Local News

New Paper! The geomagnetic superstorm of 10 May 2024: Citizen science observations

2024.11.18

In this recently accepted paper, we analyzed citizen scientist data to study the Gannon Storm of 10 May 2024. We gathered 696 reports from over 30 countries, including details on aurora sightings, colors, forms, and disruptions like network and power failures. Additionally, we incorporated 186 auroral observations from the Skywarden catalog. Our findings revealed that the aurora was visible at geomagnetic latitudes between 30° and 60°, well beyond predictions, with some reports from lower latitudes. The observed aurora had predominantly red and pink colors, likely due to large fluxes of low-energy particles (<1 keV). The study highlights the value of citizen science but also the challenges of using basic online forms for data collection, suggesting ways to improve future studies on extreme geomagnetic events. Grandin, M. (FMI), Bruus, E. (Citizen Scientist), Ledvina, V. E. (UAF), Partamies, N. (UNIS), Barthelemy, M. (Université Grenoble Alpes), Martinis, C. (BU), Dayton-Oxland, R. (University of Southampton), Gallardo-Lacourt, B. (CUA/675), Nishimura, Y. (BU), Herlingshaw, K. (UNIS), Thomas, N. (University of Oulu), Karvinen, E. (Citizen Scientist), Lach, D. (Citizen Scientist), Spijkers, M. (Citizen Scientist), and Bergstrand, C. (Citizen Scientist): The geomagnetic superstorm of 10 May 2024: Citizen science observations, EGUsphere, https://doi.org/10.5194/egusphere-2024-2174, 2024.

New Paper! Auroral and magnetotail dynamics during quiet-time STEVE and SAID

2024.11.14

This paper explores quiet-time STEVE events, demonstrating that they share similar characteristics with substorm-time STEVE despite occurring during non-substorm auroral intensifications. During these quiet-time events, THEMIS satellites detected dipolarization fronts and fast plasma flows in the magnetotail, indicating that transient energy release in the plasma sheet was the source of both quiet-time STEVE and SAID). Unlike substorm-associated events, these quiet-time STEVE occurrences featured weaker particle injections and lower electron temperatures. Additionally, the plasmapause extended beyond geosynchronous orbit, with weak ring and tail currents observed. These findings suggest that even small energy releases in a quiet magnetosphere can significantly influence flow patterns and field-aligned current systems. Nishimura, Y. (BU), Gallardo-Lacourt, B. (675/CUA), Donovan, E. F. (University of Calgary), Angelopoulos, V. (UCLA), & Nishitani, N. (Nagoya University), 2024. Auroral and magnetotail dynamics during quiet-time STEVE and SAID. JGR: Space Physics, 129, e2024JA032941. https://doi.org/10.1029/2024JA032941.

New Paper: Increasing Mars Global Surveyor and Mars Atmosphere and Volatile EvolutioN Dataset Utility. Data

2024.11.14

Within this paper we discuss the process used to create an amended dataset and store it on the SPDF. The operational software to generate the archival data software uses the open-source Python package pysat, and an end-user module has been added to the pysatNASA module. The result is the addition of data products to the Mars Global Surveyor (MGS) magnetometer (MAG) dataset, its archival location on SPDF, and pysat compatibility. The primary and metadata format increases the convenience and efficiency for users of the MGS MAG data, and storage on SPDF increases the data's findability for the heliophysics community. The storage of planetary and heliophysics data in one location supports the use of data throughout the solar system for comparative studies, while the pysat compatibility enables loading data in an identical format for ease of processing. We encourage the use of the outlined process for past, present, and future space science missions of all sizes and funding levels. This includes balloons to Flagship-class missions. Esman TM (NPP/675), Halford AJ (675), Klenzing J (675), Burrell AG(NRL). Additions to Space Physics Data Facility and pysatNASA: Increasing Mars Global Surveyor and Mars Atmosphere and Volatile EvolutioN Dataset Utility. Data. 2024; 9(11):133. https://doi.org/10.3390/data9110133

New Paper Variation of the altitude of auroral emission during a substorm cycle: Stereoscopic optical observations during the LAMP rocket experiment

2024.11.12

This paper is from the LAMP (Loss from auroral microbursts precipitation) Rocket mission. We used multiple ground based observatories to determine the altitude of the aurora which allows us to infer the energy of the electrons contributing to the auroral light display. Movies of how this changes can be found in the supplemental information at the end of the paper. Hosokawa, K. (University of Electro-Communications, Tokyo, Japan), Miyoshi, Y. (Nagoya University, Nagoya, Japan), Mcharg, M. (USAF Academy), Ledvina, V. (University of Alaska Fairbanks), Hampton, D. (University of Alaska Fairbanks), Lessard, M. (UNH), M. Shumko (APL/JHU), K. Asamura (JAXA), T. Sakanoi (Tohoku University, Sendai, Japan), T. Mitani (JAXA), T. Namekawa(JAXA), M. Nosé(Nagoya City University, Nagoya, Japan), Y. Ogawa(National Institute of Polar Research, Tokyo, Japan), A. Jaynes(U.Iowa), A. Halford (675) (2024). Variation of the altitude of auroral emission during a substorm cycle: Stereoscopic optical observations during the LAMP rocket experiment. Journal of Geophysical Research: Space Physics, 129, e2024JA033036. https://doi.org/10.1029/2024JA033036

New Paper! Quantifying the mesoscale contribution to FACs during a magnetospheric substorm

2024.10.30

In this paper, we use a new ionospheric data assimilation technique, Lompe (Local mapping of the polar ionospheric electrodynamics), to specify ionospheric electrodynamics using a wide variety of input data and a priori assumptions about the physical nature of the ionospheric electric field. We isolate the terms of the ionospheric Ohm's law and find that mesoscale structures in the FACs are driven by Hall gradients, while the larger scale patterns are associated with the divergence of the electric field. We calculate the relative contribution of mesoscales to the overall FAC patterns during a magnetospheric substorm, and find that in the nightside, mesoscale FACs contribute up to 60% of the total. Gasparini, S., L. Kepko (675), and K. Laundal, 2024: "Quantifying the mesoscale contribution to FACs during a magnetospheric substorm", Geophys. Res. Lett. https://doi.org/10.1029/2024GL111045

New Paper: Unexpected STEVE observations at high latitude during quiet geomagnetic conditions

2024.10.08

In this paper, we analyzed an unusual observation of STEVE at very high latitudes, which occurred under exceptionally quiet geomagnetic conditions. This event was captured by one of the University of Calgary’s RGB all-sky imagers from the Transition Region Explorer (TREx) array, as well as by an AurorEye imaging system developed and operated by citizen scientists. Despite the quiet geomagnetic conditions, the observation revealed intense ionospheric electrodynamics, including a Subauroral Ion Drift (SAID) exceeding 4 km/s. This unique case study raises new questions about subauroral dynamics and the impact of magnetospheric configurations on the ionospheric response. Bea Gallardo-Lacourt (675/CUA), Toshi Nishimura (BU), Larry Kepko (675), Emma Spanswick (University of Calgary), D. Megan Gillies (Mount Royal University), David Knudsen (University of Calgary), Jonathan Burchill (University of Calgary), Susan Skone (University of Calgary), Victor Pinto (University of Santiago), Darren Chaddock (University of Calgary), Jeremy Kuzub (Citizen Scientists/ AurorEye), and Eric Donovan (University of Calgary) 2024: Unexpected STEVE observations at high latitude during quiet geomagnetic conditions. Geophysical Research Letters, https://doi.org/10.1029/2024GL110568.

New paper published: Special issue “16th International Symposium on Equatorial Aeronomy (ISEA-16), 2022”

2024.09.13

This special issue discusses the findings of the 16th International Symposium on Equatorial Aeronomy, which was held at the Research Institute for Sustainable Humanosphere, Kyoto University, Japan in September 2022. The meeting brought together researchers from atmospheric, ionospheric and magnetospheric sciences to discuss the current status and key questions of low-latitude aeronomy. The preface here summarizes the contributed papers. Yokoyama, T. (Kyoto University), Klenzing, J. (675), Milla, M.A. (Pontificia Universidad Catolica del Peru), Stolle, C. (Leibniz Institute of Atmospheric Physics, Germany), and Pallamraju, D. (Physical Research Laboratory, India). Special issue “16th International Symposium on Equatorial Aeronomy (ISEA-16), 2022”. Earth Planets Space 76, 115 (2024). https://doi.org/10.1186/s40623-024-02052-1.

New Paper out! Identifying the magnetospheric drivers of giant undulations

2024.09.13

This paper presents the first global simulation of giant undulations (GU) using the MAGE model to identify their magnetospheric drivers. The model successfully reproduces both the spatial and temporal scales of GU, while pinpointing mesoscale ring current injections, which drift westward, as the magnetospheric drivers behind these phenomena. Sorathia, K. A. (JHU/APL), Shumko, M. (JHU/APL), Sciola, A. (JHU/APL), Michael, A. (JHU/APL), Merkin, V. G. (JHU/APL), Gallardo-Lacourt, B. (675/CUA), Henderson, M. G. (LANL), Lin D. (NCAR/HAO), Bao, S. (Rice University), Garretson J. (JHU/APL), and Ukhorskiy (JHU/APL), 2024: “Identifying the magnetospheric drivers of giant undulations: Global modeling of the evolving inner magnetosphere and its auroral manifestations,” GRL, 51, e2024GL110772. https://doi.org/10.1029/2024GL110772.

New Paper Out! Exploring the relationship between STEVE and SAID during three events observed by SuperDARN

2024.08.26

Macho EP, Bristow W, Gallardo-Lacourt B, Shepherd SG, Ruohoniemi JM and Correia E (2024) Exploring the relationship between STEVE and SAID during three events observed by SuperDARN. Front. Astron. Space Sci. 11:1422164. doi: 10.3389/fspas.2024.1422164 Abstract: The phenomenon known as strong thermal emission velocity enhancement (STEVE) is a narrow optical structure that may extend longitudinally for thousands of kilometers. Initially observed by amateur photographers, it has recently garnered researchers’ attention. STEVE has been associated with a rapid westward flow of ions in the ionosphere, known as subauroral ion drift (SAID). In this work, we investigate three occurrences of STEVE, using data from one of the Time History of Events and Macroscale Interactions during Substorms (THEMIS) ground-based all-sky imagers (ASIs) located at Pinawa, Manitoba, and from the Super Dual Auroral Radar Network (SuperDARN). This approach allows us to verify the correlation between STEVE and SAID, as well as analyze the temporal variation of SAID observed during STEVE events. Our results suggest that the SAID activity starts before the STEVE, and the magnitude of the westward flow decreases as the STEVE progresses toward the end of its optical manifestation. Read the full paper at https://www.frontiersin.org/journals/astronomy-and-space-sciences/articles/10.3389/fspas.2024.1422164/full

New Paper! Solar Wind Drivers of Auroral Omega Bands

2024.08.26

Cribb, V., Pulkkinen, T. I., Kepko, L., Gallardo-Lacourt, B., & Donovan, E. (2024). Solar wind drivers of auroral omega bands. Geophysical Research Letters, 51, e2024GL109756. https://doi.org/10.1029/2024GL109756 Omega bands are eastward moving wave-like structures in the aurora that typically appear at the equatorward border of the auroral oval during periods of enhanced activity in Earth's magnetosphere. However, the specific drivers of these structures are not well understood. In this work, we perform a statistical analysis of spacecraft observations taken from multiple omega band events to identify potential drivers of these structures. We find that the solar wind exhibits increased speed, pressure, and particle density when omega bands appear overhead. These features are consistent with localized compression in the solar wind generated when a fast solar wind stream interacts with a slower leading stream. Our work suggests that the appearance of omega bands is driven by this compression. Read the full paper at https://doi.org/10.1029/2024GL109756

New Paper Published: A Survey of EMIC Waves in Van Allen Probe Data

2024.08.26

Inglis, A. R., Murphy, K. R., & Halford, A. (2024). A Survey of EMIC waves in Van Allen Probe data. Journal of Geophysical Research: Space Physics, 129, e2024JA032666. https://doi.org/10.1029/2024JA032666 Summary: Electromagnetic Ion Cyclotron (EMIC) waves are found throughout Earth's magnetosphere and the solar system. These waves in Earth's magnetosphere interact with the ring current and radiation belt population and push these particles into our atmosphere. Thus, it is useful to know when and where these waves occur. In this paper, we present a new approach toward identifying these waves in large data sets. Using this new approach, we identified 500 hr of EMIC waves from the Van Allen Probe B data set between Jan 2013–July 2019. Our catalog of events follows similar statistics found for EMIC waves by others, validating our methodology. Like others, we found that the waves occur more frequently on the dayside of the Earth. Higher amplitude waves were found at greater distances from the Earth, close to the edge of the magnetosphere. It was also found that the wave activity was greater during periods of geomagnetic activity than during quiet conditions. And in the interest of open science, we have made both the detection code and the list of waves available to the public. The full paper can be found at https://doi.org/10.1029/2024JA032666

New paper published in Physical Review Letters!

2024.07.22

"New Regime of Inertial Alfvén Wave Turbulence in the Auroral Ionosphere" was published in Physical Review Letters on July 22nd, 2024, by Francesca Di Mare (Catholic University of America and NASA Goddard ITM lab ) and Gregory G. Howes (Department of Physics and Astronomy, University of Iowa). The DOI:https://doi.org/10.1103/PhysRevLett.133.045201

New Paper! A Quantitative Analysis of the Uncertainties on Reconnection Electric Field Estimates Using Ionospheric Measurements

2024.06.21

New paper published by our own Sara Gasparini (Department of Physics and Technology, University of Bergen, Bergen, Norway and the NASA/GSFC ITM Lab) et al in the Journal of Geophysical Research: Space physics. Gasparini, S., Hatch, S. M., Reistad, J. P., Ohma, A., Laundal, K. M., Walker, S. J., & Madelaire, M. (2024). A quantitative analysis of the uncertainties on reconnection electric field estimates using ionospheric measurements. Journal of Geophysical Research: Space Physics, 129, e2024JA032599. https://doi.org/10.1029/2024JA032599

Doug Rowland received the 2023 NASA Agency Honor Awards for the Outstanding Leadership Medal

2024.03.22

We have some great news to share. Our own Doug Rowland (675) has won one of the 2023 Agency Honor Awards for the Outstanding Leadership Medal! We are so proud of the work and leadership he provided for the development of our lab and now with GDC.

2023 Poster Party Blowout winners announced

2023.02.16

We had over 175 posters from all four science divisions, as well as a few select entries from the Engineering and Technology Directorate. As one of the few yearly events that brings together the whole Sciences and Exploration Directorate, the large turnout (including GSFC and HQ VIPs) and collaborative communication made the event a great success! While there were so many fantastic contributions, awards were given for outstanding posters in 5 categories:

• Best Poster Title:
  Francesco Civilini (690.1) - How to Train your Lander: Automatic moonquake detection using machine learning
• Best Graphic Design:
  Douglas Rowland (675) - The Geospace Dynamics Constellation mission: NASA's next Living With a Star mission to explore the upper atmosphere
• Best Science as Food:
  Maryam Rahmani (665) - Cosmic Microwave Background/Line Intensity Mapping cake and jell-o
• Best Science Story:
  Shipra Sinha (670) - The Mystery of Magnetospheric Substorms
• Piers Sellers Interdisciplinary Award:
  Erin Delaria (614) - The NASA Carbon Airborne Flux Experiment (CARAFE): Observations of Greenhouse Gas Exchange in the Florida Everglades

Doug Rowland (675) gave the 2022 Birkeland Lecture to the Norwegian Academy of Science and Letters

2022.09.23

Doug Rowland (675) gave the 2022 Birkeland Lecture to the Norwegian Academy of Science and Letters. His talk was about the Grand Challenge Initiative-Cusp and the results of the VISIONS-2 (VISualizing Ion Outflow via Neutral Atom Sensing-2) sounding rocket mission. The talk was titled "Fountains in the sky: Following Earth's leaky atmosphere into space

Robert Pfaff (675) was named the 2022 AGU Marcel Nicolet lecturer

2022.09.16

Robert Pfaff (675) was named the 2022 AGU Marcel Nicolet lecturer, which is a significant honor and recognition of Rob's work in electric field instrumentation and electrodynamics research in the ionosphere. Rob will give the Nicolet lecture at this year's Fall AGU Meeting in Chicago the week of December 12.

Poster Blowout 2019 is in the books!

2019.02.27

Photos from this year's Poster Blowout are available now. Congratulations to everyone, especially this year's winners!

Notes from the Field Blog: Ambushing the Aurora

2018.11.29

Like the isbjørn (polar bears), we are ambush hunters. Our prey are atmospheric fountains, jets of gas being shot into space under the impact of the cusp aurora.

Notes from the Field: Night Life

2018.11.24

Without the regular rising and setting of the Sun to bring a sense of duration, the long winter nights in Ny-Ålesund can seem timeless.

Notes from the Field: Going to the Top of the World to Touch the Sky

2018.11.21

We have journeyed to Ny-Ålesund, Svalbard, the northernmost town in the world, so that we can touch the sky.