillaume (14), R.Walter (8), L.Wan (2), M.Will (11), J.W\'ojtowicz (25), T.Yamamoto (75), R.Yamazaki (85), Y.Yao (1), P.K.H.Yeung (2), T.Yoshida (63), T.Yoshikoshi (2), W.Zhang (74)

arXiv: 2508.20048 · 2025-08-28

## TL;DR

This study investigates the gamma-ray emission constraints and progenitor characteristics of SN 2024bch, a possible type IIn-L supernova from a red supergiant, using multiwavelength observations and modeling to understand its properties.

## Contribution

The paper provides the first gamma-ray flux upper limits for SN 2024bch and constrains its progenitor's physical parameters, advancing understanding of such supernovae from red supergiants.

## Key findings

- No significant gamma-ray emission detected above 100 GeV.
- Upper limit on progenitor mass-loss rate to wind velocity ratio: ^{-4}.
- Progenitor estimated to be a red supergiant with luminosity ^{4.82} L_\u2099 and temperature  K.

## Abstract

We present very high-energy optical photometry and spectroscopic observations of SN 2024bch in the nearby galaxy NGC 3206 (\sim 20 Mpc). We used gamma-ray observations performed with the first Large-Sized Telescope (LST-1) of the Cherenkov Telescope Array Observatory (CTAO) and optical observations with the Liverpool Telescope (LT) combined with data from public repositories to evaluate the general properties of the event and the progenitor star. No significant emission above the LST-1 energy threshold for this observation (\sim 100 GeV) was detected in the direction of SN 2024bch, and we computed an integral upper limit on the photon flux of F_\gamma(>100 GeV) \le 3.61 \times 10^{-12} cm^{-2} s^{-1} based on six nonconsecutive nights of observations with the LST-1, between 16 and 38 days after the explosion. Employing a general model for the gamma-ray flux emission, we found an upper limit on the mass-loss-rate to wind-velocity ratio of \dot M/u_{w} \le 10^{-4} \frac{M_\odot}{yr}\frac{s}{km}, although gamma-gamma absorption could potentially have skewed this estimation, effectively weakening our constraint. From spectro-photometric observations we found progenitor parameters of M_{pr} = 11 - 20 M_\odot and R_{pr} = 531 \pm 125 R_\odot. Finally, using archival images from the Hubble Space Telescope, we constrained the luminosity of the progenitor star to log(L_{pr}/L_\odot) \le 4.82 and its effective temperature to T_{pr} \le 4000 K. Our results suggest that SN 2024bch is a type IIn-L supernova that originated from a progenitor star consistent with a red supergiant. We show how the correct estimation of the mass-loss history of a supernova will play a major role in future multiwavelength observations.

## Full text

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## Figures

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## References

81 references — full list in the complete paper: https://tomesphere.com/paper/2508.20048/full.md

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Source: https://tomesphere.com/paper/2508.20048