AK
Member Since 2012
Aleida Katherine Higginson
Research Astrophysicist , NASA Goddard Space Flight Center
Professional Experience
NASA Goddard Space Flight Center
Research Astrophysicist
2020 - Present
Johns Hopkins University Applied Physics Laboratory
Postdoctoral Research Fellow
2018 - 2020
University of Michigan Ann Arbor
Postdoc
2016 - 2017
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Education
University of Michigan Ann Arbor
Doctorate
2016
Honors & Awards
Fred L. Scarf Award
Received December 2018
Aleida Higginson will receive the 2018 Fred L. Scarf Award at AGU’s Fall Meeting 2018, to be held 10–14 December in Washington, D. C. This award is given annually to “one honoree in recognition of an outstanding dissertation that contributes directly...
Aleida Higginson will receive the 2018 Fred L. Scarf Award at AGU’s Fall Meeting 2018, to be held 10–14 December in Washington, D. C. This award is given annually to “one honoree in recognition of an outstanding dissertation that contributes directly to solar–planetary science.”  
Citation

A major challenge in space science is understanding how highly localized regions, far smaller than 1 degree at the Sun, are the source of solar wind structures spanning more than 20 degrees near Earth. The Sun’s atmosphere is divided into “open” regions, called “coronal holes,” where solar wind plasma streams out freely and fills the solar system, and “closed” regions, where the plasma is confined by the solar magnetic field. The boundary between these regions extends outward as the heliospheric current sheet (HCS). Measurements of plasma composition imply that the wind near the HCS originates in closed regions; mysteriously, however, this type of wind is sometimes seen far from the HCS as well. In her dissertation research, Dr. Aleida Higginson performed groundbreaking numerical simulations that showed that for certain coronal hole topologies commonly observed in the corona, closed-field plasma released in a highly localized region at the Sun ends up forming huge arcs of slow wind in the heliosphere. Her work revealed a new and highly important property of the Sun–heliosphere magnetic connection.

—Spiro Antiochos, NASA Goddard Space Flight Center, Greenbelt, Md.

Response
I would like to thank the award committee and the Space Physics and Aeronomy section of AGU for this honor. Thank you also to my advisers, Spiro Antiochos, Thomas Zurbuchen, Susan Lepri, and Rick DeVore. You have shared so much of your time with me, teaching me how to work through research challenges and the importance of celebrating our successes. As a graduate student I had the privilege of dividing my time between the University of Michigan and NASA Goddard Space Flight Center. Thank you to Michigan for providing a rigorous and encouraging learning environment, and thank you to Goddard for giving me the experience of never being more than two floors away from a world expert on any topic within heliophysics. I truly have one of the coolest jobs ever and often find myself in awe that I get paid to figure out how the Sun works. I have found a wonderful home in the field of heliophysics, and I look forward to many years of discovery with scientists of the highest caliber. —Aleida Higginson, University of Michigan, Ann Arbor
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Current Roles
Member
Eunice Foote Medal Committee
AGU Abstracts
Defining the Middle Corona
FUNDAMENTAL PHYSICS OF THE SOLAR CORONA AND INNER HELIOSPHERE IV POSTER
spa-solar and heliospheric physics | 15 december 2023
Matthew J. West, Daniel B. Seaton, David Wexler, J...
The middle corona, the region roughly spanning heliocentric distances from 1.5 to 6 solar radii, encompasses almost all of the influential physical tr...
View Abstract
Mapping the Martian Separatrix Web
MAGNETOSPHERES IN THE INNER SOLAR SYSTEM I POSTER
spa-magnetospheric physics | 14 december 2023
Aleida K. Higginson, Kalman J. Knizhnik, Gina A. D...
The Martian magnetosphere is formed as the solar wind directly interacts with the planets ionosphere and crustal magnetic field. The strongest crustal...
View Abstract
Characterizing the L1 in situ observed solar wind originating from the differing source regions identified by ADAPT-WSA
INTERPRETING REMOTE SENSING AND IN SITU OBSERVATIONS TO BUILD A GLOBAL VIEW OF THE CORONA AND SOLAR WIND POSTER
spa-solar and heliospheric physics | 12 december 2023
Samantha Wallace, Nicholeen M. Viall, Charles N. A...
Several fundamental outstanding questions in heliophysics pertain to the genesis and energization of the solar wind both of which are driven by physi...
View Abstract
Volunteer Experience
2024 - 2025
Member
Eunice Foote Medal Committee
2022 - 2023
Member
Eunice Foote Medal Committee
2019 - 2019
Member
Space Physics and Aeronomy Fred L. Scarf Award Committee