pith. sign in

L. Galbany

Identifiers

  • name variant L. Galbany 0.60 · backfill

Papers (200)

  1. Decoding the Early-Time Light Curves of Type Ia Supernovae. II. Population Parameters of One Thousand ZTF Supernovae astro-ph.HE · 2026 · author #7
  2. JWST Medium-Resolution Infrared Spectroscopy of SN 2022acko: Tracing Molecule Formation in the Nebular Phase astro-ph.HE · 2026 · author #17
  3. Probing a new subclass of llGRB-SN transients: Insights from EP250304a and its associated supernova astro-ph.HE · 2026 · author #34
  4. Constraints on Dynamical Dark Energy from Multiple Probes in the Full Dark Energy Survey astro-ph.CO · 2026 · author #62
  5. The transitional Type Ibn/IIn SN 2022pda, with pre-explosion outbursts and a double-peaked light curve astro-ph.HE · 2026 · author #61
  6. Detection of persistent helium absorption in the 91bg-like type Ia Supernova 2022an astro-ph.HE · 2026 · author #11
  7. Nested, asymmetric H-He circumstellar shells in the Type Icn/Ibn SN 2024abvb astro-ph.SR · 2026 · author #6
  8. ZTF-SEDm Type Ia supernova sample for Twins Embedding spectrophotometric standardisation astro-ph.CO · 2025 · author #14
  9. The broad-lined type Ic supernova 2020lao experienced an energetic explosion with no central-engine signatures astro-ph.HE · 2025 · author #9
  10. The Dark Energy Survey Supernova Program: A Reanalysis Of Cosmology Results And Evidence For Evolving Dark Energy With An Updated Type Ia Supernova Calibration astro-ph.CO · 2025 · author #18
  11. Data Release 1 of the Dark Energy Spectroscopic Instrument astro-ph.CO · 2025 · author #96
  12. The Dark Energy Survey: Cosmology Results With ~1500 New High-redshift Type Ia Supernovae Using The Full 5-year Dataset astro-ph.CO · 2024 · author #60
  13. SN 2021gno: a Calcium-rich transient with double-peaked light curves astro-ph.HE · 2023 · author #13
  14. Keck Infrared Transient Survey I: Survey Description and Data Release 1 astro-ph.SR · 2023 · author #11
  15. SN 2022joj: A Potential Double Detonation with a Thin Helium shell astro-ph.HE · 2023 · author #21
  16. Unprecedented early flux excess in the hybrid 02es-like type Ia supernova 2022ywc indicates interaction with circumstellar material astro-ph.HE · 2023 · author #9
  17. AT2022aedm and a new class of luminous, fast-cooling transients in elliptical galaxies astro-ph.HE · 2023 · author #23
  18. No plateau observed in late-time near-infrared observations of the underluminous Type Ia supernova 2021qvv astro-ph.HE · 2023 · author #6
  19. Broad-emission-line dominated hydrogen-rich luminous supernovae astro-ph.HE · 2023 · author #12
  20. The pursuit of the Hubble Constant using Type II Supernovae astro-ph.CO · 2023 · author #2
  21. The Calar Alto Legacy Integral Field Area Survey: spatial resolved properties astro-ph.GA · 2023 · author #3
  22. The Calar Alto Legacy Integral Field Area Survey: extended and remastered data release astro-ph.GA · 2023 · author #2
  23. The Dark Energy Survey Supernova Program: Corrections on photometry due to wavelength-dependent atmospheric effects astro-ph.CO · 2023 · author #12
  24. Photometric study of the late-time near-infrared plateau in Type Ia supernovae astro-ph.HE · 2023 · author #9
  25. Photometry and spectroscopy of the Type Icn supernova 2021ckj: The diverse properties of the ejecta and circumstellar matter of Type Icn SNe astro-ph.HE · 2023 · author #14
  26. Multiwavelength observations of the extraordinary accretion event AT2021lwx astro-ph.HE · 2023 · author #21
  27. The Carnegie Supernova Project-I. Spectroscopic analysis of stripped-envelope supernovae astro-ph.HE · 2023 · author #8
  28. Rates and properties of type Ia supernovae in galaxy clusters within the Dark Energy Survey astro-ph.HE · 2023 · author #9
  29. Serendipitous Nebular-phase JWST Imaging of SN Ia 2021aefx: Testing the Confinement of 56-Co Decay Energy astro-ph.GA · 2023 · author #16
  30. JWST Low-Resolution MIRI Spectral Observations of SN~2021aefx: High-density Burning in a Type Ia Supernova astro-ph.HE · 2023 · author #17
  31. SN 2021fxy: Mid-Ultraviolet Flux Suppression is a Common Feature of Type Ia Supernovae astro-ph.HE · 2022 · author #20
  32. The local and global relations between $\Sigma_\star$ , $\Sigma_{\rm SFR}$ and $\Sigma_{\rm mol}$ that regulate star-formation astro-ph.GA · 2022 · author #4
  33. Sociology and hierarchy of voids: A study of seven nearby CAVITY galaxy voids and their dynamical CosmicFlows-3 environment astro-ph.CO · 2022 · author #8
  34. Stellar Populations in type Ia supernova host galaxies at intermediate-high redshift: Star formation and metallicity enrichment histories astro-ph.GA · 2022 · author #4
  35. The Absolute Magnitudes of 1991T-like Supernovae astro-ph.HE · 2022 · author #5
  36. SALT3-NIR: Taking the Open-Source Type Ia Supernova Model to Longer Wavelengths for Next-Generation Cosmological Measurements astro-ph.CO · 2022 · author #19
  37. Panning for gold, but finding helium: discovery of the ultra-stripped supernova SN2019wxt from gravitational-wave follow-up observations astro-ph.HE · 2022 · author #30
  38. Panchromatic evolution of three luminous red novae: Forbidden hugs in pandemic times -- IV astro-ph.SR · 2022 · author #25
  39. Concerning Colour: The Effect of Environment on Type Ia Supernova Colour in the Dark Energy Survey astro-ph.CO · 2022 · author #10
  40. Core-collapse Supernovae in the Dark Energy Survey: Luminosity Functions and Host Galaxy Demographics astro-ph.HE · 2022 · author #6
  41. Exploring stellar and ionized gas non--circular motions in barred galaxies with MUSE astro-ph.GA · 2022 · author #7
  42. Examining the Properties of Low-Luminosity Hosts of Type Ia Supernovae from ASAS-SN astro-ph.GA · 2022 · author #4
  43. A galaxy-driven model of type Ia supernova luminosity variations astro-ph.GA · 2022 · author #10
  44. Testing the Homogeneity of Type Ia Supernovae in the Near-Infrared for Accurate Distance Estimations astro-ph.CO · 2022 · author #2
  45. Observations of the luminous red nova AT 2021biy in the nearby galaxy NGC 4631 astro-ph.SR · 2022 · author #66
  46. Using Host Galaxy Spectroscopy to Explore Systematics in the Standardisation of Type Ia Supernovae astro-ph.CO · 2022 · author #9
  47. Evaluating and Optimizing a Slitless Prism for Nancy Grace Roman Space Telescope SN Cosmology astro-ph.CO · 2022 · author #9
  48. A Speed Bump: SN 2021aefx Shows that Doppler Shift Alone can Explain Early-Excess Blue Flux in Some Type Ia Supernovae astro-ph.HE · 2022 · author #14
  49. pyHIIextractor: A tool to detect and extract physical properties of HII regions from Integral Field Spectroscopic data astro-ph.GA · 2022 · author #5
  50. A 5% measurement of the Hubble constant from Type II supernovae astro-ph.CO · 2022 · author #2
  51. Low luminosity Type II supernovae -- IV. SN 2020cxd and SN 2021aai, at the edges of the sub-luminous supernovae class astro-ph.SR · 2022 · author #12
  52. Type II supernovae from the Carnegie Supernova Project-I. III. Understanding SN II diversity through correlations between physical and observed properties astro-ph.SR · 2022 · author #15
  53. Measuring Cosmological Parameters with Type Ia Supernovae in redMaGiC galaxies astro-ph.CO · 2022 · author #11
  54. HII regions in CALIFA survey: II. The relation between their physical properties and galaxy evolution astro-ph.GA · 2022 · author #5
  55. Systematic errors on optical-SED stellar mass estimates for galaxies across cosmic time and their impact on cosmology astro-ph.CO · 2022 · author #3
  56. SN 2018bsz: a Type I superluminous supernova with aspherical circumstellar material astro-ph.HE · 2022 · author #15
  57. The Dark Energy Survey 5-year photometrically identified Type Ia Supernovae astro-ph.CO · 2022 · author #13
  58. Nebular-Phase Spectra of Type Ia Supernovae from the Las Cumbres Observatory Global Supernova Project astro-ph.HE · 2022 · author #7
  59. Cosmological Results from the RAISIN Survey: Using Type Ia Supernovae in the Near Infrared as a Novel Path to Measure the Dark Energy Equation of State astro-ph.CO · 2022 · author #17
  60. SN 2020acat: A purr-fect example of a fast rising Type IIb Supernova astro-ph.HE · 2022 · author #14
  61. Carnegie Supernova Project: kinky $i$-band light-curves of Type Ia supernovae astro-ph.CO · 2021 · author #7
  62. The Dark Energy Survey Supernova Program: Cosmological biases from supernova photometric classification astro-ph.CO · 2021 · author #11
  63. A Virgo Environmental Survey Tracing Ionised Gas Emission (VESTIGE).XII. Ionised gas emission in the inner regions of lenticular galaxies astro-ph.GA · 2021 · author #17
  64. Type II supernovae from the Carnegie Supernova Project-I. II. Physical parameter distributions from hydrodynamical modelling astro-ph.SR · 2021 · author #16
  65. Type II supernovae from the Carnegie Supernova Project-I. I. Bolometric light curves of 74 SNe II using uBgVriYJH photometry astro-ph.SR · 2021 · author #15
  66. Signatures of AGN induced metal loss in the stellar population astro-ph.GA · 2021 · author #7
  67. A Reference Survey for Supernova Cosmology with the Nancy Grace Roman Space Telescope astro-ph.CO · 2021 · author #13
  68. Carnegie Supernova Project-II: Near-infrared Spectroscopy of Stripped-Envelope Core-Collapse Supernovae astro-ph.HE · 2021 · author #15
  69. A Tale of Two Type Ia Supernovae: The fast-declining siblings SNe 2015bo and 1997cn astro-ph.HE · 2021 · author #3
  70. Transitional events in the spectrophotometric regime between stripped envelope and superluminous supernovae astro-ph.HE · 2021 · author #7
  71. SN 2018bsz: significant dust formation in a nearby superluminous supernova astro-ph.HE · 2021 · author #32
  72. Measuring an off-Center Detonation through Infrared Line Profiles: The peculiar Type Ia Supernova SN~2020qxp/ASASSN-20jq astro-ph.SR · 2021 · author #14
  73. A detailed spectroscopic study of Tidal Disruption Events astro-ph.HE · 2021 · author #13
  74. Circumstellar Medium Constraints on the Environment of Two Nearby Type Ia Supernovae: SN 2017cbv and SN 2020nlb astro-ph.HE · 2021 · author #15
  75. SN 2021csp -- the explosion of a stripped envelope star within a H and He-poor circumstellar medium astro-ph.SR · 2021 · author #13
  76. SN2017jgh - A high-cadence complete shock cooling lightcurve of a SN IIb with the Kepler telescope astro-ph.HE · 2021 · author #50
  77. Intermediate-luminosity red transients: Spectrophotometric properties and connection to electron-capture supernova explosions astro-ph.HE · 2021 · author #41
  78. ASASSN-15hy: an under-luminous, red 03fg-like type Ia supernova astro-ph.HE · 2021 · author #5
  79. Carnegie Supernova Project: The First Homogeneous Sample of "Super-Chandrasekhar Mass"/2003fg-like Type Ia Supernova astro-ph.SR · 2021 · author #6
  80. SN 2020cpg: an energetic link between type IIb and Ib supernovae astro-ph.HE · 2021 · author #10
  81. [$\alpha$/Fe] traced by H ii regions from the CALIFA survey: The connection between morphology and chemical abundance patterns astro-ph.GA · 2021 · author #9
  82. Rates and delay times of type Ia supernovae in the Dark Energy Survey astro-ph.GA · 2021 · author #11
  83. The double-peaked type Ic Supernova 2019cad: another SN 2005bf-like object astro-ph.HE · 2021 · author #19
  84. Understanding the extreme luminosity of DES14X2fna astro-ph.HE · 2021 · author #8
  85. Core-collapse supernova subtypes in luminous infrared galaxies astro-ph.SR · 2021 · author #29
  86. Progenitor, environment, and modelling of the interacting transient, AT 2016jbu (Gaia16cfr) astro-ph.HE · 2021 · author #34
  87. Photometric and spectroscopic evolution of the interacting transient AT 2016jbu (Gaia16cfr) astro-ph.SR · 2021 · author #35
  88. SN 2013ai: a link between hydrogen-rich and hydrogen-poor core-collapse supernovae astro-ph.HE · 2021 · author #22
  89. J-PLUS: The star formation main sequence and rate density at d < 75 Mpc astro-ph.GA · 2021 · author #13
  90. Results of the Photometric LSST Astronomical Time-series Classification Challenge (PLAsTiCC) astro-ph.IM · 2020 · author #10
  91. A Virgo Environmental Survey Tracing Ionised Gas Emission (VESTIGE).IX. The effects of ram pressure stripping down to the scale of individual HII regions in the dwarf galaxy IC 3476 astro-ph.GA · 2020 · author #13
  92. The Dark Energy Survey Supernova Program: Modelling selection efficiency and observed core collapse supernova contamination astro-ph.CO · 2020 · author #7
  93. Strong Near-Infrared Carbon Absorption in the Transitional Type Ia SN 2015bp astro-ph.HE · 2020 · author #8
  94. An Amusing Look at the Host of the Periodic Nuclear Transient ASASSN-14ko Reveals a Second AGN astro-ph.GA · 2020 · author #9
  95. Evolution of the chemical enrichment and the Mass-Metallicity relation in CALIFA galaxies astro-ph.GA · 2020 · author #7
  96. Supernova 2018cuf: A Type IIP supernova with a slow fall from plateau astro-ph.HE · 2020 · author #6
  97. Near-Infrared and Optical Observations of Type Ic SN2020oi and broad-lined Ic SN2020bvc: Carbon Monoxide, Dust and High-Velocity Supernova Ejecta astro-ph.SR · 2020 · author #24
  98. The effects of varying colour-luminosity relations on supernova science astro-ph.CO · 2020 · author #3
  99. SN 2018gjx reveals that some SNe Ibn are SNe IIb exploding in dense circumstellar material astro-ph.HE · 2020 · author #12
  100. The Effect of Environment on Type Ia Supernovae in the Dark Energy Survey Three-Year Cosmological Sample astro-ph.CO · 2020 · author #8
  101. SN 2017ivv: two years of evolution of a transitional Type II supernova astro-ph.HE · 2020 · author #4
  102. The early discovery of SN 2017ahn: signatures of persistent interaction in a fast declining Type II supernova astro-ph.HE · 2020 · author #13
  103. Carnegie Supernova Project II: The slowest rising Type Ia supernova LSQ14fmg and clues to the origin of super-Chandrasekhar/03fg-like events astro-ph.HE · 2020 · author #8
  104. The Exotic Type Ic Broad-Lined Supernova SN 2018gep: Blurring the Line Between Supernovae and Fast Optical Transients astro-ph.HE · 2020 · author #11
  105. The Carnegie Supernova Project II. Observations of SN 2014ab possibly revealing a 2010jl-like SN IIn with pre-existing dust astro-ph.HE · 2020 · author #16
  106. An outflow powers the optical rise of the nearby, fast-evolving tidal disruption event AT2019qiz astro-ph.HE · 2020 · author #31
  107. A measurement of the Hubble constant from Type II supernovae astro-ph.CO · 2020 · author #6
  108. OzDES multi-object fibre spectroscopy for the Dark Energy Survey: Results and second data release astro-ph.CO · 2020 · author #14
  109. Studying Type II supernovae as cosmological standard candles using the Dark Energy Survey astro-ph.HE · 2020 · author #2
  110. The Host Galaxies of Rapidly Evolving Transients in the Dark Energy Survey astro-ph.GA · 2020 · author #6
  111. A Blast from the Pasture: Studying the environment of AT 2018cow with MUSE astro-ph.GA · 2020 · author #2
  112. The Carnegie Supernova Project II. Observations of the intermediate luminosity red transient SNhunt120 astro-ph.HE · 2020 · author #8
  113. The Carnegie Supernova Project II. Observations of the luminous red nova AT 2014ej astro-ph.HE · 2020 · author #7
  114. The first Hubble diagram and cosmological constraints using superluminous supernova astro-ph.CO · 2020 · author #15
  115. Carnegie Supernova Project-II: A new method to photometrically identify sub-types of extreme Type Ia Supernovae astro-ph.HE · 2020 · author #11
  116. HII regions in the CALIFA survey: I. Catalog presentation astro-ph.GA · 2020 · author #5
  117. The Tidal Disruption Event AT 2018hyz I: Double-peaked emission lines and a flat Balmer decrement astro-ph.GA · 2020 · author #16
  118. Observational constraints on the optical and near-infrared emission from the neutron star-black hole binary merger S190814bv astro-ph.SR · 2020 · author #40
  119. Supernova Siblings: Assessing the Consistency of Properties of Type Ia Supernovae that Share the Same Parent Galaxies astro-ph.GA · 2020 · author #9
  120. DES16C3cje: A low-luminosity, long-lived supernova hep-ph · 2020 · author #10
  121. First Cosmology Results using Type Ia Supernovae from the Dark Energy Survey: The Effect of Host Galaxy Properties on Supernova Luminosity astro-ph.CO · 2020 · author #11
  122. Supernova Host Galaxies in the Dark Energy Survey: I. Deep Coadds, Photometry, and Stellar Masses astro-ph.GA · 2020 · author #13
  123. Galaxies hosting an AGN: a view from the CALIFA survey astro-ph.GA · 2019 · author #6
  124. J-PLUS: Tools to identify compact planetary nebulae in the Javalambre and southern photometric local universe surveys astro-ph.GA · 2019 · author #28
  125. Initial Evaluation of SNEMO2 and SNEMO7 Standardization Derived From Current Light Curves of Type Ia Supernovae astro-ph.CO · 2019 · author #8
  126. The Mystery of Photometric Twins DES17X1boj and DES16E2bjy astro-ph.HE · 2019 · author #11
  127. The Carnegie Supernova Project II. Early observations and progenitor constraints of the Type Ib supernova LSQ13abf astro-ph.HE · 2019 · author #17
  128. The CALIFA view on stellar angular momentum across the Hubble sequence astro-ph.GA · 2019 · author #17
  129. SN 2016gsd: An unusually luminous and linear type II supernova with high velocities astro-ph.HE · 2019 · author #9
  130. Discovery and Rapid Follow-up Observations of the Unusual Type II SN 2018ivc in NGC 1068 astro-ph.HE · 2019 · author #6
  131. The rise and fall of an extraordinary Ca-rich transient -- The discovery of ATLAS19dqr/SN 2019bkc astro-ph.HE · 2019 · author #12
  132. The 50-100pc scale parent stellar populations of type II supernovae and limitations of single star evolution models astro-ph.SR · 2019 · author #5
  133. J-PLUS: the impact of bars on quenching time-scales in nearby green valley disc galaxies astro-ph.GA · 2019 · author #25
  134. SN 2017gmr: An energetic Type II-P supernova with asymmetries astro-ph.HE · 2019 · author #31
  135. ASASSN-15pz: Revealing Significant Photometric Diversity among 2009dc-like, Peculiar SNe Ia astro-ph.HE · 2019 · author #14
  136. A Physical Basis for the H-band Blue-edge Velocity and Light-Curve Shape Correlation in Context of Type Ia Supernova Explosion Physics astro-ph.HE · 2019 · author #11
  137. Models and Simulations for the Photometric LSST Astronomical Time Series Classification Challenge (PLAsTiCC) astro-ph.HE · 2019 · author #13
  138. Uncertainties in gas kinematics arising from stellar continuum modelling in integral field spectroscopy data: the case of NGC2906 observed with MUSE/VLT astro-ph.GA · 2019 · author #3
  139. Nebular Spectra of 111 Type Ia Supernovae Disfavor Single Degenerate Progenitors astro-ph.HE · 2019 · author #10
  140. Nebular H$\alpha$ Limits for Fast Declining Type Ia Supernovae astro-ph.GA · 2019 · author #9
  141. On the nature of the unusual transient AT 2018cow from HI observations of its host galaxy astro-ph.HE · 2019 · author #7
  142. Carnegie Supernova Project-II: Using Near-Infrared Spectroscopy to determine the location of the outer $^{56}$Ni in Type Ia Supernovae astro-ph.HE · 2019 · author #12
  143. Superluminous Supernovae from the Dark Energy Survey astro-ph.HE · 2018 · author #9
  144. Investigating the properties of stripped-envelope supernovae, what are the implications for their progenitors? astro-ph.HE · 2018 · author #15
  145. LSST Observing Strategy White Paper: LSST Observations of WFIRST Deep Fields astro-ph.IM · 2018 · author #12
  146. The Extraplanar Type II Supernova ASASSN-14jb in the Nearby Edge-on Galaxy ESO 467-G051 astro-ph.HE · 2018 · author #4
  147. K2 Observations of SN 2018oh Reveal a Two-Component Rising Light Curve for a Type Ia Supernova astro-ph.HE · 2018 · author #142
  148. Photometric and Spectroscopic Properties of Type Ia Supernova 2018oh with Early Excess Emission from the $Kepler$ 2 Observations astro-ph.SR · 2018 · author #110
  149. First Cosmology Results Using Type Ia Supernovae From the Dark Energy Survey: Survey Overview and Supernova Spectroscopy astro-ph.CO · 2018 · author #12
  150. First Cosmology Results Using Type Ia Supernovae From the Dark Energy Survey: Photometric Pipeline and Light Curve Data Release astro-ph.IM · 2018 · author #22
  151. First Cosmology Results Using Type Ia Supernovae From the Dark Energy Survey: Analysis, Systematic Uncertainties, and Validation astro-ph.CO · 2018 · author #30
  152. First Cosmological Results using Type Ia Supernovae from the Dark Energy Survey: Measurement of the Hubble Constant astro-ph.CO · 2018 · author #52
  153. Cosmological Constraints from Multiple Probes in the Dark Energy Survey astro-ph.CO · 2018 · author #62
  154. First Cosmology Results using Type Ia Supernovae from the Dark Energy Survey: Constraints on Cosmological Parameters astro-ph.CO · 2018 · author #47
  155. A Virgo Environmental Survey Tracing Ionised Gas Emission (VESTIGE).IV. A tail of Ionised Gas in the Merger Remnant NGC 4424 astro-ph.GA · 2018 · author #19
  156. Carnegie Supernova Project-II: The Near-infrared Spectroscopy Program astro-ph.SR · 2018 · author #22
  157. Carnegie Supernova Project-II: Extending the Near-Infrared Hubble Diagram for Type Ia Supernovae to $z\sim0.1$ astro-ph.HE · 2018 · author #32
  158. The Photometric LSST Astronomical Time-series Classification Challenge (PLAsTiCC): Selection of a performance metric for classification probabilities balancing diverse science goals astro-ph.IM · 2018 · author #7
  159. The delay of shock breakout due to circumstellar material seen in most Type II Supernovae astro-ph.HE · 2018 · author #11
  160. SN 2017ens: The Metamorphosis of a Luminous Broad-lined Type Ic Supernova into an SN IIn astro-ph.SR · 2018 · author #30
  161. Relativistic supernova 2009bb exploded close to an atomic gas cloud astro-ph.GA · 2018 · author #11
  162. A nearby superluminous supernova with a long pre-maximum 'plateau' and strong CII features astro-ph.HE · 2018 · author #32
  163. Type II supernovae in low luminosity host galaxies astro-ph.HE · 2018 · author #6
  164. Asteroids in the High cadence Transient Survey astro-ph.EP · 2018 · author #10
  165. The lowest metallicity type II supernova from the highest mass red-supergiant progenitor astro-ph.HE · 2018 · author #5
  166. The Type IIn Supernova 2010bt: The Explosion of a Star in Outburst astro-ph.SR · 2018 · author #11
  167. Core-collapse supernovae ages and metallicities from emission-line diagnostics of nearby stellar populations astro-ph.GA · 2018 · author #2
  168. J-PLUS: measuring ${\rm H}\alpha$ emission line fluxes in the nearby universe astro-ph.GA · 2018 · author #23
  169. J-PLUS: Morphological star/galaxy classification by PDF analysis astro-ph.GA · 2018 · author #21
  170. Using late-time optical and near-infrared spectra to constrain Type Ia supernova explosion properties astro-ph.HE · 2018 · author #11
  171. Observed Type II supernova colours from the Carnegie Supernova Project-I astro-ph.HE · 2018 · author #3
  172. Spatial field reconstruction with INLA: Application to IFU galaxy data astro-ph.IM · 2018 · author #6
  173. PISCO: The Pmas/ppak Integral-field Supernova hosts COmpilation astro-ph.GA · 2018 · author #1
  174. Elemental gas-phase abundances of intermediate redshift type Ia supernova star-forming host galaxies astro-ph.GA · 2018 · author #2
  175. SNe 2013K and 2013am: observed and physical properties of two slow, normal Type IIP events astro-ph.HE · 2017 · author #12
  176. Studying the Ultraviolet Spectrum of the First Spectroscopically Confirmed Supernova at redshift two astro-ph.HE · 2017 · author #4
  177. Constraints on core-collapse supernova progenitors from explosion site integral field spectroscopy astro-ph.SR · 2017 · author #3
  178. The early detection and follow-up of the highly obscured Type II supernova 2016ija/DLT16am astro-ph.HE · 2017 · author #16
  179. Serendipitous discovery of an optical emission line jet in NGC\,232 astro-ph.GA · 2017 · author #5
  180. Morpho-kinematic properties of field S0 bulges in the CALIFA survey astro-ph.GA · 2017 · author #18
  181. A kilonova as the electromagnetic counterpart to a gravitational-wave source astro-ph.HE · 2017 · author #49
  182. The shape of oxygen abundance profiles explored with MUSE: evidence for widespread deviations from single gradients astro-ph.GA · 2017 · author #5
  183. SN 2016jhj at redshift 0.34: extending the Type II supernova Hubble diagram using the standard candle method astro-ph.HE · 2017 · author #2
  184. DES15E2mlf: A Spectroscopically Confirmed Superluminous Supernova that Exploded 3.5 Gyr After the Big Bang astro-ph.GA · 2017 · author #4
  185. Investigating the diversity of supernovae type Iax: A MUSE and NOT spectroscopic study of their environments astro-ph.HE · 2017 · author #4
  186. Arm and interarm abundance gradients in CALIFA spiral galaxies astro-ph.GA · 2017 · author #8
  187. Emission-line Diagnostics of Nearby HII Regions Including Supernova Hosts astro-ph.GA · 2017 · author #4
  188. Observational hints for radial migration in disc galaxies from CALIFA astro-ph.GA · 2017 · author #16
  189. The Mass-Metallicity Relation revisited with CALIFA astro-ph.GA · 2017 · author #6
  190. Molecular gas at supernova local environments unveiled by EDGE astro-ph.GA · 2017 · author #1
  191. Star formation driven galactic winds in UGC 10043 astro-ph.GA · 2017 · author #8
  192. Complexity in the light curves and spectra of slow-evolving superluminous supernovae astro-ph.HE · 2017 · author #12
  193. A Type II Supernova Hubble diagram from the CSP-I, SDSS-II, and SNLS surveys astro-ph.CO · 2016 · author #4
  194. The evolution of superluminous supernova LSQ14mo and its interacting host galaxy system astro-ph.SR · 2016 · author #12
  195. The progenitor and early evolution of the Type IIb SN 2016gkg astro-ph.HE · 2016 · author #10
  196. Two-dimensional multi-component photometric decomposition of CALIFA galaxies astro-ph.GA · 2016 · author #12
  197. Evidence of ongoing radial migration in NGC 6754: Azimuthal variations of the gas properties astro-ph.GA · 2016 · author #8
  198. Stellar kinematics across the Hubble sequence in the CALIFA survey: General properties and aperture corrections astro-ph.GA · 2016 · author #15
  199. Early observations of the nearby type Ia supernova SN 2015F astro-ph.SR · 2016 · author #13
  200. MUSE Reveals a Recent Merger in the Post-starburst Host Galaxy of the TDE ASASSN-14li astro-ph.GA · 2016 · author #4

Mentions

  • 2304.13070 #3 · arxiv_oai · confidence 0.70 L. Galbany
  • 2304.13022 #2 · arxiv_oai · confidence 0.70 L. Galbany
  • 2302.05184 #9 · arxiv_oai · confidence 0.70 L. Galbany
  • 2306.12858 #6 · arxiv_oai · confidence 0.70 L. Galbany
  • 2308.06019 #9 · arxiv_oai · confidence 0.70 L. Galbany
  • 2309.07800 #13 · arxiv_oai · confidence 0.70 L. Galbany
  • 2309.07102 #11 · arxiv_oai · confidence 0.70 L. Galbany
  • 2307.02556 #23 · arxiv_oai · confidence 0.70 L. Galbany
  • 2302.11304 #8 · arxiv_oai · confidence 0.70 L. Galbany
  • 2308.06334 #21 · arxiv_oai · confidence 0.70 L. Galbany
  • 2208.09000 #30 · arxiv_oai · confidence 0.70 L. Galbany
  • 2306.08880 #12 · arxiv_oai · confidence 0.70 L. Galbany
  • 2212.03738 #4 · arxiv_oai · confidence 0.70 L. Galbany
  • 2207.07657 #4 · arxiv_oai · confidence 0.70 L. Galbany
  • 2305.17243 #2 · arxiv_oai · confidence 0.70 L. Galbany
  • 2304.01858 #12 · arxiv_oai · confidence 0.70 L. Galbany
  • 2303.07721 #14 · arxiv_oai · confidence 0.70 L. Galbany
  • 2212.06195 #20 · arxiv_oai · confidence 0.70 L. Galbany
  • 2211.16388 #8 · arxiv_oai · confidence 0.70 L. Galbany
  • 2303.04412 #21 · arxiv_oai · confidence 0.70 L. Galbany
  • 2303.09548 #9 · arxiv_oai · confidence 0.70 L. Galbany
  • 2207.08520 #6 · arxiv_oai · confidence 0.70 L. Galbany
  • 2208.02782 #25 · arxiv_oai · confidence 0.70 L. Galbany
  • 2301.03647 #17 · arxiv_oai · confidence 0.70 L. Galbany
  • 2208.01357 #10 · arxiv_oai · confidence 0.70 L. Galbany
  • 2301.05718 #16 · arxiv_oai · confidence 0.70 L. Galbany
  • 2202.10480 #11 · arxiv_oai · confidence 0.70 L. Galbany
  • 2207.07906 #7 · arxiv_oai · confidence 0.70 L. Galbany
  • 2207.00734 #66 · arxiv_oai · confidence 0.70 L. Galbany
  • 2209.05594 #19 · arxiv_oai · confidence 0.70 L. Galbany
  • 2209.08031 #5 · arxiv_oai · confidence 0.70 L. Galbany
  • 2206.12085 #9 · arxiv_oai · confidence 0.70 L. Galbany
  • 2202.01635 #15 · arxiv_oai · confidence 0.70 L. Galbany
  • 2209.10242 #4 · arxiv_oai · confidence 0.70 L. Galbany
  • 2207.04780 #2 · arxiv_oai · confidence 0.70 L. Galbany
  • 2207.05583 #10 · arxiv_oai · confidence 0.70 L. Galbany
  • 2201.07801 #17 · arxiv_oai · confidence 0.70 L. Galbany
  • 2201.11142 #13 · arxiv_oai · confidence 0.70 L. Galbany
  • 2203.08974 #2 · arxiv_oai · confidence 0.70 L. Galbany
  • 2206.10632 #9 · arxiv_oai · confidence 0.70 L. Galbany
  • 2202.04078 #3 · arxiv_oai · confidence 0.70 L. Galbany
  • 2205.00606 #14 · arxiv_oai · confidence 0.70 L. Galbany
  • 2111.10382 #11 · arxiv_oai · confidence 0.70 L. Galbany
  • 2102.09576 #34 · arxiv_oai · confidence 0.70 L. Galbany
  • 2102.09572 #35 · arxiv_oai · confidence 0.70 L. Galbany
  • 2203.03988 #12 · arxiv_oai · confidence 0.70 L. Galbany
  • 2202.11220 #15 · arxiv_oai · confidence 0.70 L. Galbany
  • 2111.06529 #16 · arxiv_oai · confidence 0.70 L. Galbany
  • 2111.06519 #15 · arxiv_oai · confidence 0.70 L. Galbany
  • 2204.04252 #5 · arxiv_oai · confidence 0.70 L. Galbany
  • 2109.14644 #3 · arxiv_oai · confidence 0.70 L. Galbany
  • 2109.00016 #13 · arxiv_oai · confidence 0.70 L. Galbany
  • 2111.06635 #17 · arxiv_oai · confidence 0.70 L. Galbany
  • 2202.07518 #5 · arxiv_oai · confidence 0.70 L. Galbany
  • 2201.07864 #7 · arxiv_oai · confidence 0.70 L. Galbany
  • 2110.12083 #15 · arxiv_oai · confidence 0.70 L. Galbany
  • 2201.06991 #14 · arxiv_oai · confidence 0.70 L. Galbany
  • 2112.03122 #7 · arxiv_oai · confidence 0.70 L. Galbany
  • 2109.03359 #14 · arxiv_oai · confidence 0.70 L. Galbany
  • 2106.12140 #6 · arxiv_oai · confidence 0.70 L. Galbany
  • 2111.05487 #7 · arxiv_oai · confidence 0.70 L. Galbany
  • 2108.11407 #15 · arxiv_oai · confidence 0.70 L. Galbany
  • 2012.07377 #13 · arxiv_oai · confidence 0.70 L. Galbany
  • 2111.03081 #13 · arxiv_oai · confidence 0.70 L. Galbany
  • 2108.05087 #41 · arxiv_oai · confidence 0.70 L. Galbany
  • 2107.08150 #5 · arxiv_oai · confidence 0.70 L. Galbany
  • 2109.14572 #7 · arxiv_oai · confidence 0.70 L. Galbany
  • 2009.13230 #3 · arxiv_oai · confidence 0.70 L. Galbany
  • 2109.07942 #32 · arxiv_oai · confidence 0.70 L. Galbany
  • 2108.06654 #50 · arxiv_oai · confidence 0.70 L. Galbany
  • 2106.06833 #9 · arxiv_oai · confidence 0.70 L. Galbany
  • 2011.05998 #9 · arxiv_oai · confidence 0.70 L. Galbany
  • 2108.07278 #13 · arxiv_oai · confidence 0.70 L. Galbany
  • 1809.11145 #7 · arxiv_oai · confidence 0.70 L. Galbany
  • 2008.04321 #11 · arxiv_oai · confidence 0.70 L. Galbany
  • 2105.11954 #11 · arxiv_oai · confidence 0.70 L. Galbany
  • 2012.07180 #7 · arxiv_oai · confidence 0.70 L. Galbany
  • 2106.09505 #10 · arxiv_oai · confidence 0.70 L. Galbany
  • 2103.14669 #8 · arxiv_oai · confidence 0.70 L. Galbany
  • 2012.02858 #8 · arxiv_oai · confidence 0.70 L. Galbany
  • 2101.04062 #13 · arxiv_oai · confidence 0.70 L. Galbany
  • 2102.13512 #29 · arxiv_oai · confidence 0.70 L. Galbany
  • 1811.09565 #12 · arxiv_oai · confidence 0.70 L. Galbany
  • 2011.01229 #7 · arxiv_oai · confidence 0.70 L. Galbany
  • 2104.03723 #19 · arxiv_oai · confidence 0.70 L. Galbany
  • 2004.12218 #15 · arxiv_oai · confidence 0.70 L. Galbany
  • 2101.05424 #22 · arxiv_oai · confidence 0.70 L. Galbany
  • 2008.06515 #13 · arxiv_oai · confidence 0.70 L. Galbany
  • 2010.00662 #24 · arxiv_oai · confidence 0.70 L. Galbany
  • 2008.12101 #8 · arxiv_oai · confidence 0.70 L. Galbany
  • 2010.09764 #6 · arxiv_oai · confidence 0.70 L. Galbany
  • 2012.12392 #10 · arxiv_oai · confidence 0.70 L. Galbany
  • 2006.10198 #16 · arxiv_oai · confidence 0.70 L. Galbany
  • 2002.01950 #40 · arxiv_oai · confidence 0.70 L. Galbany
  • 2006.02454 #31 · arxiv_oai · confidence 0.70 L. Galbany
  • 2005.08653 #6 · arxiv_oai · confidence 0.70 L. Galbany
  • 2009.10509 #12 · arxiv_oai · confidence 0.70 L. Galbany
  • 2008.09628 #4 · arxiv_oai · confidence 0.70 L. Galbany
  • 2003.05470 #16 · arxiv_oai · confidence 0.70 L. Galbany
  • 2005.00319 #8 · arxiv_oai · confidence 0.70 L. Galbany

Frequent Coauthors