LEDA 43234 , the SIMBAD biblio

LEDA 43234 , the SIMBAD biblio (161 results) C.D.S. - SIMBAD4 rel 1.7 - 2021.04.18CEST15:47:56


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Title First 3 Authors
2021ApJ...906...92S 20       D               1 21 ~ Confrontation of observation and theory: high-frequency QPOs in X-ray binaries, tidal disruption events, and active galactic nuclei. SMITH K.L., TANDON C.R. and WAGONER R.V.
2021ApJ...906..101M 420       D     X C       8 14 ~ An energy inventory of tidal disruption events. MOCKLER B. and RAMIREZ-RUIZ E.
2021ApJ...907...77Z 520       D     X         11 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 170       D     X         4 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.
2021ApJ...908..125C 200           X C       3 9 ~ Radio monitoring of the tidal disruption event Swift J164449.3+573451 IV. Continued fading and non-relativistic expansion. CENDES Y., EFTEKHARI T., BERGER E., et al.
2021ApJ...908..179L 150           X         3 9 ~ Elliptical accretion disk as a model for tidal disruption events. LIU F.K., CAO C.Y., ABRAMOWICZ M.A., et al.
2021ApJ...908L..20H 100           X         2 20 ~ 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...909...64R 50           X         1 3 ~ Detection of tidal disruption events around direct-collapse black holes at high redshifts with the James Webb Space Telescope. REGOS E., VINKO J. and STERMECZKY Z.V.
2021ApJ...909..102B 100           X         2 16 ~ A luminous X-ray transient in SDSS J143359.16+400636.0 a likely tidal disruption event. BRIGHTMAN M., WARD C., STERN D., et al.
2021MNRAS.500.1673H 1050           X C       20 18 ~ Discovery and follow-up of ASASSN-19dj: an X-ray and UV luminous TDE in an extreme post-starburst galaxy. HINKLE J.T., HOLOIEN T.W.-S., AUCHETTL K., et al.
2021MNRAS.500L..57Z 50           X         1 5 ~ Further evidence to support a tidal disruption event in the changing-look AGN SDSS J0159. ZHANG X.-G.
2021MNRAS.501..916J 50           X         1 10 ~ The awakening beast in the Seyfert 1 Galaxy KUG 1141+371 - I. JIANG J., CHENG H., GALLO L.C., et al.
2020A&A...639A.100K 140           X         3 14 ~ Rapid late-time X-ray brightening of the tidal disruption event OGLE16aaa. KAJAVA J.J.E., GIUSTINI M., SAXTON R.D., et al.
2020A&A...642A.111C 47           X         1 5 ~ A study on tidal disruption event dynamics around an Sgr A*-like massive black hole. CLERICI A. and GOMBOC A.
2020A&A...644L...9S 233           X C       4 10 ~ Possible ∼0.4 h X-ray quasi-periodicity from an ultrasoft active galactic nucleus. SONG J.R., SHU X.W., SUN L.M., et al.
2020AJ....159..167L viz 205       D     X         5 103 ~ The AMUSING++ nearby galaxy compilation. I. Full sample characterization and galactic-scale outflow selection. LOPEZ-COBA C., SANCHEZ S.F., ANDERSON J.P., 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...890...73B 47           X         1 6 ~ The prospects of observing tidal disruption events with the Large Synoptic Survey Telescope. BRICMAN K. and GOMBOC A.
2020ApJ...891...93F 1633     A D     X C       35 9 ~ The structure of tidal disruption event host galaxies on scales of tens to thousands of parsecs. FRENCH K.D., ARCAVI I., ZABLUDOFF A.I., et al.
2020ApJ...891..121L 47           X         1 12 ~ Multiwavelength study of an X-ray tidal disruption event candidate in NGC 5092. LI D., SAXTON R.D., YUAN W., et al.
2020ApJ...892L...1L 47           X         1 11 ~ Optical polarimetry of the tidal disruption event AT2019DSG. LEE C.-H., HUNG T., MATHESON T., et al.
2020ApJ...894...93L 47           X         1 12 ~ A tidal disruption event candidate discovered in the active galactic nucleus SDSS J022700.77-042020.6. LIU Z., LI D., LIU H.-Y., et al.
2020ApJ...894L..10H 19       D               1 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...896L..27D 93           X         2 24 ~ Compact radio emission from nearby galaxies with mid-infrared nuclear outbursts. DAI B.B., SHU X.W., JIANG N., et al.
2020ApJ...897...80W 2333     A D S   X C       49 3 ~ Continuum-fitting the X-ray spectra of tidal disruption events. WEN S., JONKER P.G., STONE N.C., et al.
2020ApJ...898..161H 233           X C       4 11 ~ The rise and fall of ASASSN-18pg: following a TDE from early to late times. HOLOIEN T.W.-S., AUCHETTL K., TUCKER M.A., et al.
2020ApJ...903...31H 140           X C       2 9 ~ Double-peaked Balmer emission indicating prompt accretion disk formation in an X-ray faint tidal disruption event. HUNG T., FOLEY R.J., RAMIREZ-RUIZ E., et al.
2020ApJ...903..116A 588     A     X C       12 21 ~ Caltech-NRAO Stripe 82 Survey (CNSS). III. The first radio-discovered tidal disruption event, CNSS J0019+00. ANDERSON M.M., MOOLEY K.P., HALLINAN G., et al.
2020ApJ...904...73R 280           X         6 24 ~ Measuring stellar and black hole masses of tidal disruption events. RYU T., KROLIK J. and PIRAN T.
2020ApJ...904...98R 140           X         3 2 ~ Tidal disruptions of main-sequence stars. I. Observable quantities and their dependence on stellar and black hole mass. RYU T., KROLIK J., PIRAN T., et al.
2020ApJ...905L...5U 159       D     X C       3 22 ~ Application of the wind-driven model to a sample of tidal disruption events. UNO K. and MAEDA K.
2020MNRAS.492..686L 495     A     X C F     9 10 ~ Self-intersection of the fallback stream in tidal disruption events. LU W. and BONNEROT C.
2020MNRAS.492.5655M 3060     A S   X C F     63 2 ~ The spectral evolution of disc dominated tidal disruption events. MUMMERY A. and BALBUS S.A.
2020MNRAS.493..477C 47           X         1 9 ~ Extreme variability in an active galactic nucleus: Gaia16aax. CANNIZZARO G., FRASER M., JONKER P.G., et al.
2020MNRAS.494.2538N 980           X C F     19 23 ~ To TDE or not to TDE: the luminous transient ASASSN-18jd with TDE-like and AGN-like qualities. NEUSTADT J.M.M., HOLOIEN T.W.-S., KOCHANEK C.S., et al.
2020MNRAS.494.4914P 513           X C F     9 6 ~ Accretion disc winds in tidal disruption events: ultraviolet spectral lines as orientation indicators. PARKINSON E.J., KNIGGE C., LONG K.S., et al.
2020MNRAS.495.3538J 47           X         1 11 ~ Reobserving the NLS1 galaxy RE J1034+396 - I. The long-term, recurrent X-ray QPO with a high significance. JIN C., DONE C. and WARD M.
2020MNRAS.496.1784M 47           X         1 5 ~ Relativistic accretion disc in tidal disruption events. MAGESHWARAN T. and BHATTACHARYYA S.
2020MNRAS.497.1925G 373           X         8 12 ~ The Tidal Disruption Event AT 2018hyz II: Light-curve modelling of a partially disrupted star. GOMEZ S., NICHOLL M., SHORT P., et al.
2020MNRAS.497L...1W 93           X         2 10 ~ Fainter harder brighter softer: a correlation between αox, X-ray spectral state, and Eddington ratio in tidal disruption events. WEVERS T.
2020MNRAS.498.2167K 653           X C       13 22 ~ AT 2017gbl: a dust obscured TDE candidate in a luminous infrared galaxy. KOOL E.C., REYNOLDS T.M., MATTILA S., et al.
2020MNRAS.499..482N 280           X C F     4 14 ~ An outflow powers the optical rise of the nearby, fast-evolving tidal disruption event AT2019qiz. NICHOLL M., WEVERS T., OATES S.R., et al.
2020MNRAS.499.5562Z 233           X C F     3 13 ~ Eccentric tidal disruption event discs around supermassive black holes: dynamics and thermal emission. ZANAZZI J.J. and OGILVIE G.I.
2019A&A...622L...2G 90             C       2 7 ~ Discovery and follow-up of the unusual nuclear transient OGLE17aaj. GROMADZKI M., HAMANOWICZ A., WYRZYKOWSKI L., et al.
2019A&A...630A..98S 269           X C       5 24 ~ XMMSL2 J144605.0+685735: a slow tidal disruption event. SAXTON R.D., READ A.M., KOMOSSA S., et al.
2019ATel12870....1P 45           X         1 4 ~ Radio detection of the tidal disruption event AT2019azh. PEREZ-TORRES M., MOLDON J., MATTILA S., et al.
2019ATel12960....1P 45           X         1 6 ~ Unambiguous radio detection of the tidal disruption event AT2019dsg with e-MERLIN. PEREZ-TORRES M., MOLDON J., MATTILA S., et al.
2019ATel13163....1M 134           X         3 2 ~ Early Chandra X-ray Spectroscopy of the Nuclear Transient AT2019pev. MILLER J.M., ZOGHBI A., REYNOLDS M., et al.
2019ApJ...872..151M 555       D     X C       12 17 ~ Weighing black holes using tidal disruption events. MOCKLER B., GUILLOCHON J. and RAMIREZ-RUIZ E.
2019ApJ...872..198V 269           X C       5 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 314           X C       6 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 224           X C       4 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 645       D     X         15 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 493           X C       10 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 627           X C       13 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...882L..25L 45           X         1 4 ~ The tidal disruption of Sun-like stars by massive black holes. LAW-SMITH J., GUILLOCHON J. and RAMIREZ-RUIZ E.
2019ApJ...883...31F 134           X         3 38 ~ A new class of changing-look LINERs. FREDERICK S., GEZARI S., GRAHAM M.J., et al.
2019ApJ...883..111H 448           X C       9 15 ~ Discovery and early evolution of ASASSN-19bt, the first TDE detected by TESS. HOLOIEN T.W.-S., VALLELY P.J., AUCHETTL K., et al.
2019ApJ...887..218L 1057     A     X C       23 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.
2019ApJS..241...17C 179           X C       3 11 ~ First release of high-redshift superluminous supernovae from the Subaru HIgh-Z SUpernova CAmpaign (SHIZUCA). II. Spectroscopic properties. CURTIN C., COOKE J., MORIYA T.J., et al.
2019MNRAS.482.2872Y 116     A     X         3 3 ~ Shock breakouts from tidal disruption events. YALINEWICH A., GUILLOCHON J., SARI R., et al.
2019MNRAS.483..565C 45           X         1 9 ~ GRRMHD simulations of tidal disruption event accretion discs around supermassive black holes: jet formation, spectra, and detectability. CURD B. and NARAYAN R.
2019MNRAS.483.3566V 45           X         1 27 ~ Discovery of a transient ultraluminous X-ray source in the elliptical galaxy M86. VAN HAAFTEN L.M., MACCARONE T.J., RHODE K.L., et al.
2019MNRAS.486.3388D 90           X         2 8 ~ Evidence for a TDE origin of the radio transient Cygnus A-2. DE VRIES M.N., WISE M.W., NULSEN P.E.J., et al.
2019MNRAS.487.2505K 45           X         1 15 ~ Swift spectra of AT2018cow: a white dwarf tidal disruption event? KUIN N.P.M., WU K., OATES S., et al.
2019MNRAS.487.4057K 358           X C F     6 15 ~ PS1-13cbe: the rapid transition of a Seyfert 2 to a Seyfert 1. KATEBI R., CHORNOCK R., BERGER E., et al.
2019MNRAS.487.4083Y 923     A S   X C F     18 4 ~ Radio emission from the unbound debris of tidal disruption events. YALINEWICH A., STEINBERG E., PIRAN T., et al.
2019MNRAS.487.4136W 421       D     X   F     9 39 ~ Black hole masses of tidal disruption event host galaxies II. WEVERS T., STONE N.C., VAN VELZEN S., et al.
2019MNRAS.488.1878N 582           X C F     11 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.488.4816W 538           X C       11 15 ~ Evidence for rapid disc formation and reprocessing in the X-ray bright tidal disruption event candidate AT 2018fyk. WEVERS T., PASHAM D.R., VAN VELZEN S., et al.
2019MNRAS.489..143M 18       D               1 4 ~ Evolution of relativistic thin discs with a finite ISCO stress - II. Late time behaviour. MUMMERY A. and BALBUS S.A.
2019MNRAS.489.1463O 269           X C       5 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 90             C       2 14 ~ A new class of flares from accreting supermassive black holes. TRAKHTENBROT B., ARCAVI I., RICCI C., et al.
2019Sci...363..531P 1434           X         32 5 ~ A loud quasi-periodic oscillation after a star is disrupted by a massive black hole. PASHAM D.R., REMILLARD R.A., FRAGILE P.C., et al.
2018A&A...610A..14K viz 263           X         6 4 8 The supermassive black hole coincident with the luminous transient ASASSN-15lh. KRUHLER T., FRASER M., LELOUDAS G., et al.
2018ApJ...852...37A 261           X C       5 26 11 A comparison of the X-ray emission from tidal disruption events with those of active galactic nuclei. AUCHETTL K., RAMIREZ-RUIZ E. and GUILLOCHON J.
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 453       D     X C       10 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...854...86E 174           X C       3 8 3 Radio monitoring of the tidal disruption event Swift J164449.3+573451 III. Late-time jet energetics and a deviation from equipartition. EFTEKHARI T., BERGER E., ZAUDERER B.A., et al.
2018ApJ...855...54R 435           X C       9 9 6 What sets the line profiles in tidal disruption events? ROTH N. and KASEN D.
2018ApJ...856....1P 2177 T K A D S   X C       48 3 4 Discovery of a time lag between the soft X-ray and radio emission of the tidal disruption flare
ASASSN-14li: evidence for linear disk-jet coupling.
PASHAM D.R. and VAN VELZEN S.
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 505     A     X C       11 19 1 On the missing energy puzzle of tidal disruption events. LU W. and KUMAR P.
2018ApJS..238...15H 148       D     X C       3 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 1726     A     X C F     38 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 61       D     X         2 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.474.3593K 421 T   A     X C       8 1 3 Ultrafast outflow in tidal disruption event
ASASSN-14li.
KARA E., DAI L., REYNOLDS C.S., et al.
2018MNRAS.475.1190Y 44           X         1 11 ~ A decades-long fast-rise-exponential-decay flare in low-luminosity AGN NGC 7213. YAN Z. and XIE F.-G.
2018MNRAS.475.4011B 2307 T K A D S   X C F     50 11 3 Long-term radio and X-ray evolution of the tidal disruption event
ASASSN-14li.
BRIGHT J.S., FENDER R.P., MOTTA S.E., et al.
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 131           X         3 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.478.3016W 44           X         1 4 2 Super-Eddington accretion in tidal disruption events: the impact of realistic fallback rates on accretion rates. WU S., COUGHLIN E.R. and NIXON C.
2018MNRAS.480.2929C 2072 T   A S   X C       45 3 ~ A large accretion disc of extreme eccentricity in the TDE
ASASSN-14li.
CAO R., LIU F.K., ZHOU Z.Q., 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 914           X C       20 9 ~ The unusual late-time evolution of the tidal disruption event ASASSN-15oi. HOLOIEN T.W.-S., BROWN J.S., AUCHETTL K., et al.
2018MNRAS.481..307K viz 131           X C       2 6 ~ Gaia transients in galactic nuclei. KOSTRZEWA-RUTKOWSKA Z., JONKER P.G., HODGKIN S.T., et al.
2018MNRAS.481.3348B 17       D               1 4 ~ The evolution of Kerr discs and late-time tidal disruption event light curves. BALBUS S.A. and MUMMERY A.
2018Sci...361..482M 14 2 A dust-enshrouded tidal disruption event with a resolved radio jet in a galaxy merger. MATTILA S., PEREZ-TORRES M., EFSTATHIOU A., et al.
2017A&A...597A.134M viz 17       D               1 2666 3 A large sample of Kohonen selected E+A (post-starburst) galaxies from the Sloan Digital Sky Survey. MEUSINGER H., BRUNECKE J., SCHALLDACH P., et al.
2017A&A...599A..55B 128           X         3 11 2 Time lag in transient cosmic accreting sources. BISNOVATYI-KOGAN G.S. and GIOVANNELLI F.
2017ApJ...835..176F 316       D     X         8 9 15 The post-starburst evolution of tidal disruption event host galaxies. FRENCH K.D., ARCAVI I. and ZABLUDOFF A.
2017ApJ...836...25M viz 217           X C       4 9 36 X-rays from the location of the double-humped transient ASASSN-15lh. MARGUTTI R., METZGER B.D., CHORNOCK R., et al.
2017ApJ...837..153A 793     A     X C       18 10 12 Radio observations of the tidal disruption event XMMSL1 J0740-85. ALEXANDER K.D., WIERINGA M.H., BERGER E., et al.
2017ApJ...837L..30P 969 T   A     X C       21 1 7 Optical/UV-to-X-Ray echoes from the tidal disruption flare
ASASSN-14li.
PASHAM D.R., CENKO S.B., SADOWSKI A., et al.
2017ApJ...838..149A 3635       D     X C       85 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...842...29H 428           X         10 12 33 Revisiting optical tidal disruption events with iPTF16axa. HUNG T., GEZARI S., BLAGORODNOVA N., et al.
2017ApJ...842..126P 43           X         1 13 2 Compact resolved ejecta in the nearest tidal disruption event. PERLMAN E.S., MEYER E.T., WANG Q.D., et al.
2017ApJ...843..106B 426           X C       9 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 343           X C       7 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 128           X C       2 15 8 Periodic accretion-powered flares from colliding EMRIs as TDE imposters. METZGER B.D. and STONE N.C.
2017ApJ...846..150Y 894     A D     X C       21 8 2 The carbon and nitrogen abundance ratio in the broad line region of tidal disruption events. YANG C., WANG T., FERLAND G.J., et al.
2017ApJ...849...20E viz 17       D               2 9926 2 The baryonic collapse efficiency of galaxy groups in the RESOLVE and ECO surveys. ECKERT K.D., KANNAPPAN S.J., LAGOS C.D.P., et al.
2017ApJ...850...22L 145       D     X         4 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 85           X         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 255           X C       5 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 656       D     X C F     14 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           X         2 13 11 OGLE16aaa - a signature of a hungry supermassive black hole. WYRZYKOWSKI L., ZIELINSKI M., KOSTRZEWA-RUTKOWSKA Z., et al.
2017MNRAS.466.1428G 88           X         2 11 34 The unexpected, long-lasting, UV rebrightening of the superluminous supernova ASASSN-15lh. GODOY-RIVERA D., STANEK K.Z., KOCHANEK C.S., et al.
2017MNRAS.466.4904B 2600 T   A D     X C       60 7 25 The-long term evolution of
ASASSN-14li.
BROWN J.S., HOLOIEN T.W.-S., AUCHETTL K., et al.
2017MNRAS.468..783L 43           X         1 7 6 Large decay of X-ray flux in 2XMM J123103.2+110648: evidence for a tidal disruption event. LIN D., GODET O., HO L.C., et al.
2017MNRAS.469..314K 494     A S   X C       10 4 3 TDE fallback cut-off due to a pre-existing accretion disc. KATHIRGAMARAJU A., BARNIOL DURAN R. and GIANNIOS D.
2017MNRAS.469.1354D 103       D     X         3 12 16 Can tidal disruption events produce the IceCube neutrinos? DAI L. and FANG K.
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 273       D     X         7 16 20 Black hole masses of tidal disruption event host galaxies. WEVERS T., VAN VELZEN S., JONKER P.G., et al.
2017MNRAS.471.3788P 17       D               1 25 2 On the use of variability time-scales as an early classifier of radio transients and variables. PIETKA M., STALEY T.D., PRETORIUS M.L., et al.
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