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| AT 2018iih , the SIMBAD biblio (18 results) | C.D.S. - SIMBAD4 rel 1.8 - 2024.04.23CEST19:07:11 |
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| Bibcode/DOI | Score |
in Title|Abstract| Keywords |
in a table | in teXt, Caption, ... | Nb occurence | Nb objects in ref |
Citations (from ADS) |
Title | First 3 Authors |
|---|---|---|---|---|---|---|---|---|---|
| 2020ApJ...904...73R | 316 | D | X | 8 | 24 | 40 | Measuring stellar and black hole masses of tidal disruption events. | RYU T., KROLIK J. and PIRAN T. | |
| 2021ApJ...908L..20H | 105 | D | X | 3 | 20 | 28 | Tidal disruption event hosts are green and centrally concentrated: signatures of a post-merger system. | HAMMERSTEIN E., GEZARI S., VAN VELZEN S., et al. | |
| 2021ApJ...908....4V | 22 | D | 7 | 35 | 195 | Seventeen tidal disruption events from the first half of ZTF survey observations: entering a new era of population studies. | VAN VELZEN S., GEZARI S., HAMMERSTEIN E., et al. | ||
| 2021MNRAS.502.3385M | 87 | C | 1 | 44 | ~ | Limits on mass outflow from optical tidal disruption events. | MATSUMOTO T. and PIRAN T. | ||
2021ApJ...910...83H 
|
17 | D | 4 | 38 | 17 | A Swift fix for nuclear outbursts. | HINKLE J.T., HOLOIEN T.W.-S., SHAPPEE B.J., et al. | ||
| 2021ApJ...911...31J | 18 | D | 4 | 26 | 32 | Infrared echoes of optical tidal disruption events: ∼1% dust-covering factor or less at subparsec scale. | JIANG N., WANG T., HU X., et al. | ||
| 2021ApJ...920...56F | 45 | X | 1 | 30 | 39 | A family tree of optical transients from narrow-line Seyfert 1 galaxies. | FREDERICK S., GEZARI S., GRAHAM M.J., et al. | ||
| 2022MNRAS.510.5426P | 180 | C F | 2 | 7 | 9 | Optical line spectra of tidal disruption events from reprocessing in optically thick outflows. | PARKINSON E.J., KNIGGE C., MATTHEWS J.H., et al. | ||
| 2022MNRAS.513.2422L | 134 | X F | 2 | 32 | 9 | The prospects of finding tidal disruption events with 2.5-m Wide-Field Survey Telescope based on mock observations. | LIN Z., JIANG N. and KONG X. | ||
| 2022MNRAS.515.1146R | 108 | D | F | 3 | 33 | 10 | The bulge masses of TDE host galaxies and their scaling with black hole mass. | RAMSDEN P., LANNING D., NICHOLL M., et al. | |
| 2022MNRAS.515.5604N | 108 | D | F | 3 | 38 | 23 | Systematic light-curve modelling of TDEs: statistical differences between the spectroscopic classes. | NICHOLL M., LANNING D., RAMSDEN P., et al. | |
| 2022ApJ...939L..33L | 18 | D | 5 | 35 | 7 | The Luminosity Function of Tidal Disruption Flares for the ZTF-I Survey. | LIN Z., JIANG N., KONG X., et al. | ||
| 2023ApJ...942....9H | 533 | D | S X | 11 | 31 | 46 | The Final Season Reimagined: 30 Tidal Disruption Events from the ZTF-I Survey. | HAMMERSTEIN E., VAN VELZEN S., GEZARI S., et al. | |
| 2023ApJ...949..113G | 65 | D | X | 2 | 87 | 2 | Identifying Tidal Disruption Events with an Expansion of the FLEET Machine-learning Algorithm. | GOMEZ S., VILLAR V.A., BERGER E., et al. | |
| 2022RNAAS...6..195K | 134 | S X | 2 | 4 | ~ | LOFAR Search for Radio Emission from Galaxies Hosting Tidal Disruption Events. | KAUSHIK K., OMAR A., KUMAR B., et al. | ||
| 2023ApJ...955L...6Y | 299 | D | X | 7 | 50 | ~ | Tidal Disruption Event Demographics with the Zwicky Transient Facility: Volumetric Rates, Luminosity Function, and Implications for the Local Black Hole Mass Function. | YAO Y., RAVI V., GEZARI S., et al. | |
| 2024ApJ...961L..19S | 320 | D | X | 7 | 17 | ~ | Tidal Disruption Events through the Lens of the Cooling Envelope Model. | SARIN N. and METZGER B.D. | |
| 2024ApJ...961..239N | 50 | X | 1 | 21 | ~ | Probing the Subparsec Dust of a Supermassive Black Hole with the Tidal Disruption Event AT 2020mot. | NEWSOME M., ARCAVI I., HOWELL D.A., et al. |
