| The SunPy project: Open source development and status of the version 1.0 core package WT Barnes, MG Bobra, SD Christe, N Freij, LA Hayes, J Ireland, ... The Astrophysical Journal 890 (1), 68, 2020 | 184 | 2020 |
| Inference of heating properties from “hot” non-flaring plasmas in active region cores. I. Single nanoflares WT Barnes, PJ Cargill, SJ Bradshaw The Astrophysical Journal 829 (1), 31, 2016 | 54 | 2016 |
| aiapy: A Python package for analyzing solar EUV image data from AIA W Barnes, MCM Cheung, MG Bobra, P Boerner, G Chintzoglou, ... Journal of Open Source Software (JOSS) 5 (55), 2801-2801, 2020 | 39 | 2020 |
| Inference of heating properties from “hot” non-flaring plasmas in active region cores. II. Nanoflare trains WT Barnes, PJ Cargill, SJ Bradshaw The Astrophysical Journal 833 (2), 217, 2016 | 39 | 2016 |
| Sunpy: A python package for solar physics S Mumford, N Freij, S Christe, J Ireland, F Mayer, V Hughitt, A Shih, ... Journal of Open Source Software 5 (46), 2020 | 28 | 2020 |
| Understanding heating in active region cores through machine learning. I. Numerical modeling and predicted observables WT Barnes, SJ Bradshaw, NM Viall The Astrophysical Journal 880 (1), 56, 2019 | 23 | 2019 |
| Solar Active Region Heating Diagnostics from High-temperature Emission Using the MaGIXS PS Athiray, AR Winebarger, WT Barnes, SJ Bradshaw, S Savage, ... The Astrophysical Journal 884 (1), 24, 2019 | 16 | 2019 |
| Static and dynamic solar coronal loops with cross-sectional area variations PJ Cargill, SJ Bradshaw, JA Klimchuk, WT Barnes Monthly Notices of the Royal Astronomical Society 509 (3), 4420-4429, 2022 | 12 | 2022 |
| Geometric assumptions in hydrodynamic modeling of coronal and flaring loops JW Reep, I Ugarte-Urra, HP Warren, WT Barnes The Astrophysical Journal 933 (1), 106, 2022 | 9 | 2022 |
| Python in heliophysics community (pyhc) standards (v1. 0) A Annex, BL Alterman, A Azari, W Barnes, M Bobra, B Cecconi Zenodo, doi 10, 2018 | 9 | 2018 |
| Nanoflare Diagnostics from Magnetohydrodynamic Heating Profiles KJ Knizhnik, WT Barnes, JW Reep, VM Uritsky The Astrophysical Journal 899 (2), 156, 2020 | 7 | 2020 |
| EISPAC-the EIS Python analysis code MJ Weberg, HP Warren, N Crump, W Barnes Journal of Open Source Software 8 (85), 4914, 2023 | 6 | 2023 |
| Understanding Heating in Active Region Cores through Machine Learning. II. Classifying Observations WT Barnes, SJ Bradshaw, NM Viall The Astrophysical Journal 919 (2), 132, 2021 | 6 | 2021 |
| Forecasting the remaining duration of an ongoing solar flare JW Reep, WT Barnes Space Weather 19 (10), e2021SW002754, 2021 | 5 | 2021 |
| The SunPy Project: An interoperable ecosystem for solar data analysis SunPy Community, WT Barnes, S Christe, N Freij, LA Hayes, D Stansby, ... Frontiers in Astronomy and Space Sciences 10, 1076726, 2023 | 4 | 2023 |
| Science platforms for heliophysics data analysis MG Bobra, WT Barnes, TY Chen, M Cheung, LA Hayes, J Ireland, ... arXiv preprint arXiv:2301.00878, 2023 | 2 | 2023 |
| wtbarnes/hissw: v2. 3 W Barnes, B Chen Zenodo, 2022 | 2 | 2022 |
| A Unified Framework for Manipulating N-dimensional Astronomical Data and Coordinate Transformations in Python: The NDCube 2 and Astropy APE-14 World Coordinate System APIs DF Ryan, S Mumford, WT Barnes, AK Baruah, A Bhope, É Buchlin, N Freij, ... The Astrophysical Journal 956 (1), 44, 2023 | 1 | 2023 |
| ndcube: Manipulating n-dimensional astronomical data in python DF Ryan, S Mumford, Y Sharma, AK Baruah, A Bhope, N Freij, LA Hayes, ... Journal of Open Source Software 8 (89), 5296, 2023 | 1 | 2023 |
| rice-solar-physics/pydrad: v0. 1 W Barnes, J Reep, S Bradshaw Zenodo, 2023 | 1 | 2023 |
Stephen BradshawProfessor of Physics and Astronomy, Rice University在 rice.edu 的电子邮件经过验证
