NAME H99 Stream , the SIMBAD biblio

NAME H99 Stream , the SIMBAD biblio (76 results) C.D.S. - SIMBAD4 rel 1.8 - 2024.04.16CEST23:28:14

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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
1999Natur.402...53H 31 5 466 Debris streams in the solar neighbourhood as relicts from the formation of the Milky Way. HELMI A., WHITE S.D.M., DE ZEEUW P.T., et al.
2005A&A...439..551R 571       D     X C       15 25 15 Structure in the motions of the fastest halo stars. RE FIORENTIN P., HELMI A., LATTANZI M.G., et al.
2007A&A...474..857D 127       D     X         4 14 10 Signatures of star streams in the phase space distribution of nearby halo stars. DETTBARN C., FUCHS B., FLYNN C., et al.
2008ApJ...685..261K 1                   Z 20 43 Identifying stellar streams in the first RAVE public data release. KLEMENT R., FUCHS B. and RIX H.-W.
2009ApJ...698..865K viz 2668       D     X C       70 250 50 Halo streams in the seventh Sloan Digital Sky Survey data release. KLEMENT R., RIX H.-W., FLYNN C., et al.
2018MNRAS.475.1537M 1244     A D S   X C F     28 10 95 Halo substructure in the SDSS–Gaia catalogue: streams and clumps. MYEONG G.C., EVANS N.W., BELOKUROV V., et al.
2018ApJ...868..105Z 123           X         3 28 2 Tracing the origin of moving groups. II. Chemical abundance of six stars in the halo stream LAMOST-N1. ZHAO J.K., ZHAO G., AOKI W., et al.
2019A&A...625A...5K 2408 T   A     X C       56 541 85 Characterization and history of the
Helmi streams with Gaia DR2. 		KOPPELMAN H.H., HELMI A., MASSARI D., et al.
2019A&A...631L...9K 279           X C       5 5 141 Multiple retrograde substructures in the Galactic halo: A shattered view of Galactic history. KOPPELMAN H.H., HELMI A., MASSARI D., et al.
2020MNRAS.492.2161Z viz 894           X C       20 482 ~ Local RR Lyrae stars: native and alien. ZINN R., CHEN X., LAYDEN A.C., et al.
2020MNRAS.492.1370B 1294       D     X C F     29 8 ~ Identifying stellar streams in Gaia DR2 with data mining techniques. BORSATO N.W., MARTELL S.L. and SIMPSON J.D.
2020ApJ...891...39Y viz 599       S   X         13 30 92 Dynamical relics of the ancient galactic halo. YUAN Z., MYEONG G.C., BEERS T.C., et al.
2020ApJ...901...48N 1839     A D S   X C       42 22 198 Evidence from the H3 Survey that the stellar halo is entirely comprised of substructure. NAIDU R.P., CONROY C., BONACA A., et al.
2020ApJ...903...25N 624     A     X C       14 9 35 Chasing accreted structures within Gaia DR2 using deep learning. NECIB L., OSTDIEK B., LISANTI M., et al.
2020MNRAS.499.4863P 681           X C F     14 10 ~ Predicting accreted satellite galaxy masses and accretion redshifts based on globular cluster orbits in the E-MOSAICS simulations. PFEFFER J.L., TRUJILLO-GOMEZ S., KRUIJSSEN J.M.D., et al.
2021ApJ...907...10L viz 1045     A D S   X C       23 1549 37 Dynamically tagged groups of very metal-poor halo stars from the HK and Hamburg/ESO surveys. LIMBERG G., ROSSI S., BEERS T.C., et al.
2021ApJ...908...79G viz 87             C       1 46 33 The r-process Alliance: chemodynamically tagged groups of halo r-process-enhanced stars reveal a shared chemical-evolution history. GUDIN D., SHANK D., BEERS T.C., et al.
2021MNRAS.502.4170R viz 2350     A D S   X C       53 733 27 Galactic potential constraints from clustering in action space of combined stellar stream data. REINO S., ROSSI E.M., SANDERSON R.E., et al.
2021ApJ...909L..26B 628       D     X C       14 39 53 Orbital clustering identifies the origins of Galactic stellar streams. BONACA A., NAIDU R.P., CONROY C., et al.
2021ApJ...913...39S 131           X C       2 10 2 Chemodynamically characterizing the Jhelum stellar stream with APOGEE-2. SHEFFIELD A.A., SUBRAHIMOVIC A.Z., REFAT M., et al.
2021ApJ...913L..28L 2551 T   A     X C       57 29 20 Abundance patterns of α and neutron-capture elements in the Helmi stream. LIMBERG G., SANTUCCI R.M., ROSSI S., et al.
2021A&A...654A..23G 44           X         1 110 9 Physical characterization of recently discovered globular clusters in the Sagittarius dwarf spheroidal galaxy. I. Metallicities, ages, and luminosities. GARRO E.R., MINNITI D., GOMEZ M., et al.
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 viz 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.
2022ApJ...925...10M 45           X         1 16 ~ A Very Metal-poor RR Lyrae Star with a Disk Orbit Found in the Solar Neighborhood. MATSUNAGA N., ITANE A., HATTORI K., et al.
2022ApJ...925...36B viz 582           X         13 168 ~ Globular Cluster Intrinsic Iron Abundance Spreads. II. Protocluster Metallicities and the Age-Metallicity Relations of Milky Way Progenitors. BAILIN J. and VON KLAR R.
2022MNRAS.510.4308K viz 116     A     X         3 6 5 Stars in the local galactic thick disc and halo in Gaia EDR3: a catalogue of half a million local main-sequence stars with photometric metallicities. KIM B. and LEPINE S.
2022MNRAS.510.5119L 47           X         1 10 25 The kinematic properties of Milky Way stellar halo populations. LANE J.M.M., BOVY J. and MACKERETH J.T.
2022MNRAS.510.5945M 45           X         1 103 3 Orbits of globular clusters computed with dynamical friction in the Galactic anisotropic velocity dispersion field. MORENO E., FERNANDEZ-TRINCADO J.G., PEREZ-VILLEGAS A., et al.
2022ApJ...926...26S viz 270     A D S   X         6 11 18 Dynamically Tagged Groups of Metal-poor Stars from the Best and Brightest Survey. SHANK D., BEERS T.C., PLACCO V.M., et al.
2022ApJ...928...30L 90             C       1 53 46 S5: The Orbital and Chemical Properties of One Dozen Stellar Streams. LI T.S., JI A.P., PACE A.B., et al.
2022MNRAS.513.1958W 1523     A D S   X C F     32 15 6 Probing the Galactic halo with RR Lyrae stars - II. The substructures of the Milky Way. WANG F., ZHANG H.-W., XUE X.-X., et al.
2022MNRAS.513.2509C 197       D     X         5 40 1 Tracing Milky Way substructure with an RR Lyrae hierarchical clustering forest. COOK B.T., WOODS D.F., RUPRECHT J.D., et al.
2022ApJ...931..147L 46           X         1 13 21 Four-hundred Very Metal-poor Stars Studied with LAMOST and Subaru. II. Elemental Abundances. LI H., AOKI W., MATSUNO T., et al.
2022MNRAS.515.1065M 46           X         1 4 5 Tidal disruption of star clusters in galaxy formation simulations. MENG X. and GNEDIN O.Y.
2022ApJS..261...19S viz 448     A D S   X         10 17 11 Dynamically Tagged Groups of Metal-poor Stars. II. The Radial Velocity Experiment Data Release 6. SHANK D., KOMATER D., BEERS T.C., et al.
2022A&A...663A.126F viz 45           X         1 424 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...934..172C 45           X         1 12 9 Reading the CARDs: The Imprint of Accretion History in the Chemical Abundances of the Milky Way's Stellar Halo. CUNNINGHAM E.C., SANDERSON R.E., JOHNSTON K.V., et al.
2022ApJ...936...78M 45           X         1 59 15 The Atari Disk, a Metal-poor Stellar Population in the Disk System of the Milky Way. MARDINI M.K., FREBEL A., CHITI A., et al.
2022A&A...665A..46M viz 475     A S   X C       9 24 8 High-precision chemical abundances of Galactic building blocks. II. Revisiting the chemical distinctness of the
Helmi streams. 		MATSUNO T., DODD E., KOPPELMAN H.H., et al.
2022A&A...665A..58R viz 926     A S   X C       19 6 19 Substructure in the stellar halo near the Sun. II. Characterisation of independent structures. RUIZ-LARA T., MATSUNO T., LOVDAL S.S., et al.
2022AJ....164..119Y 45           X         1 5 ~ Constraining the Planet Occurrence Rate around Halo Stars of Potentially Extragalactic Origin. YOSHIDA S., GRUNBLATT S. and PRICE-WHELAN A.M.
2022ApJ...937...12A 48           X         1 6 19 Gastro Library. I. The Simulated Chemodynamical Properties of Several Gaia-Sausage-Enceladus-like Stellar Halos. AMARANTE J.A.S., DEBATTISTA V.P., BERALDO E SILVA L., et al.
2022ApJ...938...21M 49           X         1 7 31 Milky Way's Eccentric Constituents with Gaia, APOGEE, and GALAH. MYEONG G.C., BELOKUROV V., AGUADO D.S., et al.
2022MNRAS.517.4856H 45           X         1 22 15 Origin of highly r-process-enhanced stars in a cosmological zoom-in simulation of a Milky Way-like galaxy. HIRAI Y., BEERS T.C., CHIBA M., et al.
2022MNRAS.517.4875L 47           X         1 4 8 The stellar parameters and elemental abundances from low-resolution spectra - I. 1.2 million giants from LAMOST DR8. LI Z., ZHAO G., CHEN Y., et al.
2022A&A...668L..10R 1327 T   A     X C       28 2 2 Unveiling the past evolution of the progenitor of the

Helmi streams. 		RUIZ-LARA T., HELMI A., GALLART C., et al.
2023ApJ...943...23S 1026     A D S   X         22 16 5 The R-Process Alliance: Chemodynamically Tagged Groups. II. An Extended Sample of Halo r-process-enhanced Stars. SHANK D., BEERS T.C., PLACCO V.M., et al.
2023MNRAS.519.5554A viz 93           X         2 16 2 The Pristine survey - XX. GTC follow-up observations of extremely metal-poor stars identified from Pristine and LAMOST. ARENTSEN A., AGUADO D.S., SESTITO F., et al.
2023MNRAS.519.5689M 280           X   F     5 64 ~ RR Lyrae stars as probes of the outer Galactic halo: chemical and kinematic analysis of a pilot sample. MEDINA G.E., HANSEN C.J., MUNOZ R.R., et al.
2023A&A...670A..11B 47           X         1 10 1 Dynamical state of the globular clusters Rup 106 and IC 4499. BECCARI G., CADELANO M. and DALESSANDRO E.
2023A&A...670A.106C 513     A D     X C       11 74 5 The cerium content of the Milky Way as revealed by Gaia DR3 GSP-Spec abundances. CONTURSI G., DE LAVERNY P., RECIO-BLANCO A., et al.
2022MNRAS.517.2787L 90           X         2 11 5 Probing the Galactic halo with RR lyrae stars - III. The chemical and kinematic properties of the stellar halo. LIU G., HUANG Y., BIRD S.A., et al.
2023MNRAS.520.5225M 93           X         2 119 28 galstreams: A library of Milky Way stellar stream footprints and tracks. MATEU C.
2023MNRAS.520.5671H 1774     A D S   X C       37 21 33 The chemical characterization of halo substructure in the Milky Way based on APOGEE. HORTA D., SCHIAVON R.P., MACKERETH J.T., et al.
2023ApJ...945L..32C 215     A     X         5 5 1 Building an Acceleration Ladder with Tidal Streams and Pulsar Timing. CRAIG P., CHAKRABARTI S., SANDERSON R.E., et al.
2023A&A...671A.137L 47           X         1 40 ~ Sulfur abundances in three Galactic clusters: Ruprecht 106, Trumpler 5, and Trumpler 20. LUCERTINI F., MONACO L., CAFFAU E., et al.
2023ApJ...946...66L 47           X         1 16 3 Phase-space Properties and Chemistry of the Sagittarius Stellar Stream Down to the Extremely Metal-poor ([Fe/H] ≲ -3) Regime. LIMBERG G., QUEIROZ A.B.A., PEROTTONI H.D., et al.
2023MNRAS.521.2087V viz 47           X         1 14 1 Hidden deep in the halo: selection of a reduced proper motion halo catalogue and mining retrograde streams in the velocity space. VISWANATHAN A., STARKENBURG E., KOPPELMAN H.H., et al.
2023MNRAS.521.2623O 355     A     X         8 19 4 Robust clustering of the local Milky Way stellar kinematic substructures with Gaia eDR3. OU X., NECIB L. and FREBEL A.
2023ApJ...949...31P 187           X C       3 33 1 Very Metal-poor Stars in the Solar Vicinity: Kinematics and Abundance Analysis. PLOTNIKOVA A., CARRARO G., VILLANOVA S., et al.
2023A&A...673A..86P 373           X C       7 170 9 The distribution of globular clusters in kinematic spaces does not trace the accretion history of the host galaxy. PAGNINI G., DI MATTEO P., KHOPERSKOV S., et al.
2023MNRAS.519.1989M 560       S   X C F     9 13 1 New stellar velocity substructures from Gaia DR3 proper motions. MIKKOLA D., McMILLAN P.J. and HOBBS D.
2023AJ....166...12L 47           X         1 27 3 On the Origins of Extreme Velocity Stars as Revealed by Large-scale Galactic Surveys. LI Q.-Z., HUANG Y., DONG X.-B., et al.
2023MNRAS.519.4467J 233           X         5 41 3 Chemical abundances of the Typhon stellar stream. JI A.P., NAIDU R.P., BRAUER K., et al.
2023A&A...674A..38G 142           X C       2 16 45 Gaia Data Release 3 Chemical cartography of the Milky Way. GAIA COLLABORATION, RECIO-BLANCO A., KORDOPATIS G., et al.
2023MNRAS.523.2934A 215     A     X   F     4 10 ~ Chemodynamical properties and ages of metal-poor stars in S-PLUS. ALMEIDA-FERNANDES F., PLACCO V.M., ROCHA-PINTO H.J., et al.
2023A&A...676A.140O viz 47           X         1 6 ~ Galactic ArchaeoLogIcaL ExcavatiOns (GALILEO) II. t-SNE portrait of local fossil relics and structures. ORTIGOZA-URDANETA M., VIEIRA K., FERNANDEZ-TRINCADO J.G., et al.
2023MNRAS.525L..72P 47           X         1 5 ~ The dual nature of the tidal tails of NGC 5904 (M5). PIATTI A.E.
2023A&A...677A..91K 47           X         1 13 ~ The stellar halo in Local Group Hestia simulations III. Chemical abundance relations for accreted and in situ stars. KHOPERSKOV S., MINCHEV I., LIBESKIND N., et al.
2023MNRAS.526.1075P 560           X C F     10 43 ~ The kinematics, metallicities, and orbits of six recently discovered Galactic star clusters with Magellan/M2FS spectroscopy. PACE A.B., KOPOSOV S.E., WALKER M.G., et al.
2023ApJ...958...44B 47           X         1 4 ~ Orientations of Dark Matter Halos in FIRE-2 Milky Way-mass Galaxies. BAPTISTA J., SANDERSON R., HUBER D., et al.
2023ApJ...959...60P 47           X         1 38 ~ SPLUS J142445.34-254247.1: An r-process-enhanced, Actinide-boost, Extremely Metal-poor Star Observed with GHOST. PLACCO V.M., ALMEIDA-FERNANDES F., HOLMBECK E.M., et al.
2024ApJ...963..162S 350     A D     X C       7 10 ~ What Is Missing from the Local Stellar Halo? SHARPE K., NAIDU R.P. and CONROY C.
2024A&A...683A.138C 350           X         7 10 ~ Production of s-process elements in asymptotic giant branch stars as revealed by Gaia/GSP-Spec abundances. CONTURSI G., DE LAVERNY P., RECIO-BLANCO A., et al.
2024A&A...683A.167G 50           X         1 4 ~ The treasure behind the haystack: MUSE analysis of five recently discovered globular clusters. GRAN F., KORDOPATIS G., ZOCCALI M., et al.

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