Poster presentations include a flash talk (optional; roughly one minute and one slide) and printed posters in a portrait orientation, size A0 or A1. Poster stands will be spread among two floors of Hotel Kakola; posters 1-48 will be on the second floor, while posters 49-96 will be on the third floor.
The flash talk schedule can be found below the full poster list.
| Presenter | Poster title | Stand number |
|---|---|---|
| Stefano Ciprini | Fermi-LAT Discovery of a Unexpected Gamma-ray Outburst from the Peculiar Compact Steep Spectrum Radiogalaxy 3C 216 | 1 |
| Stefano Ciprini | Erratic, transient, flaring variability versus QPO flux modulation in the gamma-ray blazar PG 1553+113 | 2 |
| Daniela Boneva | Short time-scales burst activity in three binary star systems and the related accretion efficiency | 3 |
| Peter Kretschmar | Not just normal or giant – a new look at Be X-ray binary outbursts | 4 |
| Shunke Ai | Magnetized Shocks Mediated by Radiation from Leptonic and Hadronic Processes | 5 |
| Srijan Srivastava | Improving Transient Identification With Swift-XRT | 6 |
| Pragyan Pratim Bordoloi | GRB 131014A : Identification and modeling of optically thin inverse Compton scattering in the prompt emission | 7 |
| Gavin Lamb | The Wibbly-Wobbly Precursor in a Merger Origin Long-duration GRB | 8 |
| Romain Maccary | A set of distinctive properties ruling the prompt emission of long 𝛾-ray bursts from compact object mergers | 9 |
| Romain Maccary | Minimum variability timescale: what the fastest variations tell us about gamma-ray burst progenitors? | 10 |
| Shane Moran | GRB 121027A and the ultra-long frontier: where do we go from here? | 11 |
| Huei Sears | HST + JWST Observations of the Extreme GRBs 221009A and 250702B | 12 |
| Richard O’Neill | Host Galaxy Catalogue for Gravitational Wave Counterpart Searches | 13 |
| Barbara Patricelli | Searches for Gravitational Wave counterparts to electromagnetic transients and high-energy neutrinos in the Third and Fourth Observing runs of Advanced LIGO, Advanced Virgo and KAGRA | 14 |
| Koya Chiba | Non-LTE Ionization Modeling for Helium and Strontium in Neutron Star Merger Ejecta | 15 |
| Andreja Gomboc | Photometric characterisation of Tidal Disruption Events in the Rubin LSST Era | 16 |
| Venla Kangas | Examining infrared echoes of recent optical tidal disruption events with NOT and WISE | 17 |
| Tapio Pursimo | Pre- and post-peak spectroscopy of extragalactic transients | 19 |
| Réka Könyves-Tóth | Bolometric light-curve modeling indicates surprisingly high ejecta masses in SLSNe-I | 20 |
| Takashi Moriya | Metallicity dependence of hydrogen-free pair-instability supernova properties | 22 |
| Uliana Pylypenko | SN 2024adtg: One of the brightest hydrogen-rich superluminous supernovae | 23 |
| Etienne Russeil | Photometric classification of superluminous supernovae in big data surveys | 24 |
| Yang Hu | The Zwicky Transient Facility Sample of H-rich Superluminous Supernovae with Narrow Emission Lines: Uncovering Spectral Evolution Diversity | 25 |
| Christa DeCoursey | Volumetric Core-Collapse Supernova Rates with JWST out to z~4.8 | 26 |
| Claudia Gutiérrez | Hydrogen-rich supernovae as metallicity tracers: probing the low-metallicity regime | 27 |
| Thomas Moore | JWST Survey of Dusty Supernovae: Late-Time Dust Properties Decades Post Explosion | 28 |
| Thallis Pessi | Over a decade of ASAS-SN: volumetric rates and luminosity functions of core-collapse supernovae and their subtypes | 29 |
| Tamás Szalai | Revealing the dust-formation history of Type II(P) supernovae with JWST | 30 |
| Amar Aryan | Constraints on the Progenitor and Explosion of SN 2024ggi in Harmony with Pre-explosion Detection and Hydrodynamic Simulations | 31 |
| Raphael Baer-Way | A multiwavelength view across stripped-envelope supernovae subtypes | 32 |
| Géza Csörnyei | SNe II the rescue: an independent determination of the Hubble constant through astrophysical modeling of Type II supernovae | 33 |
| Emilio Hueichapan Diaz | Two Perspectives on Type II Supernova Evolution: A comparison between ASASSN-13dn and SN 2024ggi | 34 |
| Harim Jin | Type Ib Supernovae are bluer than Type Ic Supernovae | 35 |
| Giacomo Ricigliano | Probing Energetic Supernovae Through Nebular-Phase Modeling | 36 |
| Sara Romagnoli | SN 2024iss: a nearby Type IIb Supernova with high velocity H-alpha and shock break-out features. | 37 |
| Avinash Singh | Flash Echoes and New Dust in SN~2023ixf: An Optical-NIR Portrait of a hydrogen-rich supernova | 38 |
| Claudia Skoglund | Exploring Two Long-Lived Energetic Type II Supernovae Without Interaction Signatures | 39 |
| Timo Kravtsov | Unveiling oxygen-rich supernova remnants | 40 |
| Iikka Mäntynen | The undetectable fraction of core-collapse supernovae in luminous infrared galaxies | 41 |
| Elvira Cruz Cruz | Looking into the Progenitor of Supernova Remnant N157B with Chandra | 42 |
| Morgan Fraser | The population of supernova progenitors | 43 |
| Erez Zimmerman | A Faint Supernova and a Fainter Companion: Limits on the Progenitor and Explosion of SN 2024vjm | 44 |
| Suman Sahu | MUSE Investigation into the Birth and Death of Massive Stars in (Ultra-) Luminous Infrared Galaxies ((U)LIRGs) | 45 |
| Aswin Suresh | Exotic Stars and How to Find Them: Red Supergiants from JWST | 46 |
| Zoë McGrath | Late-time Photometry & Spectroscopy of LFBOT AT 2024wpp | 47 |
| Ashley Chrimes | Luminous Fast Blue Optical Transients as (very) massive star core-collapse events | 48 |
| Lauren Eastman | Analysis of New Pan-STARRS Data on the Mysterious Disappearance of a Star in M31 – a Failed Supernova? | 49 |
| Daniel Paradiso | Shock Formation and Evolution in Failed Supernovae | 50 |
| Ryotaro Chiba | Circumbinary Discs as the Origin of Circumstellar Material around H-poor Supernovae | 51 |
| Anjasha Gangopadhyay | Population Analysis of Type Ibn Supernovae in the Zwicky Transient Facility Era | 52 |
| Christina Humina | Late-time evolution of the interacting stripped-envelope supernova 2017dio | 53 |
| Thomas Killestein | Complex pre-explosion mass loss in red supergiants illuminated by the 98S-like SN 2024cld | 54 |
| Niko Pyykkinen | The multi-peaked light curve of the peculiar Type Ib SN 2021efd: probing mass-loss histories of stripped-envelope supernova progenitors | 55 |
| Irene Salmaso | SN 2009ip-like events through the lens of SN 2024hpj | 56 |
| Javier Silva Farfán | Exploring the Diversity of Interacting Supernovae | 57 |
| Erez Zimmerman | Dying stars shed light on late-stage mass-loss | 58 |
| Takashi Nagao | Giant Clumpy Outbursts in the Progenitor of Type II Supernova 2024qiw | 59 |
| Avshalom Badash | Revisiting the Extinction – Na I D Equivalent Width Relation: a Robust Lower Limit on Extinction | 60 |
| Dominik Bánhidi | Investigation of intermediate-luminosity type Iax supernovae | 61 |
| Barnabas Barna | Different, but still the same: on the common origin of the peculiar Type Iax SNe | 62 |
| Zsófia Bora | High Velocity Features in Type Ia Supernovae — A puzzle still waiting to be solved after 26 years | 63 |
| Subhash Bose | FLOWS: Mapping the Local Universe with >700 Near-Infrared Type Ia Supernovae | 64 |
| Hrishav Das | Insights into Type Iax Explosion Mechanisms from the detailed study of Bright Supernova SN 2022eyw | 65 |
| Akshay Eranhalodi | Characterisation of a population of fast declining SNe Ia in galaxy cluster cores | 66 |
| Madeleine Ginolin | Type Ia Supernovae for cosmology with the ZTF SN Ia DR2 sample | 67 |
| Matthew Grayling | Physics-based Standardisation of Type Ia Supernovae | 68 |
| Ágoston Horti-Dávid | Type Ia Supernovae in the Coma Cluster | 69 |
| Luca Izzo | Normal or transitional? The evolution and properties of two type Ia supernovae in the Virgo cluster | 70 |
| Saurabh Jha | Progenitors and Explosions of White Dwarf Supernovae Revealed by JWST | 71 |
| Young-Lo Kim | Testing the Effect of Progenitor’s Metallicity on 56Ni Mass and Constraining the Progenitor Scenarios in Type Ia Supernovae | 72 |
| Erika Mochnács | The statistical analysis of the new SN Iax database | 73 |
| Ridha Fatima Mohideen Malik | On the Optical Transient from Double White Dwarf Mergers II | 74 |
| Sigrid Nissen | Utilizing the u-band light curves of Type Ia supernovae observed by BlackGEM | 75 |
| Cillian O’Donnell | Helium Features as a Signature of Double Detonations in Type Ia Supernovae | 76 |
| Huei Sears | JWST Observations of the Calcium-strong SN 2024kce | 77 |
| Jacco Terwel | Comparing dust estimation techniques with SN 2024gy | 78 |
| Konstantinos Tsalapatas | A thermonuclear supernova interacting with hydrogen- and helium-deficient circumstellar material | 79 |
| Aadya Agrawal | Probing the Hubble Constant with JWST: Improved Time-Delay Measurements from the Multiply-Imaged Type Ia Supernova SN H0pe | 80 |
| Cristine Koelln | The stable ones: What nebular Ni lines teach us about SN Ia progenitors and explosions | 81 |
| Soham Mandal | Deciphering the explosion mechanism of thermonuclear supernovae from their remnants | 82 |
| Stefan Schuldt | A two orders of magnitude improvement in cluster lens models to enable precise time-delay cosmography with strongly lensed supernovae | 83 |
| David Buckley | High Cadence Observations of Transients with GOTTA: a Global Open Transient Telescope Array | 84 |
| Christa Gall | Transient science with the Danish 1.54m telescope in the era of LSST | 85 |
| Duncan Galloway | Transient discovery with the GOTO (Gravitational-wave Optical Transient Observer) Network | 86 |
| Ruslan Konno | The Large Array Survey Telescope (LAST) | 88 |
| Hanindyo Kuncarayakti | Time-domain and transient astrophysics with the Wide-field Spectroscopic Telescope (WST) | 89 |
| Ahmed Moursi | 1.88-m Kottamia Telescope in Time-Domain Astronomy: Opportunities and Challenges | 90 |
| Siddharth Nitin Chaini | Transient hunting in large-sky surveys: using neural processes to tackle sparse, multi-wavelength light curves | 91 |
| Lulu Fan | Data processing and machine learning for the Wide Field Survey Telescope | 92 |
| Gautham Narayan | SELDON: An AI Foundation Model for Supernovae | 93 |
| Jacco Terwel | Hunting for rare late-time re-brightening events with LSST | 94 |
| Stefano Ciprini | Some Visuals Ideas in High-Energy Gamma-ray Astrophysics Communication and Outreach | 96 |
Flash talk schedule
Session 1: Monday 12:30-12:45
| David Buckley | High Cadence Observations of Transients with GOTTA: a Global Open Transient Telescope Array | 84 |
| Duncan Galloway | Transient discovery with the GOTO (Gravitational-wave Optical Transient Observer) Network | 86 |
| Hanindyo Kuncarayakti | Time-domain and transient astrophysics with the Wide-field Spectroscopic Telescope (WST) | 89 |
| Siddharth Nitin Chaini | Transient hunting in large-sky surveys: using neural processes to tackle sparse, multi-wavelength light curves | 91 |
| Jacco Terwel | Hunting for rare late-time re-brightening events with LSST | 94 |
| Richard O’Neill | Host Galaxy Catalogue for Gravitational Wave Counterpart Searches | 13 |
| Koya Chiba | Non-LTE Ionization Modeling for Helium and Strontium in Neutron Star Merger Ejecta | 15 |
| Stefano Ciprini | Fermi-LAT Discovery of a Unexpected Gamma-ray Outburst from the Peculiar Compact Steep Spectrum Radiogalaxy 3C 216 | 1 |
| Stefano Ciprini | Erratic, transient, flaring variability versus QPO flux modulation in the gamma-ray blazar PG 1553+113 | 2 |
Session 2: Monday 15:15-15:30
| Peter Kretschmar | Not just normal or giant – a new look at Be X-ray binary outbursts | 4 |
| Shunke Ai | Magnetized Shocks Mediated by Radiation from Leptonic and Hadronic Processes | 5 |
| Srijan Srivastava | Improving Transient Identification With Swift-XRT | 6 |
| Pragyan Pratim Bordoloi | GRB 131014A : Identification and modeling of optically thin inverse Compton scattering in the prompt emission | 7 |
| Romain Maccary | A set of distinctive properties ruling the prompt emission of long 𝛾-ray bursts from compact object mergers | 9 |
| Huei Sears | HST + JWST Observations of the Extreme GRBs 221009A and 250702B | 12 |
| Stefano Ciprini | Some Visuals Ideas in High-Energy Gamma-ray Astrophysics Communication and Outreach | 96 |
| Iikka Mäntynen | The undetectable fraction of core-collapse supernovae in luminous infrared galaxies | 41 |
| Stefan Schuldt | A two orders of magnitude improvement in cluster lens models to enable precise time-delay cosmography with strongly lensed supernovae | 83 |
Session 3: Tuesday 12:30-12:45
| Lulu Fan | Data processing and machine learning for the Wide Field Survey Telescope | 92 | |
| Tamás Szalai | Revealing the dust-formation history of Type II(P) supernovae with JWST | 30 | |
| Amar Aryan | Constraints on the Progenitor and Explosion of SN 2024ggi in Harmony with Pre-explosion Detection and Hydrodynamic Simulations | 31 | |
| Raphael Baer-Way | A multiwavelength view across stripped-envelope supernovae subtypes | 32 | |
| Géza Csörnyei | SNe II the rescue: an independent determination of the Hubble constant through astrophysical modeling of Type II supernovae | 33 | |
| Emilio Hueichapan Diaz | Two Perspectives on Type II Supernova Evolution: A comparison between ASASSN-13dn and SN 2024ggi | 34 | |
| Giacomo Ricigliano | Probing Energetic Supernovae Through Nebular-Phase Modeling | 36 | |
| Avinash Singh | Flash Echoes and New Dust in SN~2023ixf: An Optical-NIR Portrait of a hydrogen-rich supernova | 38 | |
| Claudia Skoglund | Exploring Two Long-Lived Energetic Type II Supernovae Without Interaction Signatures | 39 |
Session 4: Tuesday 15:15-15:30
| Timo Kravtsov | Unveiling oxygen-rich supernova remnants | 40 |
| Soham Mandal | Deciphering the explosion mechanism of thermonuclear supernovae from their remnants | 82 |
| Aadya Agrawal | Probing the Hubble Constant with JWST: Improved Time-Delay Measurements from the Multiply-Imaged Type Ia Supernova SN H0pe | 80 |
| Avshalom Badash | Revisiting the Extinction – Na I D Equivalent Width Relation: a Robust Lower Limit on Extinction | 60 |
| Dominik Bánhidi | Investigation of intermediate-luminosity type Iax supernovae | 61 |
| Barnabas Barna | Different, but still the same: on the common origin of the peculiar Type Iax SNe | 62 |
| Akshay Eranhalodi | Characterisation of a population of fast declining SNe Ia in galaxy cluster cores | 66 |
| Matthew Grayling | Physics-based Standardisation of Type Ia Supernovae | 68 |
| Madeleine Ginolin | Type Ia Supernovae for cosmology with the ZTF SN Ia DR2 sample | 67 |
Session 5: Wednesday 12:15-12:45
| Zsófia Bora | High Velocity Features in Type Ia Supernovae — A puzzle still waiting to be solved after 26 years | 63 |
| Ágoston Horti-Dávid | Type Ia Supernovae in the Coma Cluster | 69 |
| Saurabh Jha | Progenitors and Explosions of White Dwarf Supernovae Revealed by JWST | 71 |
| Young-Lo Kim | Testing the Effect of Progenitor’s Metallicity on 56Ni Mass and Constraining the Progenitor Scenarios in Type Ia Supernovae | 72 |
| Erika Mochnács | The statistical analysis of the new SN Iax database | 73 |
| Sigrid Nissen | Utilizing the u-band light curves of Type Ia supernovae observed by BlackGEM | 75 |
| Cillian O’Donnell | Helium Features as a Signature of Double Detonations in Type Ia Supernovae | 76 |
| Huei Sears | JWST Observations of the Calcium-strong SN 2024kce | 77 |
| Jacco Terwel | Comparing dust estimation techniques with SN 2024gy | 78 |
| Cristine Koelln | The stable ones: What nebular Ni lines teach us about SN Ia progenitors and explosions | 81 |
| Erez Zimmerman | A Faint Supernova and a Fainter Companion: Limits on the Progenitor and Explosion of SN 2024vjm | 44 |
| Aswin Suresh | Exotic Stars and How to Find Them: Red Supergiants from JWST | 46 |
| Hrishav Das | Insights into Type Iax Explosion Mechanisms from the detailed study of Bright Supernova SN 2022eyw | 65 |
| Lauren Eastman | Analysis of New Pan-STARRS Data on the Mysterious Disappearance of a Star in M31 – a Failed Supernova? | 49 |
| Andreja Gomboc | Photometric characterisation of Tidal Disruption Events in the Rubin LSST Era | 16 |
| Venla Kangas | Examining infrared echoes of recent optical tidal disruption events with NOT and WISE | 17 |
| Tapio Pursimo | Pre- and post-peak spectroscopy of extragalactic transients | 19 |
| Réka Könyves-Tóth | Bolometric light-curve modeling indicates surprisingly high ejecta masses in SLSNe-I | 20 |
| Harim Jin | Type Ib Supernovae are bluer than Type Ic Supernovae | 35 |
Session 6: Thursday 12:30-12:45
| Suman Sahu | MUSE Investigation into the Birth and Death of Massive Stars in (Ultra-) Luminous Infrared Galaxies ((U)LIRGs) | 45 |
| Daniel Paradiso | Shock Formation and Evolution in Failed Supernovae | 50 |
| Ryotaro Chiba | Circumbinary Discs as the Origin of Circumstellar Material around H-poor Supernovae | 51 |
| Anjasha Gangopadhyay | Population Analysis of Type Ibn Supernovae in the Zwicky Transient Facility Era | 52 |
| Christina Humina | Late-time evolution of the interacting stripped-envelope supernova 2017dio | 53 |
| Thomas Killestein | Complex pre-explosion mass loss in red supergiants illuminated by the 98S-like SN 2024cld | 54 |
| Niko Pyykkinen | The multi-peaked light curve of the peculiar Type Ib SN 2021efd: probing mass-loss histories of stripped-envelope supernova progenitors | 55 |
| Irene Salmaso | SN 2009ip-like events through the lens of SN 2024hpj | 56 |
| Javier Silva Farfán | Exploring the Diversity of Interacting Supernovae | 57 |
| Takashi Nagao | Giant Clumpy Outbursts in the Progenitor of Type II Supernova 2024qiw | 59 |
| Takashi Moriya | Metallicity dependence of hydrogen-free pair-instability supernova properties | 22 |
| Uliana Pylypenko | SN 2024adtg: One of the brightest hydrogen-rich superluminous supernovae | 23 |
| Yang Hu | The Zwicky Transient Facility Sample of H-rich Superluminous Supernovae with Narrow Emission Lines: Uncovering Spectral Evolution Diversity | 25 |
| Zoë McGrath | Late-time Photometry & Spectroscopy of LFBOT AT 2024wpp | 47 |
| Ashley Chrimes | Luminous Fast Blue Optical Transients as (very) massive star core-collapse events | 48 |