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NAME Palomar 5 Stream , the SIMBAD biblio (103 results) | C.D.S. - SIMBAD4 rel 1.8 - 2024.04.19CEST15:43:18 |
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 |
---|---|---|---|---|---|---|---|---|---|
2001ApJ...548L.165O | 34 | 4 | 408 | Detection of massive tidal tails around the globular cluster Palomar 5 with Sloan Digital Sky Survey commissioning data. | ODENKIRCHEN M., GREBEL E.K., ROCKOSI C.M., et al. | ||||
2003AJ....126.2385O | 14 | 7 | 301 | The extended tails of Palomar 5: a 10° arc of globular cluster tidal debris. | ODENKIRCHEN M., GREBEL E.K., DEHNEN W., et al. | ||||
2004AJ....127.2753D | 12 | 4 | 153 | Modeling the disruption of the globular cluster Palomar 5 by galactic tides. | DEHNEN W., ODENKIRCHEN M., GREBEL E.K., et al. | ||||
2011MNRAS.417..198V | 2 | 9 | 53 | Stellar streams as probes of dark halo mass and morphology: a bayesian reconstruction. | VARGHESE A., IBATA R. and LEWIS G.F. | ||||
2012ApJ...760L...6B | 3 | 13 | 79 | A cold Milky Way stellar stream in the direction of Triangulum. | BONACA A., GEHA M. and KALLIVAYALIL N. | ||||
2014A&A...564A..18P | 37 | 17 | Finding halo streams with a pencil-beam survey. New wraps in the Sagittarius stream. | PILA-DIEZ B., KUIJKEN K., DE JONG J.T.A., et al. | |||||
2014ApJ...790...74P | 44 | 25 | The vast polar structure of the Milky Way attains new members. | PAWLOWSKI M.S. and KROUPA P. | |||||
2014ApJ...795...94B | 7 | 5 | 74 | Milky Way mass and potential recovery using tidal streams in a realistic halo. | BONACA A., GEHA M., KUPPER A.H.W., et al. | ||||
2015ApJ...799...28P | 200 | X | 5 | 12 | 46 | Tidal stream morphology as an indicator of dark matter halo geometry: the case of Palomar 5. | PEARSON S., KUPPER A.H.W., JOHNSTON K.V., et al. | ||
2016ApJ...819....1I | 464 | D | X C | 11 | 7 | 42 | Feeling the pull: a study of natural galactic accelerometers. I. Photometry of the delicate stellar stream of the Palomar 5 globular cluster. | IBATA R.A., LEWIS G.F. and MARTIN N.F. | |
2016MNRAS.463.1759B | 203 | S X | 4 | 47 | 101 | A Synoptic Map of Halo Substructures from the Pan-STARRS1 3π Survey. | BERNARD E.J., FERGUSON A.M.N., SCHLAFLY E.F., et al. | ||
2017MNRAS.466..628B | 1310 | A | X C | 31 | 4 | 108 | Linear perturbation theory for tidal streams and the small-scale CDM power spectrum. | BOVY J., ERKAL D. and SANDERS J.L. | |
2017ApJ...842..120I | 325 | X C | 7 | 135 | 9 | Feeling the pull: a study of natural galactic accelerometers. II. Kinematics and mass of the delicate stellar stream of the Palomar 5 globular cluster. | IBATA R.A., LEWIS G.F., THOMAS G., et al. | ||
2017MNRAS.470..522S | 1 | 4 | 6 | Quantifying tidal stream disruption in a simulated Milky Way. | SANDFORD E., KUPPER A.H.W., JOHNSTON K.V., et al. | ||||
2017MNRAS.471.1005M | 81 | X | 2 | 21 | 4 | Measuring the Sun's motion with stellar streams. | MALHAN K. and IBATA R.A. | ||
2017MNRAS.471.1709G | 43 | 6 | 261 | Not so lumpy after all: modelling the depletion of dark matter subhaloes by Milky Way-like galaxies. | GARRISON-KIMMEL S., WETZEL A., BULLOCK J.S., et al. | ||||
2018A&A...609A..44T | 330 | S X | 7 | 12 | 18 | Stellar streams as gravitational experiments. II. Asymmetric tails of globular cluster streams. | THOMAS G.F., FAMAEY B., IBATA R., et al. | ||
2018MNRAS.474.2479B | 151 | 76 | The devil is in the tails: the role of globular cluster mass evolution on stream properties. | BALBINOT E. and GIELES M. | |||||
2018MNRAS.477.4063M | 172 | X | 4 | 10 | 72 | STREAMFINDER - I. A new algorithm for detecting stellar streams. | MALHAN K. and IBATA R.A. | ||
2017NatAs...1..633P | 122 | T | 2 | 83 | Gaps and length asymmetry in the stellar stream Palomar 5 as effects of Galactic bar rotation. | PEARSON S., PRICE-WHELAN A.M. and JOHNSTON K.V. | |||
2018MNRAS.478.3862M | 41 | X | 1 | 14 | 8 | STREAMFINDER II: A possible fanning structure parallel to the GD-1 stream in Pan-STARRS1. | MALHAN K., IBATA R.A., GOLDMAN B., et al. | ||
2018ApJ...865...85I | 84 | X | 2 | 9 | 18 | Phlegethon, a nearby 75°-long retrograde stellar stream. | IBATA R.A., MALHAN K., MARTIN N.F., et al. | ||
2018MNRAS.480.5342J | 41 | X | 1 | 15 | 9 | Discovery of a thin stellar stream in the SLAMS survey. | JETHWA P., TORREALBA G., NAVARRETE C., et al. | ||
2018MNRAS.481.3148E | 3 | 15 | 57 | Modelling the Tucana III stream - a close passage with the LMC. | ERKAL D., LI T.S., KOPOSOV S.E., et al. | ||||
2019MNRAS.484.2009B | 2744 | T A | S X C F | 62 | 7 | 16 |
Effects of baryonic and dark matter substructure on the Pal 5 stream. |
BANIK N. and BOVY J. | |
2019ApJ...873..118W | 43 | X | 1 | 85 | 148 | Evidence for an intermediate-mass Milky Way from Gaia DR2 halo globular cluster motions. | WATKINS L.L., VAN DER MAREL R.P., SOHN S.T., et al. | ||
2019MNRAS.485.3296W | 92 | X | 2 | 9 | 73 | The gravitational force field of the Galaxy measured from the kinematics of RR Lyrae in Gaia. | WEGG C., GERHARD O. and BIETH M. | ||
2019MNRAS.485.4726K | 42 | X | 1 | 129 | 88 | Piercing the Milky Way: an all-sky view of the Orphan Stream. | KOPOSOV S.E., BELOKUROV V., LI T.S., et al. | ||
2019MNRAS.486.2995M | 167 | X | 4 | 100 | 80 | Constraining the Milky Way halo potential with the GD-1 stellar stream. | MALHAN K. and IBATA R.A. | ||
2019MNRAS.486.5924K | 153 | ~ | The influence of dark matter halo on the stellar stream asymmetry via dynamical friction. | KIPPER R., TENJES P., HUTSI G., et al. | |||||
2019MNRAS.487.2685E | 57 | X | 1 | 14 | 217 | The total mass of the Large Magellanic Cloud from its perturbation on the Orphan stream. | ERKAL D., BELOKUROV V., LAPORTE C.F.P., et al. | ||
2019ApJ...880...38B | 96 | X | 2 | 11 | 136 | The spur and the gap in GD-1: dynamical evidence for a dark substructure in the Milky Way halo. | BONACA A., HOGG D.W., PRICE-WHELAN A.M., et al. | ||
2019ApJ...881L..37B | 42 | X | 1 | 5 | ~ | Multiple components of the Jhelum stellar stream. | BONACA A., CONROY C., PRICE-WHELAN A.M., et al. | ||
2019MNRAS.488.5748W | 84 | X | 2 | 5 | ~ | Modelling the effects of dark matter substructure on globular cluster evolution with the tidal approximation. | WEBB J.J., BOVY J., CARLBERG R.G., et al. | ||
2019MNRAS.489.5348J | 34 | ~ | Dark and luminous satellites of LMC-mass galaxies in the FIRE simulations. | JAHN E.D., SALES L.V., WETZEL A., et al. | |||||
2019AJ....158..223P | 627 | X C | 14 | 3302 | 27 | Kinematics of the Palomar 5 stellar stream from RR Lyrae stars. | PRICE-WHELAN A.M., MATEU C., IORIO G., et al. | ||
2019MNRAS.490.3508L | 87 | X | 2 | 21 | 68 | The Southern Stellar Stream Spectroscopic Survey (S5): Overview, target selection, data reduction, validation, and early science. | LI T.S., KOPOSOV S.E., ZUCKER D.B., et al. | ||
2020MNRAS.493.4978S | 324 | T A | X C | 6 | 5 | ~ |
An extended Pal 5 stream in Gaia DR2. |
STARKMAN N., BOVY J. and WEBB J.J. | |
2020AJ....159..287C | 43 | X | 1 | 2649 | ~ | A larger extent for the Ophiuchus stream. | CALDWELL N., BONACA A., PRICE-WHELAN A.M., et al. | ||
2020MNRAS.494.5315D | 173 | X | 4 | 11 | 35 | A closer look at the spur, blob, wiggle, and gaps in GD-1. | DE BOER T.J.L., ERKAL D. and GIELES M. | ||
2020A&A...638A.104R | 85 | X | 2 | 9495 | 37 | Full 5D characterisation of the Sagittarius stream with Gaia DR2 RR Lyrae. | RAMOS P., MATEU C., ANTOJA T., et al. | ||
2020Natur.583..768W | 85 | X | 2 | 2060 | 39 | The tidal remnant of an unusually metal-poor globular cluster. | WAN Z., LEWIS G.F., LI T.S., et al. | ||
2020MNRAS.496.3291M | 43 | X | 1 | 10 | ~ | Empirical completeness assessment of the Gaia DR2, Pan-STARRS 1, and ASAS-SN-II RR Lyrae catalogues. | MATEU C., HOLL B., DE RIDDER J., et al. | ||
2020MNRAS.499..116W | 298 | X | 7 | 3 | ~ | High-resolution simulations of dark matter subhalo disruption in a Milky-Way-like tidal field. | WEBB J.J. and BOVY J. | ||
2020ApJ...902...89T | 44 | X | 1 | 16 | 19 | The hidden past of M92: detection and characterization of a newly formed 17° long stellar stream using the Canada-France Imaging Survey. | THOMAS G.F., JENSEN J., McCONNACHIE A., et al. | ||
2020ApJ...903...25N | 46 | X | 1 | 9 | 35 | Chasing accreted structures within Gaia DR2 using deep learning. | NECIB L., OSTDIEK B., LISANTI M., et al. | ||
2020MNRAS.499.4793S | 43 | X | 1 | 25 | ~ | Models of distorted and evolving dark matter haloes. | SANDERS J.L., LILLEY E.J., VASILIEV E., et al. | ||
2021MNRAS.501..179M | 219 | X F | 4 | 28 | 30 | Probing the nature of dark matter with accreted globular cluster streams. | MALHAN K., VALLURI M. and FREESE K. | ||
2021MNRAS.501.1791Y | 928 | X C F | 19 | 1 | 14 | Separatrix divergence of stellar streams in galactic potentials. | YAVETZ T.D., JOHNSTON K.V., PEARSON S., et al. | ||
2021MNRAS.501.3670P | 44 | X | 1 | 4 | ~ | Creation/destruction of ultra-wide binaries in tidal streams. | PENARRUBIA J. | ||
2021MNRAS.501.5679C | 44 | X | 1 | 3 | ~ | Baryons shaping dark matter haloes. | CATALDI P., PEDROSA S.E., TISSERA P.B., et al. | ||
2021MNRAS.502.2364B | 2729 | A | X C | 62 | 16 | 65 | Evidence of a population of dark subhaloes from Gaia and Pan-STARRS observations of the GD-1 stream. | BANIK N., BOVY J., BERTONE G., et al. | |
2021MNRAS.502.4170R | 4483 | A | D | S X C | 102 | 733 | 27 | Galactic potential constraints from clustering in action space of combined stellar stream data. | REINO S., ROSSI E.M., SANDERSON R.E., et al. |
2021AJ....161..192N | 178 | X C | 3 | 6 | 27 | Second data release of the all-sky NOIRLab Source Catalog. | NIDEVER D.L., DEY A., FASBENDER K., et al. | ||
2021MNRAS.503.1932P | 87 | X | 2 | 5 | ~ | The effects of ΛCDM dark matter substructure on the orbital evolution of star clusters. | PAVANEL N. and WEBB J.J. | ||
2021ApJ...911..149L | 131 | X | 3 | 146 | 41 | Broken into pieces: ATLAS and Aliqa Uma as one single stream. | LI T.S., KOPOSOV S.E., ERKAL D., et al. | ||
2021MNRAS.504..648B | 44 | X | 1 | 3 | ~ | On N-body simulations of globular cluster streams. | BANIK N. and BOVY J. | ||
2021ApJ...914..123I | 6030 | 82 | Charting the Galactic acceleration field. I. A search for stellar streams with Gaia DR2 and EDR3 with follow-up from ESPaDOnS and UVES. | IBATA R., MALHAN K., MARTIN N., et al. | |||||
2021ApJ...915...49A | 131 | X | 3 | 34 | 1 | RR Lyrae stars in stellar streams with Gaia: the escapers. | ABBAS M., GREBEL E.K. and SIMUNOVIC M. | ||
2021MNRAS.507.4826L | 90 | X | 2 | 5 | 15 | The spatial distribution of Milky Way satellites, gaps in streams, and the nature of dark matter. | LOVELL M.R., CAUTUN M., FRENK C.S., et al. | ||
2021MNRAS.508.5468H | 89 | X | 2 | 10 | 25 | Action-based distribution function modelling for constraining the shape of the Galactic dark matter halo. | HATTORI K., VALLURI M. and VASILIEV E. | ||
2021ApJ...920L..10L | 44 | X | 1 | 11 | ~ | Galaxy rotation curves disfavor traditional and self-interacting dark matter halos, preferring a disk component or Einasto function. | LOIZEAU N. and FARRAR G.R. | ||
2021ApJ...920...10P | 46 | X | 1 | 9 | 20 | The galaxy progenitor's of stellar streams around Milky Way-mass galaxies in the FIRE cosmological simulations. | PANITHANPAISAL N., SANDERSON R.E., WETZEL A., et al. | ||
2021ApJ...921...67C | 87 | X | 2 | 18 | 1 | Signature of a massive rotating metal-poor star imprinted in the Phoenix stellar stream. | CASEY A.R., JI A.P., HANSEN T.T., et al. | ||
2022AJ....163...18F | 45 | X | 1 | 14 | 8 | DELVE-ing into the Jet: a thin stellar stream on a retrograde orbit at 30 kpc. | FERGUSON P.S., SHIPP N., DRLICA-WAGNER A., et al. | ||
2022MNRAS.509.5365R | 90 | X | 2 | 5 | ~ | Orbital phase-driven biases in galactic mass constraints from stellar streams. | REINO S., SANDERSON R.E., PANITHANPAISAL N., et al. | ||
2022MNRAS.510..774W | 135 | X F | 2 | 3 | 5 | Variation in the stellar mass function along stellar streams. | WEBB J.J. and BOVY J. | ||
2022MNRAS.510.3727P | 1864 | T A | X C F | 39 | 12 | 4 |
APOGEE detection of N-rich stars in the tidal tails of Palomar 5. |
PHILLIPS S.G., SCHIAVON R.P., MACKERETH J.T., et al. | |
2022MNRAS.511.2339Q | 45 | X | 1 | 9 | 7 | The structure of accreted stellar streams. | QIAN Y., ARSHAD Y. and BOVY J. | ||
2022ApJ...926..107M | 18 | D | 1 | 140 | 64 | The Global Dynamical Atlas of the Milky Way Mergers: Constraints from Gaia EDR3-based Orbits of Globular Clusters, Stellar Streams, and Satellite Galaxies. | MALHAN K., IBATA R.A., SHARMA S., et al. | ||
2022ApJ...926..166P | 91 | C | 1 | 15 | 17 | The Hough Stream Spotter: A New Method for Detecting Linear Structure in Resolved Stars and Application to the Stellar Halo of M31. | PEARSON S., CLARK S.E., DEMIRJIAN A.J., et al. | ||
2022MNRAS.512..315K | 1147 | A | X C F | 24 | 8 | 1 | Forward and back: kinematics of the Palomar 5 tidal tails. | KUZMA P.B., FERGUSON A.M.N., VARRI A.L., et al. | |
2022ApJ...928...30L | 90 | X | 2 | 53 | 46 | S5: The Orbital and Chemical Properties of One Dozen Stellar Streams. | LI T.S., JI A.P., PACE A.B., et al. | ||
2022ApJ...929...89G | 45 | X | 1 | 8 | ~ | The Extended Tidal Tails of NGC 7089 (M2). | GRILLMAIR C.J. | ||
2022ApJ...925..118T | 448 | X C | 9 | 9 | 6 | From the Fire: A Deeper Look at the Phoenix Stream. | TAVANGAR K., FERGUSON P., SHIPP N., et al. | ||
2022MNRAS.513..853Y | 90 | X | 2 | 12 | 4 | Revisit NGC 5466 tidal stream with Gaia, SDSS/SEGUE, and LAMOST. | YANG Y., ZHAO J.-K., ISHIGAKI M.N., et al. | ||
2022MNRAS.513.2509C | 90 | X | 2 | 40 | 1 | Tracing Milky Way substructure with an RR Lyrae hierarchical clustering forest. | COOK B.T., WOODS D.F., RUPRECHT J.D., et al. | ||
2022AJ....163..275A | 46 | X | 1 | 9 | 14 | A Young, Low-density Stellar Stream in the Milky Way Disk: Theia 456. | ANDREWS J.J., CURTIS J.L., CHANAME J., et al. | ||
2022MNRAS.513.3682D | 46 | X | 1 | 2 | 3 | Stellar streams and dark substructure: the diffusion regime. | DELOS M.S. and SCHMIDT F. | ||
2022MNRAS.514.1757P | 108 | D | X | 3 | 30 | 1 | Uniform modelling of the stellar density of thirteen tidal streams within the Galactic halo. | PATRICK J.M., KOPOSOV S.E. and WALKER M.G. | |
2022MNRAS.514.3532E | 179 | X C | 3 | 13 | 7 | The Pristine survey - XVIII. C-19: tidal debris of a dark matter-dominated globular cluster? | ERRANI R., NAVARRO J.F., IBATA R., et al. | ||
2022MNRAS.515.2681C | 50 | X | 1 | 3 | 16 | The impact of galactic feedback on the shapes of dark matter haloes. | CHUA K.T.E., VOGELSBERGER M., PILLEPICH A., et al. | ||
2022A&A...663A.126F | 90 | X | 2 | 424 | 10 | Galactic ArchaeoLogIcaL ExcavatiOns (GALILEO). I. An updated census of APOGEE N-rich giants across the Milky Way. | FERNANDEZ-TRINCADO J.G., BEERS T.C., BARBUY B., et al. | ||
2022ApJ...935L..38Y | 90 | X | 2 | 22 | 2 | A New Cold Stream near the Southern Galactic Pole. | YANG Y., ZHAO J.-K., XUE X.-X., et al. | ||
2022MNRAS.516.3342W | 45 | X | 1 | 58 | 3 | The giants that were born swiftly - implications of the top-heavy stellar initial mass function on the birth conditions of globular clusters. | WIRTH H., KROUPA P., HAAS J., et al. | ||
2022MNRAS.516.1685D | 1012 | A | S X C | 21 | 12 | 11 | The impact of a massive Sagittarius dSph on GD-1-like streams. | DILLAMORE A.M., BELOKUROV V., EVANS N.W., et al. | |
2022MNRAS.516.2389V | 110 | D | C | 5 | 9 | 18 | Shapes of Milky-Way-mass galaxies with self-interacting dark matter. | VARGYA D., SANDERSON R., SAMEIE O., et al. | |
2022MNRAS.516.5331M | 287 | D | S X C | 5 | 23 | 21 | The Pristine survey - XVI. The metallicity of 26 stellar streams around the Milky Way detected with the STREAMFINDER in Gaia EDR3. | MARTIN N.F., IBATA R.A., STARKENBURG E., et al. | |
2022ApJ...941..129D | 90 | C | 1 | 20 | ~ | Probability of Forming Gaps in the GD-1 Stream by Close Encounters of Globular Clusters. | DOKE Y. and HATTORI K. | ||
2023A&A...669A.102W | 47 | X | 1 | 13 | 3 | Characterization and dynamics of the peculiar stream Jhelum A tentative role for the Sagittarius dwarf galaxy. | WOUDENBERG H.C., KOOP O., BALBINOT E., et al. | ||
2023MNRAS.520.5225M | 812 | D | S X C | 16 | 119 | 28 | galstreams: A library of Milky Way stellar stream footprints and tracks. | MATEU C. | |
2023ApJ...945L..32C | 140 | X C | 2 | 5 | 1 | Building an Acceleration Ladder with Tidal Streams and Pulsar Timing. | CRAIG P., CHAKRABARTI S., SANDERSON R.E., et al. | ||
2023ApJ...946...48H | 93 | X | 2 | 181 | 5 | Finding r-II Sibling Stars in the Milky Way with the Greedy Optimistic Clustering Algorithm. | HATTORI K., OKUNO A. and ROEDERER I.U. | ||
2023ApJ...948..123H | 47 | X | 1 | 24 | 1 | On the Hunt for the Origins of the Orphan-Chenab Stream: Detailed Element Abundances with APOGEE and Gaia. | HAWKINS K., PRICE-WHELAN A.M., SHEFFIELD A.A., et al. | ||
2023MNRAS.522.5022S | 467 | X C F | 8 | 8 | 1 | On the fast track: Rapid construction of stellar stream paths. | STARKMAN N., BOVY J., WEBB J.J., et al. | ||
2023MNRAS.523..428B | 560 | X C | 11 | 5 | 2 | The dark side of FIRE: predicting the population of dark matter subhaloes around Milky Way-mass galaxies. | BARRY M., WETZEL A., CHAPMAN S., et al. | ||
2023MNRAS.524.2124P | 2846 | T A | D | S X C | 59 | 146 | ~ |
The oblateness of the Milky Way dark matter halo from the stellar streams of NGC 3201, M68, and Palomar 5. |
PALAU C.G. and MIRALDA-ESCUDE J. |
2023ApJ...954..195N | 47 | X | 1 | 5 | ~ | Constraining the Gravitational Potential from the Projected Morphology of Extragalactic Tidal Streams. | NIBAUER J., BONACA A. and JOHNSTON K.V. | ||
2023ApJ...954..215Y | 112 | D | X | 3 | 17 | ~ | Stream Fanning and Bifurcations: Observable Signatures of Resonances in Stellar Stream Morphology. | YAVETZ T.D., JOHNSTON K.V., PEARSON S., et al. | |
2023MNRAS.525.5813R | 47 | X | 1 | 4 | ~ | Constraining dark matter substructure with Gaia wide binaries. | RAMIREZ E.D. and BUCKLEY M.R. | ||
2023A&A...678A.180T | 47 | X | 1 | 13 | ~ | Impact of the Galactic bar on tidal streams within the Galactic disc The case of the tidal stream of the Hyades. | THOMAS G.F., FAMAEY B., MONARI G., et al. | ||
2024ApJ...961...46S | 200 | X | 4 | 9 | ~ | Shape Asymmetries and the Relation between Lopsidedness and Radial Alignment in Simulated Galaxies. | SHEN J., WU X., ZHENG Y., et al. | ||
2024ApJ...962..151A | 1120 | D | S X C | 21 | 13 | ~ | Prospects for Detecting Gaps in Globular Cluster Stellar Streams in External Galaxies with the Nancy Grace Roman Space Telescope. | AGANZE C., PEARSON S., STARKENBURG T., et al. |