SNR B0509-67.5 , the SIMBAD biblio

SNR B0509-67.5 , the SIMBAD biblio (199 results) C.D.S. - SIMBAD4 rel 1.7 - 2021.05.06CEST14:19:12


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Title First 3 Authors
2021ApJ...906...93F 50           X         1 12 ~ From supernova to supernova remnant: comparison of thermonuclear explosion models. FERRAND G., WARREN D.C., ONO M., et al.
2021ApJ...909...13S 50           X         1 9 ~ XMM observation of the supernova remnant J0454-6713 and the adjacent N9 superbubble. SEWARD F.D., FOSTER A.R., SMITH R.K., et al.
2021ApJ...909..152L 200           X         4 13 ~ Exploration of aspherical ejecta properties in Type Ia supernovae: progenitor dependence and applications to progenitor classification. LEUNG S.-C., DIEHL R., NOMOTO K., et al.
2020ApJ...890..104S 47           X         1 7 ~ A nucleosynthetic origin for the southwestern Fe-rich structure in Kepler's supernova remnant. SATO T., BRAVO E., BADENES C., et al.
2020ApJ...900..149L 112       D     X         3 38 ~ Searching for Balmer-dominated Type Ia supernova remnants in M33. LIN C.D.-J., CHU Y.-H., OU P.-S., et al.
2020MNRAS.497.3234F 998       D S   X C F     19 19 ~ Supersoft X-ray nebulae in the Large Magellanic Cloud. FARIAS D.A., CLOCCHIATTI A., WOODS T.E., et al.
2019ApJ...870...12L 45           X         1 19 ~ Photometric and spectroscopic properties of Type Ia supernova 2018oh with early excess emission from the Kepler 2 observations. LI W., WANG X., VINKO J., et al.
2019ApJ...871...31A 45           X         1 5 ~ Evolution of magnetized white dwarf binaries to Type Ia supernovae. ABLIMIT I. and MAEDA K.
2019ApJ...885..103T 45           X         1 15 ~ Double-detonation models for Type Ia supernovae: trigger of detonation in companion white dwarfs and signatures of companions' stripped-off materials. TANIKAWA A., NOMOTO K., NAKASATO N., et al.
2019ApJ...886...99L 152       D     X         4 15 ~ Search for surviving companions of progenitors of young LMC SN Ia remnants. LI C.-J., KERZENDORF W.E., CHU Y.-H., et al.
2019MNRAS.482.5268Z 63       D     X         2 9 ~ Global constraints on diffusive particle acceleration by strong non-relativistic shocks. ZHANG Y. and LIU S.
2019MNRAS.483.1537B 45           X         1 6 ~ Interplay between physics and geometry in Balmer filaments: the case of SN 1006. BANDIERA R., MORLINO G., KNEZEVIC S., et al.
2019MNRAS.484.1317K 555       D     X C F     11 12 ~ Excluding supersoft X-ray sources as progenitors for four Type Ia supernovae in the Large Magellanic Cloud. KUUTTILA J., GILFANOV M., SEITENZAHL I.R., et al.
2019MNRAS.489.5866S 45           X         1 5 ~ A study of Kepler supernova remnant: angular power spectrum estimation from radio frequency data. SAHA P., BHARADWAJ S., ROY N., et al.
2019PASJ...71...23I 90           X C   *   2 4 ~ Suzaku detection of enigmatic geocoronal solar wind charge exchange event associated with coronal mass ejection. ISHI D., ISHIKAWA K., NUMAZAWA M., et al.
2019PASJ...71...61S 134           X C       2 19 ~ Ionization age of iron ejecta in the Galactic Type Ia supernova remnant G306.3-0.9. SAWADA M., TACHIBANA K., UCHIDA H., et al.
2018ApJ...854...55Y 44           X         1 18 3 Mapping circumstellar matter with polarized light: the case of supernova 2014J in M82. YANG Y., WANG L., BAADE D., et al.
2018ApJ...855L..18M 44           X         1 12 2 Why are peculiar Type Ia supernovae more likely to show the signature of a single-degenerate model? MENG X.-C. and HAN Z.-W.
2018ApJ...862..124R 42 5 No surviving companion in Kepler's supernova. RUIZ-LAPUENTE P., DAMIANI F., BEDIN L., et al.
2018ApJ...862..148H 2742   K A D S   X C       62 11 ~ Constraints on cosmic-ray acceleration efficiency in Balmer shocks of two young Type Ia supernova remnants in the Large Magellanic Cloud. HOVEY L., HUGHES J.P., McCULLY C., et al.
2018ApJ...863..120W 827     A D     X C       19 13 2 Balmer-dominated shocks exclude hot progenitors for many Type Ia supernovae. WOODS T.E., GHAVAMIAN P., BADENES C., et al.
2018ApJ...863..137O 17       D               2 74 ~ X-ray luminosity and size relationship of supernova remnants in the LMC. OU P.-S., CHU Y.-H., MAGGI P., et al.
2018ApJ...865..151M 366       D     X C F     7 26 1 Chandrasekhar and sub-Chandrasekhar models for the X-ray emission of Type Ia supernova remnants. I. Bulk properties. MARTINEZ-RODRIGUEZ H., BADENES C., LEE S.-H., et al.
2018ApJ...867....7S 44           X         1 16 ~ Molecular clouds associated with the Type Ia SNR N103B in the Large Magellanic Cloud. SANO H., YAMANE Y., TOKUDA K., et al.
2018ApJ...868...90T 44           X         1 16 ~ Three-dimensional simulation of double detonations in the double-degenerate model for Type Ia supernovae and interaction of ejecta with a surviving white dwarf companion. TANIKAWA A., NOMOTO K. and NAKASATO N.
2018MNRAS.479.1800R 1463 T K A     X C F     31 10 1 An X-ray expansion and proper motion study of the Magellanic Cloud Supernova Remnant
J0509-6731 with the Chandra X-ray observatory.
ROPER Q., FILIPOVIC M., ALLEN G.E., et al.
2017A&A...597A..65M 85             C       1 34 4 Fe K and ejecta emission in SNR G15.9+0.2 with XMM-Newton. MAGGI P. and ACERO F.
2017A&A...606A..14B 43           X         1 35 10 Binary companions of nearby supernova remnants found with Gaia. BOUBERT D., FRASER M., EVANS N.W., et al.
2017ApJ...837...36L 17       D               1 55 7 Energetics and birth rates of supernova remnants in the Large Magellanic Cloud. LEAHY D.A.
2017ApJ...837..111L 1430 T K A     X C       32 7 1 Nature of the diffuse source and its central point-like source in
SNR 0509-67.5.
LITKE K.C., CHU Y.-H., HOLMES A., et al.
2017ApJ...842..112R 43           X         1 13 2 The light curve and distance of the Kepler supernova: news from four centuries ago. RUIZ-LAPUENTE P.
2017ApJ...847..122G 85           X         2 12 3 Integral field spectroscopy of Balmer-dominated shocks in the Magellanic cloud supernova remnant N103B. GHAVAMIAN P., SEITENZAHL I.R., VOGT F.P.A., et al.
2017ApJS..230....2B 102       D     X         3 112 19 Statistical analysis of supernova remnants in the Large Magellanic Cloud. BOZZETTO L.M., FILIPOVIC M.D., VUKOTIC B., et al.
2017MNRAS.469.4763M 43           X         1 13 8 A common-envelope wind model for Type Ia supernovae - I. Binary evolution and birth rate. MENG X. and PODSIADLOWSKI P.
2017MNRAS.471.3283K 43           X         1 23 6 Dust formation and the binary companions of supernovae. KOCHANEK C.S.
2017RAA....17...83C 85             C       4 6 ~ The surviving companions in type Ia supernova remnants. CHEN L.-Q., MENG X.-C. and HAN Z.-W.
2016A&A...585A.162M viz 268       D     X C       6 102 38 The population of X-ray supernova remnants in the Large Magellanic Cloud. MAGGI P., HABERL F., KAVANAGH P.J., et al.
2016A&A...586A...4K 42         O X         1 28 1 Two evolved supernova remnants with newly identified Fe-rich cores in the Large Magellanic Cloud. KAVANAGH P.J., SASAKI M., BOZZETTO L.M., et al.
2016A&A...586A..71A viz 17       D               1 39 30 Deep view of the Large Magellanic Cloud with six years of Fermi-LAT observations. ACKERMANN M., ALBERT A., ATWOOD W.B., et al.
2016A&A...592A..57S 46           X         1 4 19 Three-dimensional simulations of gravitationally confined detonations compared to observations of SN 1991T. SEITENZAHL I.R., KROMER M., OHLMANN S.T., et al.
2016A&A...592A.158H 42           X         1 13 2 Radiation-driven winds of hot luminous stars. XVIII. The unreliability of stellar and wind parameter determinations from optical vs. UV spectral analysis of selected central stars of planetary nebulae and the possibility of some CSPNs as single-star supernova Ia progenitors. HOFFMANN T.L., PAULDRACH A.W.A. and KASCHINSKI C.B.
2016ApJ...820...92M 48           X         1 11 66 SN∼2012cg: evidence for interaction between a normal Type Ia supernova and a non-degenerate binary companion. MARION G.H., BROWN P.J., VINKO J., et al.
2016ApJ...821...20K 42           X         1 30 4 Infrared supernova remnants and their infrared-to-X-ray flux ratios. KOO B.-C., LEE J.-J., JEONG I.-G., et al.
2016ApJ...823...43T 17       D               1 42 1 Measurements of the soft gamma-ray emission from SN2014J with Suzaku. TERADA Y., MAEDA K., FUKAZAWA Y., et al.
2016ApJ...826..211Z 42           X         1 88 7 The oxygen features in type Ia supernovae and implications for the nature of thermonuclear explosions. ZHAO X., MAEDA K., WANG X., et al.
2016ApJ...827....1S 62           X         1 2 40 BAHAMAS: new analysis of Type Ia supernovae reveals inconsistencies with standard cosmology. SHARIFF H., JIAO X., TROTTA R., et al.
2016PASJ...68...11N 611     A     X         15 3 3 On the brightness of surviving companions in type Ia supernova remnants. NODA K., SUDA T. and SHIGEYAMA T.
2015ApJ...799...50L 16       D               4 71 27 The influence of supernova remnants on the interstellar medium in the Large Magellanic Cloud seen at 20-600 µm wavelengths. LAKICEVIC M., VAN LOON J.Th., MEIXNER M., et al.
2015ApJ...799..101P 165           X         4 11 6 Investigation of the progenitors of the Type Ia supernovae associated with the LMC supernova remnants 0505-67.9 and 0509-68.7. PAGNOTTA A. and SCHAEFER B.E.
2015ApJ...799..158T 16       D               2 97 26 Dust destruction rates and lifetimes in the Magellanic Clouds. TEMIM T., DWEK E., TCHERNYSHYOV K., et al.
2015ApJ...800...28Z 189     A     X         5 4 1 Resonant amplification of turbulence by the blast waves. ZANKOVICH A.M. and KOVALENKO I.G.
2015ApJ...803...98S 83           X         2 5 8 On cosmic-ray production efficiency at supernova remnant shocks propagating into realistic diffuse interstellar medium. SHIMODA J., INOUE T., OHIRA Y., et al.
2015ApJ...805..142L 41           X         1 6 1 Reverse-shock in Tycho's supernova remnant. LU F.J., GE M.Y., ZHENG S.J., et al.
2015ApJ...805..150F 166           X         4 18 18 Single-degenerate type Ia supernovae are preferentially overluminous. FISHER R. and JUMPER K.
2015ApJ...807...40T 50           X         1 4 36 Hydrodynamical evolution of merging carbon-oxygen white dwarfs: their pre-supernova structure and observational counterparts. TANIKAWA A., NAKASATO N., SATO Y., et al.
2015ApJ...807..100S 222       D     X C       5 52 6 Dust cooling in supernova remnants in the Large Magellanic Cloud. SEOK J.Y., KOO B.-C. and HIRASHITA H.
2015ApJ...808...49K 2100     A D     X C       51 18 22 Kepler's supernova: an overluminous Type Ia event interacting with a massive circumstellar medium at a very late phase. KATSUDA S., MORI K., MAEDA K., et al.
2015ApJ...809..119H 2042 T K A S   X C       47 4 6 A direct measurement of the forward shock speed in supernova remnant
0509-67.5: constraints on the age, ambient density, shock compression factor, and electron-ion temperature equilibration.
HOVEY L., HUGHES J.P. and ERIKSEN K.
2015ApJ...809..183X 82           X         2 35 10 Newly determined explosion center of Tycho's supernova and the implications for proposed ex-companion stars of the progenitor. XUE Z. and SCHAEFER B.E.
2015ApJS..220...20Z viz 41           X         1 209 14 The silicon and calcium high-velocity features in Type Ia supernovae from early to maximum phases. ZHAO X., WANG X., MAEDA K., et al.
2015MNRAS.447.2568T 83               F     1 20 32 The fraction of Type Ia supernovae exploding inside planetary nebulae (SNIPs). TSEBRENKO D. and SOKER N.
2015MNRAS.447.2803L 43           X         1 8 23 Constraining the double-degenerate scenario for Type Ia supernovae from merger ejected matter. LEVANON N., SOKER N. and GARCIA-BERRO E.
2015MNRAS.449.1441K 1013   K A     X C       24 7 2 Oxygen emission in remnants of thermonuclear supernovae as a probe for their progenitor system. KOSENKO D., HILLEBRANDT W., KROMER M., et al.
2015MNRAS.453.3953L 43           X         1 4 10 XMM-Newton large program on SN1006 - I. Methods and initial results of spatially resolved spectroscopy. LI J.-T., DECOURCHELLE A., MICELI M., et al.
2015MNRAS.454..991R 16       D               1 9 3 Optical discovery and multiwavelength investigation of supernova remnant MCSNR J0512- 6707 in the Large Magellanic Cloud. REID W.A., STUPAR M., BOZZETTO L.M., et al.
2015Natur.519...63S 2 13 34 The double-degenerate, super-Chandrasekhar nucleus of the planetary nebula Henize 2-428. SANTANDER-GARCIA M., RODRIGUEZ-GIL P., CORRADI R.L.M., et al.
2014A&A...561A..76M 41           X         1 30 18 Four new X-ray-selected supernova remnants in the Large Magellanic Cloud. MAGGI P., HABERL F., KAVANAGH P.J., et al.
2014A&A...562A.141M 45           X         1 3 14 Cosmic ray acceleration and Balmer emission from RCW 86 (G315.4 - 2.3). MORLINO G., BLASI P., BANDIERA R., et al.
2014ARA&A..52..107M 212           X C       4 49 478 Observational clues to the progenitors of type Ia supernovae. MAOZ D., MANNUCCI F. and NELEMANS G.
2014ApJ...780...80A 41           X         1 11 9 Wind-driven evolution of white dwarf binaries to Type Ia supernovae. ABLIMIT I., XU X.-J. and LI X.-D.
2014ApJ...785L..27Y 98       D       C       2 35 65 Discriminating the progenitor type of supernova remnants with iron K-shell emission. YAMAGUCHI H., BADENES C., PETRE R., et al.
2014ApJ...787...29B viz 24     A               1 26 24 Ultraviolet observations of Super-Chandrasekhar mass Type Ia supernova candidates with Swift UVOT. BROWN P.J., KUIN P., SCALZO R., et al.
2014ApJ...788....5L 81             C       1 28 13 Identification of a jet-driven supernova remnant in the Small Magellanic Cloud: possible evidence for the enhancement of bipolar explosions at low metallicity. LOPEZ L.A., CASTRO D., SLANE P.O., et al.
2014ApJ...788..173P 594 T K A     X C       13 4 6 The diffuse source at the center of LMC
SNR 0509-67.5 is a background galaxy at z = 0.031.
PAGNOTTA A., WALKER E.S. and SCHAEFER B.E.
2014ApJ...790...11L 246       S   X         5 4 8 Electron heating, magnetic field amplification, and cosmic-ray precursor length at supernova remnant shocks. LAMING J.M., HWANG U., GHAVAMIAN P., et al.
2014ApJ...790..139W 301       D     X         8 16 14 Spitzer observations of the Type Ia supernova remnant N103B: Kepler's older cousin? WILLIAMS B.J., BORKOWSKI K.J., REYNOLDS S.P., et al.
2014ApJ...790L..18B 43           X         1 5 13 Nonuniform expansion of the youngest galactic supernova remnant G1.9+0.3. BORKOWSKI K.J., REYNOLDS S.P., GREEN D.A., et al.
2014ApJ...792...71P 260   K   D     X         7 38 18 Search for surviving companions in type Ia supernova remnants. PAN K.-C., RICKER P.M. and TAAM R.E.
2014ApJS..213...10W 41           X         1 58 17 On the progenitors of local group novae. I. The M31 catalog. WILLIAMS S.C., DARNLEY M.J., BODE M.F., et al.
2014MNRAS.439..354B viz 41           X         1 30 23 Improved Hubble Space Telescope proper motions for Tycho-G and other stars in the remnant of Tycho's Supernova 1572. BEDIN L.R., RUIZ-LAPUENTE P., GONZALEZ HERNANDEZ J.I., et al.
2014MNRAS.440.3220B 1097 T   A D     X C       26 14 11 Radio-continuum study of Large Magellanic Cloud supernova remnant
J0509-6731.
BOZZETTO L.M., FILIPOVIC M.D., UROSEVIC D., et al.
2014MNRAS.443.1390K 513   K A     X C F     11 5 7 Parametric studies of cosmic ray acceleration in supernova remnants. KOSENKO D., FERRAND G. and DECOURCHELLE A.
2014MNRAS.444.2910M 16       D               3 59 11 Comparing supernova remnants around strongly magnetized and canonical pulsars. MARTIN J., REA N., TORRES D.F., et al.
2013A&A...552A..97I 42           X         1 8 19 Observation of SN 2011fe with INTEGRAL. I. Pre-maximum phase. ISERN J., JEAN P., BRAVO E., et al.
2013A&A...557A.142M 669 T   A     X C       15 4 14 Cosmic ray acceleration and Balmer emission from
SNR
0509-67.5
.
MORLINO G., BLASI P., BANDIERA R., et al.
2013A&A...558A..25M 125           X         3 3 17 Broad Balmer line emission and cosmic ray acceleration efficiency in supernova remnant shocks. MORLINO G., BLASI P., BANDIERA R., et al.
2013A&ARv..21...70B 375           X C       8 10 144 The origin of galactic cosmic rays. BLASI P.
2013ApJ...762...75W 41           X         1 5 6 Self-shielding of soft x-rays in type Ia supernova progenitors. WHEELER J.C. and POOLEY D.
2013ApJ...765..150S 227     A S   X         5 20 47 Type Ia single degenerate survivors must Be overluminous. SHAPPEE B.J., KOCHANEK C.S. and STANEK K.Z.
2013ApJ...767...45S 41           X         1 14 18 Asymmetry in the outburst of SN 1987A detected using light echo spectroscopy. SINNOTT B., WELCH D.L., REST A., et al.
2013ApJ...768..148M 52           X         1 3 37 Collisionless shocks in a partially ionized medium. III. Efficient cosmic ray acceleration. MORLINO G., BLASI P., BANDIERA R., et al.
2013ApJ...771...56U 81           X         2 14 21 Asymmetric ejecta distribution in SN 1006. UCHIDA H., YAMAGUCHI H. and KOYAMA K.
2013ApJ...771L..38P 16       D               1 17 10 Constraining explosion type of young supernova remnants using 24 µm emission morphology. PETERS C.L., LOPEZ L.A., RAMIREZ-RUIZ E., et al.
2013ApJ...774...37L 51           X         1 3 34 The impact of type Ia supernova explosions on helium companions in the Chandrasekhar-mass explosion scenario. LIU Z.-W., PAKMOR R., SEITENZAHL I.R., et al.
2013ApJ...778L..35M 229     A S   X         5 3 13 Constraining the spin-down timescale of the white dwarf progenitors of type Ia supernovae. MENG X. and PODSIADLOWSKI P.
2013ApJ...779..134S 217       D     X C       5 81 15 A survey of infrared supernova remnants in the Large Magellanic Cloud. SEOK J.Y., KOO B.-C. and ONAKA T.
2013MNRAS.430.1746G viz 40           X         1 218 62 Discovery of 90 Type Ia supernovae among 700 000 Sloan spectra: the Type Ia supernova rate versus galaxy mass and star formation rate at redshift ∼ 0.1. GRAUR O. and MAOZ D.
2013MNRAS.433.2884I 43           X         1 8 28 The fate of a WD accreting H-rich material at high accretion rates. IDAN I., SHAVIV N.J. and SHAVIV G.
2013MNRAS.435..329L 40           X         1 34 30 Hydrogen and helium in the spectra of Type Ia supernovae. LUNDQVIST P., MATTILA S., SOLLERMAN J., et al.
2013MNRAS.435..910H 44           X         1 6 24 Proper motions of Hα filaments in the supernova remnant RCW 86. HELDER E.A., VINK J., BAMBA A., et al.
2013RAA....13..435O 80           X         2 18 10 Quark-novae in neutron star - white dwarf binaries: a model for luminous (spin-down powered) sub-Chandrasekhar-mass type Ia supernovae ? OUYED R. and STAFF J.
2012A&A...548A...2L 43           X         1 9 60 Three-dimensional simulations of the interaction between type Ia supernova ejecta and their main sequence companions. LIU Z.W., PAKMOR R., ROEPKE F.K., et al.
2012A&ARv..20...49V 373       D     X C       9 102 203 Supernova remnants: the X-ray perspective. VINK J.
2012ApJ...747L..19E viz 241           X         6 6 41 The progenitor of the type Ia supernova that created SNR 0519-69.0 in the Large Magellanic Cloud. EDWARDS Z.I., PAGNOTTA A. and SCHAEFER B.E.
2012ApJ...750..164C 43           X         1 16 126 EVLA observations constrain the environment and progenitor system of type Ia supernova 2011fe. CHOMIUK L., SODERBERG A.M., MOE M., et al.
2012ApJ...751..134M 42           X         1 18 77 Inverse Compton X-ray emission from supernovae with compact progenitors: application to SN2011fe. MARGUTTI R., SODERBERG A.M., CHOMIUK L., et al.
2012ApJ...755L...9C 41           X         1 7 20 Some constraints on the lower mass limit for double-degenerate progenitors of type Ia supernovae. CHEN X., JEFFERY C.S., ZHANG X., et al.
2012ApJ...756....6P 25     A               1 13 29 The origin of Kepler's supernova remnant. PATNAUDE D.J., BADENES C., PARK S., et al.
2012ApJ...756L...4H 80           X         2 12 33 Final fates of rotating white dwarfs and their companions in the single degenerate model of type Ia supernovae. HACHISU I., KATO M. and NOMOTO K.
2012ApJ...757...12S 41           X         1 18 46 A search for new candidate super-chandrasekhar-mass type Ia supernovae in the nearby supernova factory data set. SCALZO R., ALDERING G., ANTILOGUS P., et al.
2012ApJ...758..123W 145     A     X         4 7 39 White Dwarf/M dwarf binaries as single degenerate progenitors of type Ia supernovae. WHEELER J.C.
2012ApJ...759...56D 859     A S   X C       20 9 33 The absence of ex-companions in type Ia supernova remnants. DI STEFANO R. and KILIC M.
2012ApJ...760L..38T 40           X         1 5 9 Diversity of type Ia supernovae imprinted in chemical abundances. TSUJIMOTO T. and SHIGEYAMA T.
2012MmSAI..83...97S 40           X         1 43 1 XMM-Newton highlights. SCHARTEL N.
2012Natur.481..149R 4 3 Progenitors of type Ia supernovae. RUIZ-LAPUENTE P.
2012Natur.481..164S 279 T   A     X   F     5 5 173 An absence of ex-companion stars in the type Ia supernova remnant
SNR 0509-67.5.
SCHAEFER B.E. and PAGNOTTA A.
2012Natur.482..375R 94 50 Light echoes reveal an unexpectedly cool η-Carinae during its nineteenth-century Great Eruption. REST A., PRIETO J.L., WALBORN N.R., et al.
2012Natur.489..533G 4 6 54 No surviving evolved companions of the progenitor of SN 1006. GONZALEZ HERNANDEZ J.I., RUIZ-LAPUENTE P., TABERNERO H.M., et al.
2012NewAR..56..122W 80           X         2 61 190 Progenitors of type Ia supernovae. WANG B. and HAN Z.
2012PASA...29..466R 238           X C       5 32 15 Light echoes of transients and variables in the Local Universe. REST A., SINNOTT B. and WELCH D.L.
2012RPPh...75c6901S 40           X         1 27 27 The impact of recent advances in laboratory astrophysics on our understanding of the cosmos. SAVIN D.W., BRICKHOUSE N.S., COWAN J.J., et al.
2012SerAJ.185...25B 103     A     X         3 8 11 Radio-continuum observations of small radially polarised supernova remnant J0519-6902 in the Large Magellanic cloud. BOZZETTO L.M., FILIPOVIC M.D., UROSEVIC D., et al.
2011A&A...531A..15G 39           X         1 12 11 The metal contents of two groups of galaxies. GRANGE Y.G., DE PLAA J., KAASTRA J.S., et al.
2011AJ....141..129H viz 16       D               2 339 38 TGCat: the Chandra Transmission Grating Data Catalog and Archive. HUENEMOERDER D.P., MITSCHANG A., DEWEY D., et al.
2011ApJ...726..106K 39           X         1 18 16 Pre-discovery and follow-up observations of the nearby SN 2009nr: implications for prompt type Ia supernovae. KHAN R., PRIETO J.L., POJMANSKI G., et al.
2011ApJ...729...65W 2715     A D S   X C       68 10 23 Dusty blast waves of two young Large Magellanic Cloud supernova remnants: constraints on post-shock compression. WILLIAMS B.J., BORKOWSKI K.J., REYNOLDS S.P., et al.
2011ApJ...731L..14R 41           X         1 5 27 Effects of neutral hydrogen on cosmic-ray precursors in supernova remnant shock waves. RAYMOND J.C., VINK J., HELDER E.A., et al.
2011ApJ...732....2R 79           X         2 9 17 On the interpretation of supernova light echo profiles and spectra. REST A., SINNOTT B., WELCH D.L., et al.
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