AUTHOR=Opher Merav , Richardson John , Zank Gary , Florinski Vladimir , Giacalone Joe , Sokół Justyna M. , Toth Gabor , Buxner Sanlyn , Kornbleuth Marc , Gkioulidou Matina , Nikoukar Romina , Van der Holst Bart , Turner Drew , Gross Nicholas , Drake James , Swisdak Marc , Dialynas Kostas , Dayeh Maher , Chen Yuxi , Zieger Bertalan , Powell Erick , Onubogu Chika , Ma Xiaohan , Bair Ethan , Elliott Heather , Galli Andre , Zhao Lingling , Adhikari Laxman , Nakanotani Masaru , Hill Matthew E. , Mostafavi Parisa , Du Senbei , Guo Fan , Reisenfeld Daniel , Fuselier Stephen , Izmodenov Vladislav , Baliukin Igor , Cummings Alan , Miller Jesse , Wang Bingbing , Ghanbari Keyvan , Kota Jozsef , Loeb Abraham , Burgess Juditra , Hokanson Sarah Chobot , Morrow Cherilyn , Hong Adam , Boldon Andrea TITLE=Solar wind with Hydrogen Ion charge Exchange and Large-Scale Dynamics (SHIELD) DRIVE Science Center JOURNAL=Frontiers in Astronomy and Space Sciences VOLUME=10 YEAR=2023 URL=https://www.frontiersin.org/journals/astronomy-and-space-sciences/articles/10.3389/fspas.2023.1143909 DOI=10.3389/fspas.2023.1143909 ISSN=2296-987X ABSTRACT=

Most stars generate winds and move through the interstellar medium that surrounds them. This movement creates a cocoon formed by the deflection of these winds that envelops and protects the stars. We call these “cocoons” astrospheres. The Sun has its own cocoon, the heliosphere. The heliosphere is an immense shield that protects the Solar System from harsh, galactic radiation. The radiation that enters the heliosphere affects life on Earth as well as human space exploration. Galactic cosmic rays are the dominant source of radiation and principal hazard affecting space missions within our Solar System. Current global heliosphere models do not successfully predict the radiation environment at all locations or under different solar conditions. To understand the heliosphere’s shielding properties, we need to understand its structure and large-scale dynamics. A fortunate confluence of missions has provided the scientific community with a treasury of heliospheric data. However, fundamental features remain unknown. The vision of the Solar wind with Hydrogen Ion charge Exchange and Large-Scale Dynamics (SHIELD) DRIVE Science Center is to understand the nature and structure of the heliosphere. Through four integrated research thrusts leading to the global model, SHIELD will: 1) determine the global nature of the heliosphere; 2) determine how pickup ions evolve from “cradle to grave” and affect heliospheric processes; 3) establish how the heliosphere interacts with and influences the Local Interstellar Medium (LISM); and 4) establish how cosmic rays are filtered by and transported through the heliosphere. The key deliverable is a comprehensive, self-consistent, global model of the heliosphere that explains data from all relevant in situ and remote observations and predicts the radiation environment. SHIELD will develop a “digital twin” of the heliosphere capable of: (a) predicting how changing solar and LISM conditions affect life on Earth, (b) understanding the radiation environment to support long-duration space travel, and (c) contributing toward finding life elsewhere in the Galaxy. SHIELD also will train the next-generation of heliophysicists, a diverse community fluent in team science and skilled working in highly transdisciplinary collaborative environments.