Publications of Will T. Barnes

A list of publications authored or co-authored by Will T. Barnes, derived from the SAO/NASA Astrophysics Data System (ADS). The number in brackets after each title indicates the number of citations that the paper has received.

Orcid ID: 0000-0001-9642-6089

List of publications ordered by citations
Number of papers: 23 (refereed: 19)
No. of citations: 732
First author papers: 6 (refereed: 5)

2025

1. Self-Consistent Heating of the Magnetically Closed Solar Corona: Generation of Nanoflares, Thermodynamic Response of the Plasma and Observational Signatures [5]
   Johnston, Craig D., Daldorff, Lars K. S., Klimchuk, James A., Mondal, Shanwlee Sow, Barnes, Will T., Leake, James E., Reid, Jack & Parker, Jacob D., ApJ, 994, 139
2. Filament Mass Losses Forced by Magnetic Reconnection in the Solar Corona [4]
   Johnston, Craig D., Daldorff, Lars K. S., Schuck, Peter W., Linton, Mark G., Barnes, Will T., Leake, James E. & Daley-Yates, Simon, ApJ, 982, 131

2024

1. CHIANTI—An Atomic Database for Emission Lines—Paper. XVIII. Version 11, Advanced Ionization Equilibrium Models: Density and Charge Transfer Effects [23]
   Dufresne, R. P., Del Zanna, G., Young, P. R., Dere, K. P., Deliporanidou, E., Barnes, W. T. & Landi, E., ApJ, 974, 71
2. Thermal Evolution of an Active Region Through Quiet and Flaring Phases as Observed by NuSTAR, XRT, and AIA [2]
   Duncan, Jessie, Masek, Reed B., Shih, Albert Y., Glesener, Lindsay, Barnes, Will, Reeves, Katharine K., Zhang, Yixian, Hannah, Iain G. & Grefenstette, Brian W., ApJ, 966, 197
3. Determining the Nanoflare Heating Frequency of an X-Ray Bright Point Observed by MaGIXS [4]
   Mondal, Biswajit, Athiray, P. S., Winebarger, Amy R., Savage, Sabrina L., Kobayashi, Ken, Bradshaw, Stephen, Barnes, Will, Champey, Patrick R., Cheimets, Peter, Dudík, Jaroslav, Golub, Leon, Mason, Helen E., McKenzie, David E., Moore, Christopher S., Madsen, Chad, Reeves, Katharine K., Testa, Paola, Vigil, Genevieve D., Warren, Harry P., Walsh, Robert W. & Del Zanna, Giulio, ApJ, 967, 23
4. Modeling Time-variable Elemental Abundances in Coronal Loop Simulations [4]
   Reep, Jeffrey W., Unverferth, John, Barnes, Will T. & Chhabra, Sherry, ApJ, 970, L41
5. XRTpy: A Hinode-X-Ray Telescope Python Package [3]
   Velasquez, Joy, Murphy, Nicholas, Reeves, Katharine, Slavin, Jonathan, Weber, Mark & Barnes, Will, The Journal of Open Source Software, 9, 6396

2023

1. Sunxspex: A High-energy Spectral Analysis Tool in Python [0]
   Cooper, Kristopher, Ryan, Daniel, Maloney, Shane, Hayes, Laura, Mumford, Stuart, Hannah, Iain, Shih, Albert, Barnes, Will, Bajnokova, Natalia & Setterberg, William, Data, Analysis and Software in Heliophysics (DASH) 2023, p. 41
2. Interoperability between Python Packages [0]
   Ringuette, Rebecca, Barnes, Will, Friej, Nabil & Mumford, Stuart, Data, Analysis and Software in Heliophysics (DASH) 2023, p. 18
3. 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 [3]
   Ryan, Daniel F., Mumford, Stuart, Barnes, Will T., Baruah, Ankit Kumar, Bhope, Adwait, Buchlin, Éric, Freij, Nabil, Ginsburg, Adam, Hayes, Laura A., Homeier, Derek, Hughes, J. Marcus, Lowder, Chris, O'Steen, Richard, Pellorce, Baptiste, Robitaille, Thomas, Sharma, Yash, Stansby, David, Shih, Albert Y., Tollerud, Erik, Weberg, Micah J. & West, Matthew J., ApJ, 956, 44
4. EISPAC - The EIS Python Analysis Code [10]
   Weberg, Micah, Warren, Harry, Crump, Nicholas & Barnes, Will, The Journal of Open Source Software, 8, 4914

2022

1. Geometric Assumptions in Hydrodynamic Modeling of Coronal and Flaring Loops [14]
   Reep, Jeffrey W., Ugarte-Urra, Ignacio, Warren, Harry P. & Barnes, Will T., ApJ, 933, 106

2021

1. Understanding Heating in Active Region Cores through Machine Learning. II. Classifying Observations [9]
   Barnes, W. T., Bradshaw, S. J. & Viall, N. M., ApJ, 919, 132

2020

1. aiapy: A Python Package for Analyzing Solar EUV Image Data from AIA [69]
   Barnes, Will, Cheung, Mark, Bobra, Monica, Boerner, Paul, Chintzoglou, Georgios, Leonard, Drew, Mumford, Stuart, Padmanabhan, Nicholas, Shih, Albert, Shirman, Nina, Stansby, David & Wright, Paul, The Journal of Open Source Software, 5, 2801
2. Nanoflare Diagnostics from Magnetohydrodynamic Heating Profiles [9]
   Knizhnik, K. J., Barnes, W. T., Reep, J. W. & Uritsky, V. M., ApJ, 899, 156
3. SunPy: A Python package for Solar Physics [41]
   Mumford, Stuart, Freij, Nabil, Christe, Steven, Ireland, Jack, Mayer, Florian, Hughitt, V., Shih, Albert, Ryan, Daniel, Liedtke, Simon, Pérez-Suárez, David, Chakraborty, Pritish, K, Vishnunarayan, Inglis, Andrew, Pattnaik, Punyaslok, Sipőcz, Brigitta, Sharma, Rishabh, Leonard, Andrew, Stansby, David, Hewett, Russell, Hamilton, Alex, Hayes, Laura, Panda, Asish, Earnshaw, Matt, Choudhary, Nitin, Kumar, Ankit, Chanda, Prateek, Haque, Md, Kirk, Michael, Mueller, Michael, Konge, Sudarshan, Srivastava, Rajul, Jain, Yash, Bennett, Samuel, Baruah, Ankit, Barnes, Will, Charlton, Michael, Maloney, Shane, Chorley, Nicky, Himanshu, Modi, Sanskar, Mason, James, Naman, Campos Rozo, Jose Ivan, Manley, Larry, Chatterjee, Agneet, Evans, John, Malocha, Michael, Bobra, Monica, Ghosh, Sourav, Airmansmith, Stańczak, Dominik, De Visscher, Ruben, Verma, Shresth, Agrawal, Ankit, Buddhika, Dumindu, Sharma, Swapnil, Park, Jongyeob, Bates, Matt, Goel, Dhruv, Taylor, Garrison, Cetusic, Goran, Jacob, Inchaurrandieta, Mateo, Dacie, Sally, Dubey, Sanjeev, Sharma, Deepankar, Bray, Erik, Rideout, Jai, Zahniy, Serge, Meszaros, Tomas, Bose, Abhigyan, Chicrala, André, Ankit, Guennou, Chloé, D'Avella, Daniel, Williams, Daniel, Ballew, Jordan, Murphy, Nick, Lodha, Priyank, Robitaille, Thomas, Krishan, Yash, Hill, Andrew, Eigenbrot, Arthur, Mampaey, Benjamin, Wiedemann, Bernhard, Molina, Carlos, Keşkek, Duygu, Habib, Ishtyaq, Letts, Joseph, Bazán, Juanjo, Arbolante, Quinn, Gomillion, Reid, Kothari, Yash, Sharma, Yash, Stevens, Abigail, Price-Whelan, Adrian, Mehrotra, Ambar, Kustov, Arseniy, Stone, Brandon, Dang, Trung, Arias, Emmanuel, Dover, Fionnlagh, Verstringe, Freek, Kumar, Gulshan, Mathur, Harsh, Babuschkin, Igor, Wimbish, Jaylen, Buitrago-Casas, Juan, Krishna, Kalpesh, Hiware, Kaustubh, Mangaonkar, Manas, Mendero, Matthew, Schoentgen, Mickaël, Gyenge, Norbert, Streicher, Ole, Mekala, Rajasekhar, Mishra, Rishabh, Srikanth, Shashank, Jain, Sarthak, Yadav, Tannmay, Wilkinson, Tessa, Pereira, Tiago, Agrawal, Yudhik, Jamescalixto, Yasintoda & Murray, Sophie, The Journal of Open Source Software, 5, 1832
4. The SunPy Project: Open Source Development and Status of the Version 1.0 Core Package [399]
   SunPy Community, Barnes, Will T., Bobra, Monica G., Christe, Steven D., Freij, Nabil, Hayes, Laura A., Ireland, Jack, Mumford, Stuart, Perez-Suarez, David, Ryan, Daniel F., Shih, Albert Y., Chanda, Prateek, Glogowski, Kolja, Hewett, Russell, Hughitt, V. Keith, Hill, Andrew, Hiware, Kaustubh, Inglis, Andrew, Kirk, Michael S. F., Konge, Sudarshan, Mason, James Paul, Maloney, Shane Anthony, Murray, Sophie A., Panda, Asish, Park, Jongyeob, Pereira, Tiago M. D., Reardon, Kevin, Savage, Sabrina, Sipőcz, Brigitta M., Stansby, David, Jain, Yash, Taylor, Garrison, Yadav, Tannmay, Rajul & Dang, Trung Kien, ApJ, 890, 68

2019

1. Solar Active Region Heating Diagnostics from High-temperature Emission Using the MaGIXS [17]
   Athiray, P. S., Winebarger, Amy R., Barnes, Will T., Bradshaw, Stephen J., Savage, Sabrina, Warren, Harry P., Kobayashi, Ken, Champey, Patrick, Golub, Leon & Glesener, Lindsay, ApJ, 884, 24
2. Understanding Heating in Active Region Cores through Machine Learning. I. Numerical Modeling and Predicted Observables [24]
   Barnes, W. T., Bradshaw, S. J. & Viall, N. M., ApJ, 880, 56

2018

1. Understanding Heating Properties of Active Region Loops through Forward Modeling and Machine Learning [0]
   Barnes, Will, Bradshaw, Stephen, Viall, Nicki & Mumford, Stuart, Catalyzing Solar Connections, p. 72
2. Simulation of Exoplanet Host Star Magnetic Activity on Stellar Cycle Timescales [0]
   Farrish, A. O., Maruo, M., Barnes, W. T., Alexander, D., Bradshaw, S. & DeRosa, M., Comparative Climatology of Terrestrial Planets III: From Stars to Surfaces (Editors: LPI Editorial Board), LPI Contributions, 2065, p. 2043

2016

1. Inference of Heating Properties from "Hot" Non-flaring Plasmas in Active Region Cores. II. Nanoflare Trains [36]
   Barnes, W. T., Cargill, P. J. & Bradshaw, S. J., ApJ, 833, 217
2. Inference of Heating Properties from "Hot" Non-flaring Plasmas in Active Region Cores. I. Single Nanoflares [56]
   Barnes, W. T., Cargill, P. J. & Bradshaw, S. J., ApJ, 829, 31