PS1-10jh , the SIMBAD biblio

PS1-10jh , the SIMBAD biblio (107 results) C.D.S. - SIMBAD4 rel 1.7 - 2021.03.06CET16:48:31


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Title First 3 Authors
2021ApJ...906..101M 370       D     X C       7 14 ~ An energy inventory of tidal disruption events. MOCKLER B. and RAMIREZ-RUIZ E.
2021ApJ...907...77Z 570       D     X         12 20 ~ Measuring black hole masses from tidal disruption events and testing the MBH* relation. ZHOU Z.Q., LIU F.K., KOMOSSA S., et al.
2021ApJ...908....4V 20       D               1 35 ~ 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.
2020ApJ...889..166J 47           X         1 26 ~ Implications from late-time X-ray detections of optically selected tidal disruption events: state changes, unification, and detection rates. JONKER P.G., STONE N.C., GENEROZOV A., et al.
2020ApJ...894L..10H 112       D       C       2 36 ~ Examining a peak-luminosity/decline-rate relationship for tidal disruption events. HINKLE J.T., HOLOIEN T.W.-S., SHAPPEE B.J., et al.
2020ApJ...900....3P 47           X         1 2 ~ Tidal disruption flares from stars on marginally bound and unbound orbits. PARK G. and HAYASAKI K.
2020ApJ...904...73R 205       D     X C       4 24 ~ Measuring stellar and black hole masses of tidal disruption events. RYU T., KROLIK J. and PIRAN T.
2020ApJ...905...94V 65       D     X         2 15 ~ SuperRAENN: a semisupervised supernova Photometric classification pipeline trained on Pan-STARRS1 Medium-Deep Survey supernovae. VILLAR V.A., HOSSEINZADEH G., BERGER E., et al.
2020ApJ...905L...5U 19       D               1 22 ~ Application of the wind-driven model to a sample of tidal disruption events. UNO K. and MAEDA K.
2020MNRAS.491.1771W 47           X         1 6 ~ Polarimetry of relativistic tidal disruption event Swift J2058+0516. WIERSEMA K., HIGGINS A.B., LEVAN A.J., et al.
2020MNRAS.492..686L 233           X C F     3 10 ~ Self-intersection of the fallback stream in tidal disruption events. LU W. and BONNEROT C.
2020MNRAS.494.4914P 47           X         1 6 ~ Accretion disc winds in tidal disruption events: ultraviolet spectral lines as orientation indicators. PARKINSON E.J., KNIGGE C., LONG K.S., et al.
2019ApJ...872..151M 466       D     X C       10 17 ~ Weighing black holes using tidal disruption events. MOCKLER B., GUILLOCHON J. and RAMIREZ-RUIZ E.
2019ApJ...872..198V 134           X C       2 13 ~ The first tidal disruption flare in ZTF: from photometric selection to multi-wavelength characterization. VAN VELZEN S., GEZARI S., CENKO S.B., et al.
2019ApJ...873...92B 134           X         3 10 ~ The broad absorption line tidal disruption event iPTF15af: optical and ultraviolet evolution. BLAGORODNOVA N., CENKO S.B., KULKARNI S.R., et al.
2019ApJ...874...44Y 179           X C       3 17 ~ Rapid "turn-on" of type-1 AGN in a quiescent early-type galaxy SDSS1115+0544. YAN L., WANG T., JIANG N., et al.
2019ApJ...878...82V 600       D     X         14 19 ~ Late-time UV observations of tidal disruption flares reveal unobscured, compact accretion disks. VAN VELZEN S., STONE N.C., METZGER B.D., et al.
2019ApJ...879..119H 45           X         1 12 ~ Discovery of highly blueshifted broad Balmer and metastable helium absorption lines in a tidal disruption event. HUNG T., CENKO S.B., ROTH N., et al.
2019ApJ...880..120H 45           X         1 14 ~ PS18kh: a new tidal disruption event with a non-axisymmetric accretion disk. HOLOIEN T.W.-S., HUBER M.E., SHAPPEE B.J., et al.
2019ApJ...883...94T 134           X C       2 4 ~ 1ES 1927+654: an AGN caught changing look on a timescale of months. TRAKHTENBROT B., ARCAVI I., MacLEOD C.L., et al.
2019ApJ...886L..22W 45           X         1 3 ~ A bright electromagnetic counterpart to extreme mass ratio inspirals. WANG Y.Y., WANG F.Y., ZOU Y.C., et al.
2019ApJ...887..218L 45           X         1 7 ~ The spectral evolution of AT 2018dyb and the presence of metal lines in tidal disruption events. LELOUDAS G., DAI L., ARCAVI I., et al.
2019MNRAS.484..520A 90           X         2 3 ~ Supermassive black holes coalescence mediated by massive perturbers: implications for gravitational waves emission and nuclear cluster formation. ARCA SEDDA M., BERCZIK P., CAPUZZO-DOLCETTA R., et al.
2019MNRAS.487.2505K 224           X         5 15 ~ Swift spectra of AT2018cow: a white dwarf tidal disruption event? KUIN N.P.M., WU K., OATES S., et al.
2019MNRAS.487.4136W 287       D     X         7 39 ~ Black hole masses of tidal disruption event host galaxies II. WEVERS T., STONE N.C., VAN VELZEN S., et al.
2019MNRAS.488.1878N 269           X C       5 40 ~ The tidal disruption event AT2017eqx: spectroscopic evolution from hydrogen rich to poor suggests an atmosphere and outflow. NICHOLL M., BLANCHARD P.K., BERGER E., et al.
2019MNRAS.489.1463O 45           X         1 21 ~ Optical follow-up of the tidal disruption event iPTF16fnl: new insights from X-shooter observations. ONORI F., CANNIZZARO G., JONKER P.G., et al.
2019NatAs...3..242T 152       D     X C       3 14 ~ A new class of flares from accreting supermassive black holes. TRAKHTENBROT B., ARCAVI I., RICCI C., et al.
2018ApJ...852...72V viz 105       D     X         3 18 19 On the mass and luminosity functions of tidal disruption flares: rate suppression due to black hole event horizons. VAN VELZEN S.
2018ApJ...853...39G 148       D     X         4 41 9 A dependence of the tidal disruption event rate on global stellar surface mass density and stellar velocity dispersion. GRAUR O., FRENCH K.D., ZAHID H.J., et al.
2018ApJ...853..141M 45           X         1 4 7 Dynamical properties of eccentric nuclear disks: stability, longevity, and implications for tidal disruption rates in post-merger galaxies. MADIGAN A.-M., HALLE A., MOODY M., et al.
2018ApJ...855...54R 87           X         2 9 6 What sets the line profiles in tidal disruption events? ROTH N. and KASEN D.
2018ApJ...855..129H 87           X         2 2 1 Classification of tidal disruption events based on stellar orbital properties. HAYASAKI K., ZHONG S., LI S., et al.
2018ApJ...857..109G 44           X         1 10 1 Tidal disruptions of main-sequence stars of varying mass and age: inferences from the composition of the fallback material. GALLEGOS-GARCIA M., LAW-SMITH J. and RAMIREZ-RUIZ E.
2018ApJ...865..128L 131           X C       2 19 1 On the missing energy puzzle of tidal disruption events. LU W. and KUMAR P.
2018ApJ...866...26A 87           X         2 11 ~ A luminous transient event in a sample of WISE-selected variable AGNs. ASSEF R.J., PRIETO J.L., STERN D., et al.
2018ApJS..238...15H 366       D     X C       8 33 6 Sifting for sapphires: systematic selection of tidal disruption events in iPTF. HUNG T., GEZARI S., CENKO S.B., et al.
2018MNRAS.473.1130B 89           X         2 8 16 The ultraviolet spectroscopic evolution of the low-luminosity tidal disruption event iPTF16fnl. BROWN J.S., KOCHANEK C.S., HOLOIEN T.W.-S., et al.
2018MNRAS.474.3307S 757       D     X C       17 17 7 Spectral features of tidal disruption candidates and alternative origins for such transient flares. SAXTON C.J., PERETS H.B. and BASKIN A.
2018MNRAS.476.5312V 44           X         1 5 1 Tidal disruption of stars in a supermassive black hole binary system: the influence of orbital properties on fallback and accretion rates. VIGNERON Q., LODATO G. and GUIDARELLI A.
2018MNRAS.477.2943W 44           X         1 23 2 Long-term decline of the mid-infrared emission of normal galaxies: dust echo of tidal disruption flare? WANG T., YAN L., DOU L., et al.
2018MNRAS.480.5060S 87             C       1 14 ~ The delay time distribution of tidal disruption flares. STONE N.C., GENEROZOV A., VASILIEV E., et al.
2018MNRAS.480.5689H 44           X         1 9 ~ The unusual late-time evolution of the tidal disruption event ASASSN-15oi. HOLOIEN T.W.-S., BROWN J.S., AUCHETTL K., et al.
2017ApJ...835..176F 103       D     X         3 9 15 The post-starburst evolution of tidal disruption event host galaxies. FRENCH K.D., ARCAVI I. and ZABLUDOFF A.
2017ApJ...838..149A 1635       D     X         39 99 40 New physical insights about tidal disruption events from a comprehensive observational inventory At X-ray wavelengths. AUCHETTL K., GUILLOCHON J. and RAMIREZ-RUIZ E.
2017ApJ...841..132L 129           X         3 9 10 Low-mass white dwarfs with hydrogen envelopes As a missing link in the tidal disruption menu. LAW-SMITH J., MacLEOD M., GUILLOCHON J., et al.
2017ApJ...842...29H 555           X C       12 12 33 Revisiting optical tidal disruption events with iPTF16axa. HUNG T., GEZARI S., BLAGORODNOVA N., et al.
2017ApJ...843..106B 170           X C       3 25 24 PS16dtm: a tidal disruption event in a narrow-line Seyfert 1 galaxy. BLANCHARD P.K., NICHOLL M., BERGER E., et al.
2017ApJ...844...46B viz 87           X         2 12 30 IPTF16fnl: a faint and fast tidal disruption event in an E+A galaxy. BLAGORODNOVA N., GEZARI S., HUNG T., et al.
2017ApJ...844...75M 85             C       1 15 8 Periodic accretion-powered flares from colliding EMRIs as TDE imposters. METZGER B.D. and STONE N.C.
2017ApJ...850...22L 17       D               1 23 11 Tidal disruption event host galaxies in the context of the local galaxy population. LAW-SMITH J., RAMIREZ-RUIZ E., ELLISON S.L., et al.
2017ApJ...850...63J 128           X C       2 7 2 Mid-infrared flare of TDE candidate PS16dtm: dust echo and implications for the spectral evolution. JIANG N., WANG T., YAN L., et al.
2017ApJ...851L..47G 85           X         2 9 8 X-ray brightening and UV fading of tidal disruption event ASASSN-15oi. GEZARI S., CENKO S.B. and ARCAVI I.
2017MNRAS.464.2481G 17       D               1 22 15 The influence of circumnuclear environment on the radio emission from TDE jets. GENEROZOV A., MIMICA P., METZGER B.D., et al.
2017MNRAS.465L.114W viz 85             C       2 13 11 OGLE16aaa - a signature of a hungry supermassive black hole. WYRZYKOWSKI L., ZIELINSKI M., KOSTRZEWA-RUTKOWSKA Z., et al.
2017MNRAS.471.1141L 17       D               1 8 1 Radiative interaction between the relativistic jet and optically thick envelope in tidal disruption events. LU W., KROLIK J., CRUMLEY P., et al.
2017MNRAS.471.1694W 103       D       C       4 16 20 Black hole masses of tidal disruption event host galaxies. WEVERS T., VAN VELZEN S., JONKER P.G., et al.
2016ApJ...818L..21F 229       D     X         6 15 53 Tidal disruption events prefer unusual host galaxies. FRENCH K.D., ARCAVI I. and ZABLUDOFF A.
2016ApJ...818L..32C 48           X         1 4 25 An ultraviolet spectrum of the tidal disruption flare ASASSN-14li. CENKO S.B., CUCCHIARA A., ROTH N., et al.
2016ApJ...819...51L 85             C       1 18 20 Late time multi-wavelength observations of Swift J1644+5734: a luminous Optical/IR bump and quiescent X-ray emission. LEVAN A.J., TANVIR N.R., BROWN G.C., et al.
2016ApJ...819..151P 251           X C       5 9 7 Revealing the nature of extreme coronal-line emitter SDSS J095209.56+214313.3. PALAVERSA L., GEZARI S., SESAR B., et al.
2016ApJ...827....3R 383           X         9 7 49 The X-ray through optical fluxes and line strengths of tidal disruption events. ROTH N., KASEN D., GUILLOCHON J., et al.
2016ApJ...829...19V 168           X C       3 12 16 Discovery of transient infrared emission from dust heated by stellar tidal disruption flares. VAN VELZEN S., MENDEZ A.J., KROLIK J.H., et al.
2016ApJ...830..125J 133     A     X         3 1 24 Prompt radiation and mass outflows from the stream-stream collisions of tidal disruption events. JIANG Y.-F., GUILLOCHON J. and LOEB A.
2016ApJ...832..188D 42           X         1 9 8 Long fading mid-infrared emission in transient coronal line emitters: dust echo of a tidal disruption flare. DOU L., WANG T.-G., JIANG N., et al.
2016MNRAS.455..603B 126           X         3 3 4 Gaia transient detection efficiency: hunting for nuclear transients. BLAGORODNOVA N., VAN VELZEN S., HARRISON D.L., et al.
2016MNRAS.455..859S 334           X C F     6 165 110 Rates of stellar tidal disruption as probes of the supermassive black hole mass function. STONE N.C. and METZGER B.D.
2016MNRAS.455.1946F 48           X         1 3 20 Lense-Thirring precession around supermassive black holes during tidal disruption events. FRANCHINI A., LODATO G. and FACCHINI S.
2016MNRAS.455.2918H viz 90           X         2 17 111 Six months of multiwavelength follow-up of the tidal disruption candidate ASASSN-14li and implied TDE rates from ASAS-SN. HOLOIEN T.W.-S., KOCHANEK C.S., PRIETO J.L., et al.
2016MNRAS.458..127K 43           X         1 11 19 Abundance anomalies in tidal disruption events. KOCHANEK C.S.
2016MNRAS.460..396C 42           X         1 3 2 Swift J1644+57: an ideal test bed of radiation mechanisms in a relativistic super-Eddington jet. CRUMLEY P., LU W., SANTANA R., et al.
2016MNRAS.461..371K 88             C       1 9 41 Tidal disruption event demographics. KOCHANEK C.S.
2016MNRAS.461..948M 90           X         2 10 62 A bright year for tidal disruptions. METZGER B.D. and STONE N.C.
2016MNRAS.462.3993B 44           X         1 9 19 Hello darkness my old friend: the fading of the nearby TDE ASASSN-14ae. BROWN J.S., SHAPPEE B.J., HOLOIEN T.W.-S., et al.
2016MNRAS.463..296L viz 502           X C F     10 105 14 Slow-blue nuclear hypervariables in PanSTARRS-1. LAWRENCE A., BRUCE A.G., MacLEOD C., et al.
2016MNRAS.463.3813H viz 131           X         3 8 55 ASASSN-15oi: a rapidly evolving, luminous tidal disruption event at 216 Mpc. HOLOIEN T.W.-S., KOCHANEK C.S., PRIETO J.L., et al.
2016Sci...351...62V 127           X         3 24 59 A radio jet from the optical and X-ray bright stellar tidal disruption flare ASASSN-14li. VAN VELZEN S., ANDERSON G.E., STONE N.C., et al.
2016Sci...351..257D 92           X         2 12 102 ASASSN-15lh: A highly super-luminous supernova. DONG S., SHAPPEE B.J., PRIETO J.L., et al.
2015ATel.7936....1P 41           X         1 5 2 PESSTO spectroscopic classification of optical transients. PRENTICE S., ASHALL C., INSERRA C., et al.
2015ApJ...798...12V 372           X C       8 19 48 A luminous, fast rising UV-transient discovered by ROTSE: a tidal disruption event? VINKO J., YUAN F., QUIMBY R.M., et al.
2015ApJ...805...68P 85           X         2 9 28 A multiwavelength study of the relativistic tidal disruption candidate Swift J2058.4+0516 at late times. PASHAM D.R., CENKO S.B., LEVAN A.J., et al.
2015ApJ...805...83M 479       D     X C       11 3 32 Disk winds as an explanation for slowly evolving temperatures in tidal disruption events. MILLER M.C.
2015ApJ...806..164P 149       D     X C       3 7 67 'Disk formation versus disk accretion–What powers tidal disruption events? PIRAN T., SVIRSKI G., KROLIK J., et al.
2015ApJ...815L...5G 900 T   A     X C       20 2 23
PS1-10jh continues to follow the fallback accretion rate of a tidally disrupted star.
GEZARI S., CHORNOCK R., LAWRENCE A., et al.
2015MNRAS.450.2824M 17       D               1 17 29 The radio afterglow of Swift J1644+57 reveals a powerful jet with fast core and slow sheath. MIMICA P., GIANNIOS D., METZGER B.D., et al.
2015MNRAS.452.4297B 45           X         1 11 53 Swift J1112.2-8238: a candidate relativistic tidal disruption flare. BROWN G.C., LEVAN A.J., STANWAY E.R., et al.
2015MNRAS.453.3213S 51           X         1 5 54 Powerful radiative jets in supercritical accretion discs around non-spinning black holes. SADOWSKI A. and NARAYAN R.
2015MNRAS.454.2321S 6284 T   A S   X C       150 6 22 Insights into tidal disruption of stars from
PS1-10jh.
STRUBBE L.E. and MURRAY N.
2015MNRAS.454.2798S 42           X         1 7 12 Was the soft X-ray flare in NGC 3599 due to an AGN disc instability or a delayed tidal disruption event? SAXTON R.D., MOTTA S.E., KOMOSSA S., et al.
2015Natur.526..542M 50           X         1 6 57 Flows of X-ray gas reveal the disruption of a star by a massive black hole. MILLER J.M., KAASTRA J.S., MILLER M.C., et al.
2015RAA....15.1945S 41           X         1 108 31 Thirty Meter Telescope Detailed Science Case: 2015. SKIDMORE W.
2014AJ....147...79S 129           X         3 4 29 Science with a wide-field UV transient explorer. SAGIV I., GAL-YAM A., OFEK E.O., et al.
2014ApJ...780...44C 1265           X C       30 17 103 The ultraviolet-bright, slowly declining transient PS1-11af as a partial tidal disruption event. CHORNOCK R., BERGER E., GEZARI S., et al.
2014ApJ...783...23G 1893 T   A S   X C       43 3 124
PS1-10jh: the disruption of a main-sequence star of near-solar composition.
GUILLOCHON J., MANUKIAN H. and RAMIREZ-RUIZ E.
2014ApJ...788...99B 1655 T   A S   X C       38 4 25 Disruption of a red giant star by a supermassive black hole and the case of
PS1-10jh.
BOGDANOVIC T., CHENG R.M. and AMARO-SEOANE P.
2014ApJ...792...53V 1652       D     X C       40 6 70 Measurement of the rate of stellar tidal disruption flares. VAN VELZEN S. and FARRAR G.R.
2014ApJ...793...38A viz 1838     A D     X C       45 15 162 A continuum of H- to He-rich tidal disruption candidates with a preference for E+A galaxies. ARCAVI I., GAL-YAM A., SULLIVAN M., et al.
2014MNRAS.438L..36G 1084     A S   X C F     24 5 24 The production of strong, broad HeII emission after the tidal disruption of a main-sequence star by a supermassive black hole. GASKELL C.M. and ROJAS LOBOS P.A.
2014MNRAS.445.3263H 85           X         2 26 111 ASASSN-14ae: a tidal disruption event at 200 Mpc. HOLOIEN T.W.-S., PRIETO J.L., BERSIER D., et al.
2013A&A...552A...5V 2 20 42 Constraints on off-axis jets from stellar tidal disruption flares. VAN VELZEN S., FRAIL D.A., KOERDING E., et al.
2013ApJ...767...25G 261           X         2 1 181 Hydrodynamical simulations to determine the feeding rate of black holes by the tidal disruption of stars: the importance of the impact parameter and stellar structure. GUILLOCHON J. and RAMIREZ-RUIZ E.
2013ApJ...774...46Y 41           X         1 11 21 Long-term spectral evolution of tidal disruption candidates selected by strong coronal lines. YANG C.-W., WANG T.-G., FERLAND G., et al.
2013MNRAS.430L..45M 105 T   A               2 3 3
PS1-10jh - a tidal disruption event with an extremely low disc temperature.
MONTESINOS ARMIJO M. and DE FREITAS PACHECO J.A.
2013MNRAS.435.1904M 121           X         3 30 31 A tidal flare candidate in Abell 1795. MAKSYM W.P., ULMER M.P., ERACLEOUS M.C., et al.
2012ApJ...757..134M 156           X C       2 1 74 The tidal disruption of giant stars and their contribution to the flaring supermassive black hole population. MacLEOD M., GUILLOCHON J. and RAMIREZ-RUIZ E.
2012ApJ...760L..11U 79             C       2 16 2 Unusual long and luminous optical transient in the Subaru deep field. URATA Y., TSAI P.P., HUANG K., et al.
2012Natur.485..217G 112 1 224 An ultraviolet-optical flare from the tidal disruption of a helium-rich stellar core. GEZARI S., CHORNOCK R., REST A., et al.

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2021.03.06-16:48:32

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