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NAME Reticulum III , the SIMBAD biblio (55 results) | C.D.S. - SIMBAD4 rel 1.8 - 2024.04.19CEST14:24:18 |
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 |
---|---|---|---|---|---|---|---|---|---|
2015ApJ...813..109D | 536 | D | S X C | 12 | 50 | 422 | Eight ultra-faint galaxy candidates discovered in year two of the dark energy survey. | DRLICA-WAGNER A., BECHTOL K., RYKOFF E.S., et al. | |
2016MNRAS.460.1270D | 93 | F | 1 | 47 | 645 | The Dark Energy Survey: more than dark energy - an overview. | DARK ENERGY SURVEY COLLABORATION, ABBOTT T., ABDALLA F.B., et al. | ||
2016ARA&A..54..363D | 2 | 62 | 132 | The Magellanic Stream:circumnavigating the galaxy. | D'ONGHIA E. and FOX A.J. | ||||
2016MNRAS.461.2212J | 463 | D | X C F | 10 | 24 | 134 | A Magellanic origin of the DES dwarfs. | JETHWA P., ERKAL D. and BELOKUROV V. | |
2016ApJ...832L...6W | 16 | D | 1 | 34 | 12 | Estimating the GeV emission of millisecond pulsars in dwarf spheroidal galaxies. | WINTER M., ZAHARIJAS G., BECHTOL K., et al. | ||
2017ApJ...834..110A | 9 | 50 | 477 | Searching for dark matter annihilation in recently discovered Milky Way satellites with Fermi-Lat. | ALBERT A., ANDERSON B., BECHTOL K., et al. | ||||
2017MNRAS.465.1879S | 285 | A | D | X C | 7 | 46 | 56 | Identifying true satellites of the Magellanic Clouds. | SALES L.V., NAVARRO J.F., KALLIVAYALIL N., et al. |
2017MNRAS.466.1741C | 81 | C | 1 | 38 | 7 | The contribution of dissolving star clusters to the population of ultra faint objects in the outer halo of the Milky Way. | CONTENTA F., GIELES M., BALBINOT E., et al. | ||
2017MNRAS.470.1086C | 97 | D | F | 2 | 17 | ~ | MONDian predictions for Newtonian mass-to-light ratios for ultrafaint dSphs. | CORTES R.A.M. and HERNANDEZ X. | |
2018MNRAS.473.5308M | 100 | D | F | 6 | 44 | 50 | Predicting the locations of possible long-lived low-mass first stars: importance of satellite dwarf galaxies. | MAGG M., HARTWIG T., AGARWAL B., et al. | |
2017MNRAS.472.1060D | 58 | D | X | 2 | 64 | 64 | The predicted luminous satellite populations around SMC- and LMC-mass galaxies - a missing satellite problem around the LMC? | DOOLEY G.A., PETER A.H.G., CARLIN J.L., et al. | |
2018ApJ...860...66M | 59 | D | X | 2 | 95 | 119 | A MegaCAM survey of outer halo satellites. III. Photometric and structural parameters. | MUNOZ R.R., COTE P., SANTANA F.A., et al. | |
2018MNRAS.479.2853N | 17 | D | 1 | 57 | 106 | The total satellite population of the Milky Way. | NEWTON O., CAUTUN M., JENKINS A., et al. | ||
2018ApJ...867...19K | 18 | D | 2 | 39 | 115 | The missing satellites of the Magellanic Clouds? Gaia proper motions of the recently discovered ultra-faint galaxies. | KALLIVAYALIL N., SALES L.V., ZIVICK P., et al. | ||
2019MNRAS.482.3480P | 17 | D | 1 | 60 | 20 | Scaling relations for dark matter annihilation and decay profiles in dwarf spheroidal galaxies. | PACE A.B. and STRIGARI L.E. | ||
2019MNRAS.483.4031W | 167 | C F | 1 | 43 | ~ | The suppression of star formation on the smallest scales: what role does environment play? | WIMBERLY M.K.R., COOPER M.C., FILLINGHAM S.P., et al. | ||
2019A&A...623A.129F | 1254 | A | D | X C | 30 | 289 | 15 | Gaia DR 2 and VLT/FLAMES search for new satellites of the LMC. | FRITZ T.K., CARRERA R., BATTAGLIA G., et al. |
2019ApJ...875...77P | 752 | A | D | X C | 18 | 430 | 71 | Proper motions of Milky Way ultra-faint satellites With Gaia DR2 X DES DR1. | PACE A.B. and LI T.S. |
2019MNRAS.489.5348J | 59 | D | X | 2 | 34 | ~ | Dark and luminous satellites of LMC-mass galaxies in the FIRE simulations. | JAHN E.D., SALES L.V., WETZEL A., et al. | |
2020AJ....159...82B | 17 | D | 3 | 53 | 28 | An updated Small Magellanic Cloud and Magellanic Bridge catalog of star clusters, associations, and related objects. | BICA E., WESTERA P., KERBER L.O., et al. | ||
2020ApJS..247...35V | 443 | D | X C | 10 | 101 | ~ | Gaia RR Lyrae stars in nearby ultra-faint dwarf satellite galaxies. | VIVAS A.K., MARTINEZ-VAZQUEZ C. and WALKER A.R. | |
2020ApJ...892...27M | 17 | D | 1 | 45 | ~ | Stellar density profiles of dwarf spheroidal galaxies. | MOSKOWITZ A.G. and WALKER M.G. | ||
2020ApJ...893...47D | 18 | D | 2 | 67 | 116 | Milky Way satellite census. I. The observational selection function for Milky Way satellites in DES y3 and Pan-STARRS DR1. | DRLICA-WAGNER A., BECHTOL K., MAU S., et al. | ||
2020ApJ...893...48N | 19 | D | 1 | 43 | 102 | Milky Way satellite census. II. Galaxy-halo connection constraints including the impact of the Large Magellanic Cloud. | NADLER E.O., WECHSLER R.H., BECHTOL K., et al. | ||
2020MNRAS.494..135C | 102 | D | F | 2 | 40 | ~ | Searching for dark matter signals from local dwarf spheroidal galaxies at low radio frequencies in the GLEAM survey. | COOK R.H.W., SEYMOUR N., SPEKKENS K., et al. | |
2020MNRAS.494.5178F | 60 | D | X | 2 | 56 | 40 | The mass of our Galaxy from satellite proper motions in the Gaia era. | FRITZ T.K., DI CINTIO A., BATTAGLIA G., et al. | |
2020MNRAS.495.2554E | 316 | D | X C | 7 | 49 | 79 | Limit on the LMC mass from a census of its satellites. | ERKAL D. and BELOKUROV V.A. | |
2020AJ....160..124M | 17 | D | 5 | 174 | 54 | Revised and new proper motions for confirmed and candidate Milky Way dwarf galaxies. | McCONNACHIE A.W. and VENN K.A. | ||
2020MNRAS.499.3755S | 187 | D | X F | 4 | 103 | ~ | An updated detailed characterization of planes of satellites in the MW and M31. | SANTOS-SANTOS I.M., DOMINGUEZ-TENREIRO R. and PAWLOWSKI M.S. | |
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.500..986H | 17 | D | 1 | 69 | ~ | Search for globular clusters associated with the Milky Way dwarf galaxies using Gaia DR2. | HUANG K.-W. and KOPOSOV S.E. | ||
2021MNRAS.500.5589H | 17 | D | 1 | 46 | ~ | Addressing γ-ray emissions from dark matter annihilations in 45 Milky Way satellite galaxies and in extragalactic sources with particle dark matter models. | HALDER A., BANERJEE S., PANDEY M., et al. | ||
2021ApJ...911..109S | 44 | X | 1 | 7001 | 17 | Identifying RR Lyrae variable stars in six years of the Dark Energy Survey. | STRINGER K.M., DRLICA-WAGNER A., MACRI L., et al. | ||
2021ApJ...913...53P | 104 | D | X | 3 | 123 | 72 | The gas content and stripping of Local Group dwarf galaxies. | PUTMAN M.E., ZHENG Y., PRICE-WHELAN A.M., et al. | |
2021MNRAS.504.4551S | 104 | D | F | 5 | 55 | 23 | Magellanic satellites in ΛCDM cosmological hydrodynamical simulations of the Local Group. | SANTOS-SANTOS I.M.E., FATTAHI A., SALES L.V., et al. | |
2021ApJ...916....8L | 366 | D | X C | 8 | 56 | 53 | Gaia EDR3 proper motions of Milky Way dwarfs. I. 3D motions and orbits. | LI H., HAMMER F., BABUSIAUX C., et al. | |
2021ApJ...920...92J | 18 | D | 1 | 17 | 24 | Very Large Telescope spectroscopy of ultra-faint dwarf galaxies. I. Boötes I, Leo IV, and Leo V. | JENKINS S.A., LI T.S., PACE A.B., et al. | ||
2021ApJ...922...93H | 174 | C F | 4 | 49 | 13 | Gaia EDR3 proper motions of Milky Way dwarfs. II. Velocities, total energy, and angular momentum. | HAMMER F., WANG J., PAWLOWSKI M.S., et al. | ||
2022A&A...657A..54B | 645 | D | S X C | 13 | 87 | 68 | Gaia early DR3 systemic motions of Local Group dwarf galaxies and orbital properties with a massive Large Magellanic Cloud. | BATTAGLIA G., TAIBI S., THOMAS G.F., et al. | |
2022MNRAS.510.3531B | 332 | D | S X F | 6 | 66 | 9 | Stellar mass segregation as separating classifier between globular clusters and ultrafaint dwarf galaxies. | BAUMGARDT H., FALLER J., MEINHOLD N., et al. | |
2022MNRAS.511.2610C | 90 | X | 2 | 79 | 27 | Measuring the Milky Way mass distribution in the presence of the LMC. | CORREA MAGNUS L. and VASILIEV E. | ||
2022MNRAS.513.4968R | 18 | D | 2 | 52 | 8 | Sizing from the smallest scales: the mass of the Milky Way. | RODRIGUEZ WIMBERLY M.K., COOPER M.C., BAXTER D.C., et al. | ||
2022NatAs...6.1317C | 18 | D | 1 | 37 | 9 | Gamma-ray emission from the Sagittarius dwarf spheroidal galaxy due to millisecond pulsars. | CROCKER R.M., MACIAS O., MACKEY D., et al. | ||
2022ApJ...940..136P | 332 | D | X | 8 | 68 | 33 | Proper Motions, Orbits, and Tidal Influences of Milky Way Dwarf Spheroidal Galaxies. | PACE A.B., ERKAL D. and LI T.S. | |
2023ApJ...942..111C | 47 | X | 1 | 43 | 16 | Pegasus IV: Discovery and Spectroscopic Confirmation of an Ultra-faint Dwarf Galaxy in the Constellation Pegasus. | CERNY W., SIMON J.D., LI T.S., et al. | ||
2023MNRAS.520.1704B | 19 | D | 1 | 49 | 1 | Determining satellite infall times using machine learning. | BARMENTLOO S. and CAUTUN M. | ||
2023MNRAS.521.3540M | 65 | D | X | 2 | 76 | 4 | The LMC impact on the kinematics of the Milky Way satellites: clues from the running solar apex. | MAKAROV D., KHOPERSKOV S., MAKAROV D., et al. | |
2023MNRAS.519..384E | 93 | F | 1 | 25 | 5 | Dark matter halo cores and the tidal survival of Milky Way satellites. | ERRANI R., NAVARRO J.F., PENARRUBIA J., et al. | ||
2023MNRAS.525..325K | 19 | D | 1 | 55 | ~ | Densities and mass assembly histories of the Milky Way satellites are not a challenge to ΛCDM. | KRAVTSOV A. and WU Z. | ||
2020RNAAS...4..229M | 60 | D | X | 2 | 63 | ~ | Updated Proper Motions for Local Group Dwarf Galaxies Using Gaia Early Data Release 3. | McCONNACHIE A.W. and VENN K.A. | |
2023ApJ...955...22B | 19 | D | 1 | 98 | ~ | The HERBAL Model: A Hierarchical Errors-in-variables Bayesian Lognormal Hurdle Model for Galactic Globular Cluster Populations. | BEREK S.C., EADIE G.M., SPEAGLE J.S., et al. | ||
2023ApJ...958..167F | 578 | D | S X C | 11 | 25 | ~ | Metallicity Distribution Functions of 13 Ultra-faint Dwarf Galaxy Candidates from Hubble Space Telescope Narrowband Imaging. | FU S.W., WEISZ D.R., STARKENBURG E., et al. | |
2024MNRAS.527..437V | 120 | D | F | 4 | 44 | ~ | Dear Magellanic Clouds, welcome back! | VASILIEV E. | |
2024AJ....167...57T | 220 | D | X | 5 | 58 | ~ | Extended Stellar Populations in Ultrafaint Dwarf Galaxies. | TAU E.A., VIVAS A.K. and MARTINEZ-VAZQUEZ C.E. | |
2024A&A...681A..73T | 70 | D | X | 2 | 56 | ~ | A portrait of the vast polar structure as a young phenomenon: Hints from its member satellites. | TAIBI S., PAWLOWSKI M.S., KHOPERSKOV S., et al. |