Space Weather Science to Enhance Forecasting with the NASA IMAP Active Link for Real-Time (I-ALiRT) System

Christina O. Lee; Eric R. Christian; Laura Sandoval; Alastair Crabtree; Mihir I. Desai; Matina Gkioulidou; Bernd Heber; Timothy Horbury; Lynn Kistler; Jenny Knuth; Kristopher Larsen; Stefano Livi; Greg M. Lucas; Daniel E. Matlin; Tori Marbois; David J. McComas; J. Grant Mitchell; Joey Mukherjee; Jamie S. Rankin; Chelle Reno; Nathan A. Schwadron; Bishwas L. Shrestha; Ruth M. Skoug; Evan J. Smith; Michael J. Starkey; Drew L. Turner; Bradley D. Williams; Eric J. Zirnstein

doi:10.1007/s11214-025-01244-9

Space Weather Science to Enhance Forecasting with the NASA IMAP Active Link for Real-Time (I-ALiRT) System

Christina O. Lee
, Eric R. Christian
, Laura Sandoval
, Alastair Crabtree
, Mihir I. Desai
, Matina Gkioulidou
, Bernd Heber
, Timothy Horbury
, Lynn Kistler
, Jenny Knuth
, Kristopher Larsen
, Stefano Livi
, Greg M. Lucas
, Daniel E. Matlin
, Tori Marbois
, David J. McComas
, J. Grant Mitchell
, Joey Mukherjee
, Jamie S. Rankin
, Chelle Reno

Nathan A. Schwadron, Bishwas L. Shrestha, Ruth M. Skoug, Evan J. Smith, Michael J. Starkey, Drew L. Turner, Bradley D. Williams, Eric J. Zirnstein

Astrophysical Sciences

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

The Interstellar Mapping and Acceleration Probe (IMAP) is a NASA heliophysics science mission that provides new coordinated and comprehensive observations of the inner and outer heliosphere. The IMAP observatory orbits at the Sun-Earth L1 Lagrange point, which is an ideal location for observing the space weather conditions upstream of Earth. Thus, in addition to providing new and groundbreaking heliophysics science observations, five in-situ instruments on IMAP make measurements that are critical for advancing space weather research and operational forecasting. These measurements are continuously telemetered in near real-time as part of the IMAP Active Link for Real-Time (I-ALiRT) space weather data system. I-ALiRT is based on the Real-Time Solar Wind (RTSW) data system from the NASA Advanced Composition Explorer (ACE) mission and provides similar space weather data products at enhanced cadences as well as additional new data products. This paper describes the I-ALiRT instruments and measurements, real-time data flow architecture, and publicly available space weather data products.

Original language	English (US)
Article number	117
Journal	Space Science Reviews
Volume	221
Issue number	8
DOIs	https://doi.org/10.1007/s11214-025-01244-9
State	Published - Dec 2025

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

Keywords

Energetic particles
IMAP
Magnetic fields
Solar wind
Space weather

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10.1007/s11214-025-01244-9

Cite this

Lee, C. O., Christian, E. R., Sandoval, L., Crabtree, A., Desai, M. I., Gkioulidou, M., Heber, B., Horbury, T., Kistler, L., Knuth, J., Larsen, K., Livi, S., Lucas, G. M., Matlin, D. E., Marbois, T., McComas, D. J., Grant Mitchell, J., Mukherjee, J., Rankin, J. S., ... Zirnstein, E. J. (2025). Space Weather Science to Enhance Forecasting with the NASA IMAP Active Link for Real-Time (I-ALiRT) System. Space Science Reviews, 221(8), Article 117. https://doi.org/10.1007/s11214-025-01244-9

@article{6faba69274ea4875b998b7540a0300a4,

title = "Space Weather Science to Enhance Forecasting with the NASA IMAP Active Link for Real-Time (I-ALiRT) System",

abstract = "The Interstellar Mapping and Acceleration Probe (IMAP) is a NASA heliophysics science mission that provides new coordinated and comprehensive observations of the inner and outer heliosphere. The IMAP observatory orbits at the Sun-Earth L1 Lagrange point, which is an ideal location for observing the space weather conditions upstream of Earth. Thus, in addition to providing new and groundbreaking heliophysics science observations, five in-situ instruments on IMAP make measurements that are critical for advancing space weather research and operational forecasting. These measurements are continuously telemetered in near real-time as part of the IMAP Active Link for Real-Time (I-ALiRT) space weather data system. I-ALiRT is based on the Real-Time Solar Wind (RTSW) data system from the NASA Advanced Composition Explorer (ACE) mission and provides similar space weather data products at enhanced cadences as well as additional new data products. This paper describes the I-ALiRT instruments and measurements, real-time data flow architecture, and publicly available space weather data products.",

keywords = "Energetic particles, IMAP, Magnetic fields, Solar wind, Space weather",

author = "Lee, \{Christina O.\} and Christian, \{Eric R.\} and Laura Sandoval and Alastair Crabtree and Desai, \{Mihir I.\} and Matina Gkioulidou and Bernd Heber and Timothy Horbury and Lynn Kistler and Jenny Knuth and Kristopher Larsen and Stefano Livi and Lucas, \{Greg M.\} and Matlin, \{Daniel E.\} and Tori Marbois and McComas, \{David J.\} and J. Grant Mitchell and Joey Mukherjee and Rankin, \{Jamie S.\} and Chelle Reno and Schwadron, \{Nathan A.\} and Shrestha, \{Bishwas L.\} and Skoug, \{Ruth M.\} and Smith, \{Evan J.\} and Starkey, \{Michael J.\} and Turner, \{Drew L.\} and Williams, \{Bradley D.\} and Zirnstein, \{Eric J.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = dec,

doi = "10.1007/s11214-025-01244-9",

language = "English (US)",

volume = "221",

journal = "Space Science Reviews",

issn = "0038-6308",

publisher = "Springer Netherlands",

number = "8",

}

Lee, CO, Christian, ER, Sandoval, L, Crabtree, A, Desai, MI, Gkioulidou, M, Heber, B, Horbury, T, Kistler, L, Knuth, J, Larsen, K, Livi, S, Lucas, GM, Matlin, DE, Marbois, T, McComas, DJ, Grant Mitchell, J, Mukherjee, J, Rankin, JS, Reno, C, Schwadron, NA, Shrestha, BL, Skoug, RM, Smith, EJ, Starkey, MJ, Turner, DL, Williams, BD & Zirnstein, EJ 2025, 'Space Weather Science to Enhance Forecasting with the NASA IMAP Active Link for Real-Time (I-ALiRT) System', Space Science Reviews, vol. 221, no. 8, 117. https://doi.org/10.1007/s11214-025-01244-9

TY - JOUR

T1 - Space Weather Science to Enhance Forecasting with the NASA IMAP Active Link for Real-Time (I-ALiRT) System

AU - Lee, Christina O.

AU - Christian, Eric R.

AU - Sandoval, Laura

AU - Crabtree, Alastair

AU - Desai, Mihir I.

AU - Gkioulidou, Matina

AU - Heber, Bernd

AU - Horbury, Timothy

AU - Kistler, Lynn

AU - Knuth, Jenny

AU - Larsen, Kristopher

AU - Livi, Stefano

AU - Lucas, Greg M.

AU - Matlin, Daniel E.

AU - Marbois, Tori

AU - McComas, David J.

AU - Grant Mitchell, J.

AU - Mukherjee, Joey

AU - Rankin, Jamie S.

AU - Reno, Chelle

AU - Schwadron, Nathan A.

AU - Shrestha, Bishwas L.

AU - Skoug, Ruth M.

AU - Smith, Evan J.

AU - Starkey, Michael J.

AU - Turner, Drew L.

AU - Williams, Bradley D.

AU - Zirnstein, Eric J.

PY - 2025/12

Y1 - 2025/12

N2 - The Interstellar Mapping and Acceleration Probe (IMAP) is a NASA heliophysics science mission that provides new coordinated and comprehensive observations of the inner and outer heliosphere. The IMAP observatory orbits at the Sun-Earth L1 Lagrange point, which is an ideal location for observing the space weather conditions upstream of Earth. Thus, in addition to providing new and groundbreaking heliophysics science observations, five in-situ instruments on IMAP make measurements that are critical for advancing space weather research and operational forecasting. These measurements are continuously telemetered in near real-time as part of the IMAP Active Link for Real-Time (I-ALiRT) space weather data system. I-ALiRT is based on the Real-Time Solar Wind (RTSW) data system from the NASA Advanced Composition Explorer (ACE) mission and provides similar space weather data products at enhanced cadences as well as additional new data products. This paper describes the I-ALiRT instruments and measurements, real-time data flow architecture, and publicly available space weather data products.

AB - The Interstellar Mapping and Acceleration Probe (IMAP) is a NASA heliophysics science mission that provides new coordinated and comprehensive observations of the inner and outer heliosphere. The IMAP observatory orbits at the Sun-Earth L1 Lagrange point, which is an ideal location for observing the space weather conditions upstream of Earth. Thus, in addition to providing new and groundbreaking heliophysics science observations, five in-situ instruments on IMAP make measurements that are critical for advancing space weather research and operational forecasting. These measurements are continuously telemetered in near real-time as part of the IMAP Active Link for Real-Time (I-ALiRT) space weather data system. I-ALiRT is based on the Real-Time Solar Wind (RTSW) data system from the NASA Advanced Composition Explorer (ACE) mission and provides similar space weather data products at enhanced cadences as well as additional new data products. This paper describes the I-ALiRT instruments and measurements, real-time data flow architecture, and publicly available space weather data products.

KW - Energetic particles

KW - IMAP

KW - Magnetic fields

KW - Solar wind

KW - Space weather

UR - https://www.scopus.com/pages/publications/105022848032

UR - https://www.scopus.com/pages/publications/105022848032#tab=citedBy

U2 - 10.1007/s11214-025-01244-9

DO - 10.1007/s11214-025-01244-9

M3 - Article

AN - SCOPUS:105022848032

SN - 0038-6308

VL - 221

JO - Space Science Reviews

JF - Space Science Reviews

IS - 8

M1 - 117

ER -

Space Weather Science to Enhance Forecasting with the NASA IMAP Active Link for Real-Time (I-ALiRT) System

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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