Dr. D. Lario is a research astrophysicist at the Heliophysics Laboratory of the Heliophysics Division. He received his Bachelor’s of Science in Physics (Honors) from the University of Barcelona in 1991 and his PhD in Astrophysics from University of Barcelona in 1997, followed by a Research Fellow position at the Solar System Division of the European Space Agency (ESA). From January 2000 until February 2019, he was first a research scientist and later a staff scientist, and a principal staff scientist at The Johns Hopkins University Applied Physics Laboratory. He joined the Heliophysics Laboratory (Code 672) at NASA/ Goddard Space Flight Center in March 2019. His primary research interests include analysis and numerical modeling of dynamic heliospheric phenomena, including the study of the energetic particle environment, and the processes of solar energetic particle acceleration and transport. He is also the deputy mission scientist of the Parker Solar Probe (PSP) mission and the NASA deputy project scientist of the ESA/NASA Solar Orbiter mission.
David Lario Loyo
(Research AST, Fields and Particles)
Email: | david.larioloyo@nasa.gov |
Phone: | 301.286.3776 |
Org Code: | 672 |
Address: |
NASA/GSFC Mail Code 672 Greenbelt, MD 20771 |
Employer: |
Brief Bio
Teaching Experience
1991-1995: Teaching Assistant (Ajudant L.R.U.), University of Barcelona, Department of Analysis and Applied Mathematics. Teaching of Numerical Calculus, Computer Science, Statistics and Programming and Numerical Techniques to 1st year students of Mathematics, Chemistry, Physics and Chemical Engineering at the University of Barcelona.
Education
Ph.D. Physics (cum laude), University of Barcelona, Spain (1997)
M.Sc. Physics (cum laude), University of Barcelona, Spain (1993)
B.Sc. Physics, University of Barcelona, Spain (1991)
Research Accreditation. Catalan University Quality Assurance Agency (AQU) (2004).
Spanish Tenure Professor Accreditation (Astronomy and Astrophysics). Habilitación de Profesor Titular de Universidad (BOE n. 49, p. 8113, 26 Feb 2007).
Professional Societies
International Astronomical Union (IAU)
2009 - Present
American Geophysical Union (AGU)
1997 - Present
Sociedad Española de Astronomía
1996 - 2016
Awards
- NASA Silver Achievement Medal Parker Solar Probe Team (2019)
- APL Outstanding Special Publication Award (2017)
- APL Certificate of Service (2015)
- Editors’ Citation for Excellence in Referring (American Geophysical Union) (2009)
- NASA Group Achievement Award: Ulysses Mission (2009), MESSENGER Mission (2012), Parker Solar Probe Mission (2023)
- F.L. Scarf Award conferred by the American Geophysical Union (1999)
- Finalist of the III Doctoral Council Award of the University of Barcelona (1999)
- Extraordinary Ph.D. Prize awarded by the University of Barcelona (1997-1998)
- Degree award with special distinction by the University of Barcelona (1993-1994)
Selected Publications
Refereed
2024. "A Rapid Sequence of Solar Energetic Particle Events Associated with a Series of Extreme-ultraviolet Jets: Solar Orbiter, STEREO-A, and Near-Earth Spacecraft Observations." The Astrophysical Journal 975 (1): 84 [10.3847/1538-4357/ad6c47] [Journal Article/Letter]
2024. "Unveiling the Interplanetary Solar Radio Bursts of the 2024 Mother’s Day Solar Storm." The Astrophysical Journal Letters 970 (1): L13 [10.3847/2041-8213/ad5da6] [Journal Article/Letter]
2024. "Unveiling the journey of a highly inclined CME." Astronomy & Astrophysics 684 (A90): 17 [10.1051/0004-6361/202347083] [Journal Article/Letter]
2024. "Comparative Analysis of Type III Radio Bursts and Solar Flares: Spatial Localization and Correlation with Solar Flare Intensity." The Astrophysical Journal 961 (1): 88 [10.3847/1538-4357/ad12ba] [Journal Article/Letter]
2024. "Improved modelling of SEP event onset within the WSA–Enlil–SEPMOD framework." Journal of Space Weather and Space Climate [10.1051/swsc/2024001] [Journal Article/Letter]
2023. "High-energy (>40 MeV) Proton Intensity Enhancements Associated with the Passage of Interplanetary Shocks at 1 au." The Astrophysical Journal 950 (2): 89 [10.3847/1538-4357/acc9c5] [Journal Article/Letter]
2023. "The Effect of the Ambient Solar Wind Medium on a CME-driven Shock and the Associated Gradual Solar Energetic Particle Event." The Astrophysical Journal 950 (2): 172 [10.3847/1538-4357/acd1ed] [Journal Article/Letter]
2023. "Interpretation of Flat Energy Spectra Upstream of Fast Interplanetary Shocks." The Astrophysical Journal 950 (1): 62 [10.3847/1538-4357/acc942] [Journal Article/Letter]
2023. "Study of the radial dependence of Forbush decreases at 0.28–1 au using data from the Helios 1 and 2 spacecraft." Monthly Notices of the Royal Astronomical Society 521 (3): 4652-4668 [10.1093/mnras/stad732] [Journal Article/Letter]
2022. "The Extended Field-aligned Suprathermal Proton Beam and Long-lasting Trapped Energetic Particle Population Observed Upstream of a Transient Interplanetary Shock." The Astrophysical Journal 925 (2): 198 [10.3847/1538-4357/ac3c47] [Journal Article/Letter]
2021. "The first widespread solar energetic particle event observed by Solar Orbiter on 2020 November 29." Astronomy & Astrophysics [10.1051/0004-6361/202140937] [Journal Article/Letter]
2021. "Radial Evolution of a CIR: Observations From a Nearly Radially Aligned Event Between Parker Solar Probe and STEREO‐A." Geophysical Research Letters 48 (3): [10.1029/2020gl091376] [Journal Article/Letter]
2020. "Predictive Capabilities and Limitations of Stream Interaction Region Observations at Different Solar Longitudes." Space Weather 18 (4): [10.1029/2019sw002437] [Journal Article/Letter]
2020. "Energetic Particle Increases Associated with Stream Interaction Regions." The Astrophysical Journal Supplement Series 246 (2): 20 [10.3847/1538-4365/ab4c38] [Journal Article/Letter]
2020. "Solar Wind Streams and Stream Interaction Regions Observed by the Parker Solar Probe with Corresponding Observations at 1 au." The Astrophysical Journal Supplement Series 246 (2): 36 [10.3847/1538-4365/ab578f] [Journal Article/Letter]
2019. "Evolution of the Suprathermal Proton Population at Interplanetary Shocks." The Astronomical Journal 158 (1): 12 [Full Text] [10.3847/1538-3881/ab1e49] [Journal Article/Letter]
1997. "Modeling the interplanetary propagation of 0.1–20 MeV shock-accelerated protons. II: Energy spectrum and evolution of the injection rate." Advances in Space Research 20 (1): 121-126 [10.1016/s0273-1177(97)00493-6] [Journal Article/Letter]
1997. "Modeling the interplanetary propagation of 0.1–20 MeV shock-accelerated protons. I: Effects of the adiabatic deceleration and solar wind convection." Advances in Space Research 20 (1): 115-120 [10.1016/s0273-1177(97)00492-4] [Journal Article/Letter]
1995. "Three low-energy particle events: Modeling the influence of the parent interplanetary shock." The Astrophysical Journal 445 497 [10.1086/175714] [Journal Article/Letter]
1995. "Energy spectrum of low-energy fluxes of particles accelerated by interplanetary shocks." Advances in Space Research 15 (8-9): 389-392 [10.1016/0273-1177(94)00122-h] [Journal Article/Letter]
1995. "Energy Spectrum of Shock-Accelerated Particles." Journal of geomagnetism and geoelectricity 47 (11): 1121-1126 [10.5636/jgg.47.1121] [Journal Article/Letter]