Publications of James A. Klimchuk

A list of publications authored or co-authored by James A. Klimchuk, 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: 0000-0003-2255-0305

List of publications ordered by citations
Number of papers: 160 (refereed: 121)
No. of citations: 8118
First author papers: 34 (refereed: 21)

2026

1. Modeling of AR 12760 with GX Simulator and Evidence for the Extended Transition Region in Peripheral Active Region Loops [1]
   Kucera, Therese A., Nita, Gelu M., Klimchuk, James A. & Fleishman, Gregory D., ApJ, 1000, 149
2. On the Relationship between Nanoflare Energy and Delay in the Closed Solar Corona [1]
   Sow Mondal, Shanwlee, Klimchuk, James A., Johnston, Craig D. & Daldorff, Lars K. S., ApJ, 998, 185

2025

1. The nature of small-scale extreme ultraviolet solar brightenings investigated as impulsive heating of short loops in 1D hydrodynamics simulations [2]
   Dolliou, A., Klimchuk, J. A., Parenti, S. & Bocchialini, K., A&A, 699, A61
2. Self-Consistent Heating of the Magnetically Closed Solar Corona: Generation of Nanoflares, Thermodynamic Response of the Plasma and Observational Signatures [7]
   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
3. Anomalous cross-field motions of solar coronal loops [2]
   Mandal, Sudip, Peter, Hardi, Klimchuk, James A. & Chitta, Lakshmi Pradeep, A&A, 697, A233
4. Spatial and Temporal Distribution of Nanoflare Heating during Active Region Evolution [9]
   Mondal, Biswajit, Klimchuk, James A., Winebarger, Amy R., Athiray, P. S. & Liu, Jiayi, ApJ, 980, 75
5. Characterizing Nanoflare Energy and Frequency through Field Line Analysis [2]
   Sow Mondal, Shanwlee, Daldorff, Lars K. S., Klimchuk, James A. & Johnston, Craig. D., ApJ, 994, 71
6. On the Stability Analysis of Astrophysical Cooling Functions [1]
   Stricklan, Amanda, Waters, Tim & Klimchuk, James, ApJ, 992, 101

2024

1. Modeling of Condensations in Coronal Loops Produced by Impulsive Heating with Variable Frequencies and Locations [8]
   Kucera, Therese A., Klimchuk, James A. & Luna, Manuel, ApJ, 965, 53
2. The Onset of Magnetic Reconnection in Dynamically Evolving Coronal Current Sheets [5]
   Leake, James E., Daldorff, Lars K. S. & Klimchuk, James A., ApJ, 973, 21
3. Investigating coronal loop morphology and dynamics from two vantage points [11]
   Mandal, Sudip, Peter, Hardi, Klimchuk, James A., Solanki, Sami K., Chitta, Lakshmi Pradeep, Aznar Cuadrado, Regina, Schühle, Udo, Teriaca, Luca, Berghmans, David, Verbeeck, Cis, Auchère, Frederic & Stegen, Koen, A&A, 682, L9
4. Are Coronal Loops Projection Effects? [7]
   Uritsky, Vadim M. & Klimchuk, James A., ApJ, 961, 222

2023

1. Observational Signatures of Coronal Heating in Magnetohydrodynamic Simulations without Radiation or a Lower Atmosphere [10]
   Klimchuk, James A., Knizhnik, Kalman J. & Uritsky, Vadim M., ApJ, 942, 10
2. Role of Small-scale Impulsive Events in Heating the X-Ray Bright Points of the Quiet Sun [14]
   Mondal, Biswajit, Klimchuk, James A., Vadawale, Santosh V., Sarkar, Aveek, Del Zanna, Giulio, Athiray, P. S., Mithun, N. P. S., Mason, Helen E. & Bhardwaj, Anil, ApJ, 945, 37
3. Data-constrained Solar Modeling with GX Simulator [26]
   Nita, Gelu M., Fleishman, Gregory D., Kuznetsov, Alexey A., Anfinogentov, Sergey A., Stupishin, Alexey G., Kontar, Eduard P., Schonfeld, Samuel J., Klimchuk, James A. & Gary, Dale E., ApJS, 267, 6
4. Center-to-limb Variation of Transition-region Doppler Shifts in Active Regions [6]
   Rajhans, Abhishek, Tripathi, Durgesh, Kashyap, Vinay L., Klimchuk, James A. & Ghosh, Avyarthana, ApJ, 944, 158

2022

1. Impact of 3D Structure on Magnetic Reconnection [11]
   Daldorff, Lars K. S., Leake, James E. & Klimchuk, James A., ApJ, 927, 196
2. The Effect of Nanoflare Flows on EUV Spectral Lines [4]
   López Fuentes, Marcelo & Klimchuk, James A., ApJ, 939, 17
3. The Coronal Veil [43]
   Malanushenko, A., Cheung, M. C. M., DeForest, C. E., Klimchuk, J. A. & Rempel, M., ApJ, 927, 1
4. Flows in Enthalpy-based Thermal Evolution of Loops [1]
   Rajhans, Abhishek, Tripathi, Durgesh, Bradshaw, Stephen J., Kashyap, Vinay L. & Klimchuk, James A., ApJ, 924, 13
5. Contribution of Spicules to Solar Coronal Emission [9]
   Sow Mondal, Shanwlee, Klimchuk, James A. & Sarkar, Aveek, ApJ, 937, 71

2021

1. Signatures of Type III Solar Radio Bursts from Nanoflares: Modeling [4]
   Chhabra, Sherry, Klimchuk, James A. & Gary, Dale E., ApJ, 922, 128
2. Nonthermal Velocity in the Transition Region of Active Regions and Its Center-to-limb Variation [4]
   Ghosh, Avyarthana, Tripathi, Durgesh & Klimchuk, James A., ApJ, 913, 151

2020

1. Cross Sections of Coronal Loop Flux Tubes [41]
   Klimchuk, James A. & DeForest, Craig E., ApJ, 900, 167
2. The Onset of 3D Magnetic Reconnection and Heating in the Solar Corona [29]
   Leake, James E., Daldorff, Lars K. S. & Klimchuk, James A., ApJ, 891, 62
3. Transition Region Contribution to AIA Observations in the Context of Coronal Heating [8]
   Schonfeld, S. J. & Klimchuk, J. A., ApJ, 905, 115
4. The Sensitivity of AIA Observations to Coronal Heating Parameters [0]
   Schonfeld, Samuel & Klimchuk, James, essoar.10501806

2019

1. On Doppler Shift and Its Center-to-limb Variation in Active Regions in the Transition Region [9]
   Ghosh, Avyarthana, Klimchuk, James A. & Tripathi, Durgesh, ApJ, 886, 46
2. Achievements of Hinode in the first eleven years [80]
   Hinode Review Team, Al-Janabi, Khalid, Antolin, Patrick, Baker, Deborah, Bellot Rubio, Luis R., Bradley, Louisa, Brooks, David H., Centeno, Rebecca, Culhane, J. Leonard, Del Zanna, Giulio, Doschek, George A., Fletcher, Lyndsay, Hara, Hirohisa, Harra, Louise K., Hillier, Andrew S., Imada, Shinsuke, Klimchuk, James A., Mariska, John T., Pereira, Tiago M. D., Reeves, Katharine K., Sakao, Taro, Sakurai, Takashi, Shimizu, Toshifumi, Shimojo, Masumi, Shiota, Daikou, Solanki, Sami K., Sterling, Alphonse C., Su, Yingna, Suematsu, Yoshinori, Tarbell, Theodore D., Tiwari, Sanjiv K., Toriumi, Shin, Ugarte-Urra, Ignacio, Warren, Harry P., Watanabe, Tetsuya & Young, Peter R., Publications of the Astronomical Society of Japan, 71, R1
3. The Role of Asymmetries in Thermal Nonequilibrium [50]
   Klimchuk, James A. & Luna, Manuel, ApJ, 884, 68
4. The Role of Magnetic Helicity in Coronal Heating [20]
   Knizhnik, K. J., Antiochos, S. K., Klimchuk, J. A. & DeVore, C. R., ApJ, 883, 26
5. Spectroscopic Constraints on the Cross-sectional Asymmetry and Expansion of Active Region Loops [15]
   Kucera, T. A., Young, P. R., Klimchuk, J. A. & DeForest, C. E., ApJ, 885, 7

2018

1. Magnetic Braids in Eruptions of a Spiral Structure in the Solar Atmosphere [29]
   Huang, Zhenghua, Xia, Lidong, Nelson, Chris J., Liu, Jiajia, Wiegelmann, Thomas, Tian, Hui, Klimchuk, James A., Chen, Yao & Li, Bo, ApJ, 854, 80
2. Power-law Statistics of Driven Reconnection in the Magnetically Closed Corona [31]
   Knizhnik, K. J., Uritsky, V. M., Klimchuk, J. A. & DeVore, C. R., ApJ, 853, 82
3. Hard X-Ray Constraints on Small-scale Coronal Heating Events [16]
   Marsh, Andrew J., Smith, David M., Glesener, Lindsay, Klimchuk, James A., Bradshaw, Stephen J., Vievering, Juliana, Hannah, Iain G., Christe, Steven, Ishikawa, Shin-nosuke & Krucker, Säm, ApJ, 864, 5
4. Dressing the Coronal Magnetic Extrapolations of Active Regions with a Parameterized Thermal Structure [36]
   Nita, Gelu M., Viall, Nicholeen M., Klimchuk, James A., Loukitcheva, Maria A., Gary, Dale E., Kuznetsov, Alexey A. & Fleishman, Gregory D., ApJ, 853, 66

2017

1. Unravelling the Components of a Multi-thermal Coronal Loop using Magnetohydrodynamic Seismology [18]
   Krishna Prasad, S., Jess, D. B., Klimchuk, J. A. & Banerjee, D., ApJ, 834, 103
2. A Survey of Nanoflare Properties in Active Regions Observed with the Solar Dynamics Observatory [42]
   Viall, Nicholeen M. & Klimchuk, James A., ApJ, 842, 108

2016

1. The FIELDS Instrument Suite for Solar Probe Plus. Measuring the Coronal Plasma and Magnetic Field, Plasma Waves and Turbulence, and Radio Signatures of Solar Transients [808]
   Bale, S. D., Goetz, K., Harvey, P. R., Turin, P., Bonnell, J. W., Dudok de Wit, T., Ergun, R. E., MacDowall, R. J., Pulupa, M., Andre, M., Bolton, M., Bougeret, J.-L., Bowen, T. A., Burgess, D., Cattell, C. A., Chandran, B. D. G., Chaston, C. C., Chen, C. H. K., Choi, M. K., Connerney, J. E., Cranmer, S., Diaz-Aguado, M., Donakowski, W., Drake, J. F., Farrell, W. M., Fergeau, P., Fermin, J., Fischer, J., Fox, N., Glaser, D., Goldstein, M., Gordon, D., Hanson, E., Harris, S. E., Hayes, L. M., Hinze, J. J., Hollweg, J. V., Horbury, T. S., Howard, R. A., Hoxie, V., Jannet, G., Karlsson, M., Kasper, J. C., Kellogg, P. J., Kien, M., Klimchuk, J. A., Krasnoselskikh, V. V., Krucker, S., Lynch, J. J., Maksimovic, M., Malaspina, D. M., Marker, S., Martin, P., Martinez-Oliveros, J., McCauley, J., McComas, D. J., McDonald, T., Meyer-Vernet, N., Moncuquet, M., Monson, S. J., Mozer, F. S., Murphy, S. D., Odom, J., Oliverson, R., Olson, J., Parker, E. N., Pankow, D., Phan, T., Quataert, E., Quinn, T., Ruplin, S. W., Salem, C., Seitz, D., Sheppard, D. A., Siy, A., Stevens, K., Summers, D., Szabo, A., Timofeeva, M., Vaivads, A., Velli, M., Yehle, A., Werthimer, D. & Wygant, J. R., Space Science Reviews, 204, 49
2. Intensity Conserving Spectral Fitting [9]
   Klimchuk, J. A., Patsourakos, S. & Tripathi, D., Solar Physics, 291, 55
3. A Nanoflare-based Cellular Automaton Model and the Observed Properties of the Coronal Plasma [17]
   López Fuentes, Marcelo & Klimchuk, James A., ApJ, 828, 86
4. Signatures of Steady Heating in Time Lag Analysis of Coronal Emission [20]
   Viall, Nicholeen M. & Klimchuk, James A., ApJ, 828, 76

2015

1. Chromospheric Nanoflares as a Source of Coronal Plasma. II. Repeating Nanoflares [25]
   Bradshaw, S. J. & Klimchuk, J. A., ApJ, 811, 129
2. How Gas-dynamic Flare Models Powered by Petschek Reconnection Differ from Those with Ad Hoc Energy Sources [26]
   Longcope, D. W. & Klimchuk, J. A., ApJ, 813, 131
3. Loop observations and the coronal heating problem [4]
   López Fuentes, M. C. & Klimchuk, J. A., Boletin de la Asociacion Argentina de Astronomia La Plata Argentina, 57, 231

2014

1. MHD modeling of coronal loops: the transition region throat [23]
   Guarrasi, M., Reale, F., Orlando, S., Mignone, A. & Klimchuk, J. A., A&A, 564, A48
2. Are Chromospheric Nanoflares a Primary Source of Coronal Plasma? [41]
   Klimchuk, J. A. & Bradshaw, S. J., ApJ, 791, 60
3. Core and Wing Densities of Asymmetric Coronal Spectral Profiles: Implications for the Mass Supply of the Solar Corona [21]
   Patsourakos, S., Klimchuk, J. A. & Young, P. R., ApJ, 781, 58
4. MHD modelling of coronal loops: injection of high-speed chromospheric flows [15]
   Petralia, A., Reale, F., Orlando, S. & Klimchuk, J. A., A&A, 567, A70

2013

1. Can the Differential Emission Measure Constrain the Timescale of Energy Deposition in the Corona? [42]
   Guennou, C., Auchère, F., Klimchuk, J. A., Bocchialini, K. & Parenti, S., ApJ, 774, 31
2. Study of the EUV intensity variation along observed coronal loops [1]
   Lopez Fuentes, M. & Klimchuk, J. A., Boletin de la Asociacion Argentina de Astronomia La Plata Argentina, 56, 399
3. Structure of solar coronal loops: from miniature to large-scale [128]
   Peter, H., Bingert, S., Klimchuk, J. A., de Forest, C., Cirtain, J. W., Golub, L., Winebarger, A. R., Kobayashi, K. & Korreck, K. E., A&A, 556, A104
4. Diagnosing the Time Dependence of Active Region Core Heating from the Emission Measure. II. Nanoflare Trains [44]
   Reep, J. W., Bradshaw, S. J. & Klimchuk, J. A., ApJ, 764, 193

2012

1. Diagnosing the Time-dependence of Active Region Core Heating from the Emission Measure. I. Low-frequency Nanoflares [69]
   Bradshaw, S. J., Klimchuk, J. A. & Reep, J. W., ApJ, 758, 53
2. Enthalpy-based Thermal Evolution of Loops. III. Comparison of Zero-dimensional Models [67]
   Cargill, P. J., Bradshaw, S. J. & Klimchuk, J. A., ApJ, 758, 5
3. Enthalpy-based Thermal Evolution of Loops. II. Improvements to the Model [112]
   Cargill, P. J., Bradshaw, S. J. & Klimchuk, J. A., ApJ, 752, 161
4. The Origin of the EUV Late Phase: A Case Study of the C8.8 Flare on 2010 May 5 [27]
   Hock, R. A., Woods, T. N., Klimchuk, J. A., Eparvier, F. G. & Jones, A. R., arXiv:1202.4819
5. The Role of Spicules in Explaining the Corona and Transition Region [0]
   Klimchuk, J., IAU Special Session (Editors: Cauzzi, G., Tritschler, A. & Deng, Y.), IAU Special Session, 6, p. E1.07
6. The role of type II spicules in the upper solar atmosphere [72]
   Klimchuk, J. A., Journal of Geophysical Research (Space Physics), 117, A12102
7. Evidence of nanoflare heating in coronal loops observed with Hinode/XRT and SDO/AIA [0]
   López Fuentes, M. C. & Klimchuk, J. A., Boletin de la Asociacion Argentina de Astronomia La Plata Argentina, 55, 103
8. A cellular automaton model for coronal heating [1]
   López Fuentes, M. C. & Klimchuk, J. A., Comparative Magnetic Minima: Characterizing Quiet Times in the Sun and Stars (Editors: Mandrini, Cristina H. & Webb, David F.), IAU Symposium, 286, p. 433
9. Nanoflare Evidence from Analysis of the X-Ray Variability of an Active Region Observed with Hinode/XRT [1]
   Terzo, S., Reale, F., Miceli, M., Kano, R., Tsuneta, S. & Klimchuk, J. A., 4th Hinode Science Meeting: Unsolved Problems and Recent Insights (Editors: Bellot Rubio, L., Reale, F. & Carlsson, M.), Astronomical Society of the Pacific Conference Series, 455, p. 245

2011

1. What Dominates the Coronal Emission Spectrum During the Cycle of Impulsive Heating and Cooling? [101]
   Bradshaw, S. J. & Klimchuk, J. A., ApJS, 194, 26

2010

1. On the Isothermality of Solar Plasmas [24]
   Landi, E. & Klimchuk, J. A., ApJ, 723, 320
2. A Simple Model for the Evolution of Multi-stranded Coronal Loops [26]
   López Fuentes, M. C. & Klimchuk, J. A., ApJ, 719, 591

2009

1. Explosive Instability and Coronal Heating [20]
   Dahlburg, R. B., Liu, J.-H., Klimchuk, J. A. & Nigro, G., ApJ, 704, 1059
2. Coronal Loop Models and Those Annoying Observations! (Keynote) [65]
   Klimchuk, J. A., The Second Hinode Science Meeting: Beyond Discovery-Toward Understanding (Editors: Lites, B., Cheung, M., Magara, T., Mariska, J. & Reeves, K.), Astronomical Society of the Pacific Conference Series, 415, p. 221
3. Spectroscopic Observations of Hot Lines Constraining Coronal Heating in Solar Active Regions [43]
   Patsourakos, S. & Klimchuk, J. A., ApJ, 696, 760
4. Multi-wavelength observations and modelling of a canonical solar flare [60]
   Raftery, C. L., Gallagher, P. T., Milligan, R. O. & Klimchuk, J. A., A&A, 494, 1127
5. XRT Detection of Hot Plasma in Active Regions and Nanoflare Heating [0]
   Reale, F., Klimchuk, J. A., Parenti, S. & Testa, P., The Second Hinode Science Meeting: Beyond Discovery-Toward Understanding (Editors: Lites, B., Cheung, M., Magara, T., Mariska, J. & Reeves, K.), Astronomical Society of the Pacific Conference Series, 415, p. 256
6. Hinode X-Ray Telescope Detection of Hot Emission from Quiescent Active Regions: A Nanoflare Signature? [92]
   Schmelz, J. T., Saar, S. H., DeLuca, E. E., Golub, L., Kashyap, V. L., Weber, M. A. & Klimchuk, J. A., ApJ, 693, L131

2008

1. Highly Efficient Modeling of Dynamic Coronal Loops [292]
   Klimchuk, J. A., Patsourakos, S. & Cargill, P. J., ApJ, 682, 1351
2. Are Constant Loop Widths an Artifact of the Background and the Spatial Resolution? [33]
   López Fuentes, M. C., Démoulin, P. & Klimchuk, J. A., ApJ, 673, 586
3. Static and Impulsive Models of Solar Active Regions [22]
   Patsourakos, S. & Klimchuk, J. A., ApJ, 689, 1406

2007

1. The Temporal Evolution of Coronal Loops Observed by GOES SXI [33]
   López Fuentes, M. C., Klimchuk, J. A. & Mandrini, C. H., ApJ, 657, 1127
2. The Cross-Field Thermal Structure of Coronal Loops from Triple-Filter TRACE Observations [23]
   Patsourakos, S. & Klimchuk, J. A., ApJ, 667, 591

2006

1. DC coronal heating and the nonlinear evolution of current sheets [5]
   Dahlburg, R. B., Klimchuk, J. A. & Antiochos, S. K., Advances in Space Research, 37, 1342
2. The Origin of High-Speed Motions and Threads in Prominences [100]
   Karpen, J. T., Antiochos, S. K. & Klimchuk, J. A., ApJ, 637, 531
3. Heating of the Magnetically Closed Corona [0]
   Klimchuk, J. A., López Fuentes, M. C. & DeVore, C. R., SOHO-17. 10 Years of SOHO and Beyond (Editors: Lacoste, H. & Ouwehand, L.), ESA Special Publication, 617, p. 8
4. Coronal Heating [4]
   Klimchuk, J. A. & López Fuentes, M. C., Recent Advances in Astronomy and Astrophysics (Editors: Solomos, Nikolaos), American Institute of Physics Conference Series, 848, p. 55
5. The Magnetic Structure of Coronal Loops Observed by TRACE [79]
   López Fuentes, M. C., Klimchuk, J. A. & Démoulin, P., ApJ, 639, 459
6. Evolution of coronal loops [0]
   López Fuentes, M. C., Mandrini, C. H. & Klimchuk, J. A., Boletin de la Asociacion Argentina de Astronomia La Plata Argentina, 49, 107
7. Coronal loops as self-organized critical systems [1]
   López Fuentes, M. C. & Klimchuk, J. A., Boletin de la Asociacion Argentina de Astronomia La Plata Argentina, 49, 108
8. Nonthermal Spectral Line Broadening and the Nanoflare Model [127]
   Patsourakos, S. & Klimchuk, J. A., ApJ, 647, 1452

2005

1. An Explanation for the ``Switch-On'' Nature of Magnetic Energy Release and Its Application to Coronal Heating [83]
   Dahlburg, R. B., Klimchuk, J. A. & Antiochos, S. K., ApJ, 622, 1191
2. Coronal Loop Heating by Nanoflares: The Impact of the Field-aligned Distribution of the Heating on Loop Observations [44]
   Patsourakos, S. & Klimchuk, J. A., ApJ, 628, 1023

2004

1. Comments on `Possible Role of MHD Waves in Heating the Solar Corona' by Dwivedi and Pandey [1]
   Klimchuk, J. A., Porter, L. J. & Sturrock, P. A., Solar Physics, 221, 47
2. Coronal Seismology and the Propagation of Acoustic Waves along Coronal Loops [40]
   Klimchuk, J. A., Tanner, S. E. M. & De Moortel, I., ApJ, 616, 1232
3. Coronal Loop Heating by Nanoflares: Some Observational Implications [0]
   Patsourakos, S. & Klimchuk, J. A., Hellenic Astronomical Society Sixth Astronomical Conference (Editors: Laskarides, Paul), p. 35
4. The Effect of the Spatial Distribution of Nanoflare Heating on Loop Observables [0]
   Patsourakos, S. & Klimchuk, J. A., SOHO 15 Coronal Heating (Editors: Walsh, R. W., Ireland, J., Danesy, D. & Fleck, B.), ESA Special Publication, 575, p. 297
5. A Model for Bright Extreme-Ultraviolet Knots in Solar Flare Loops [18]
   Patsourakos, S., Antiochos, S. K. & Klimchuk, J. A., ApJ, 614, 1022
6. The Inability of Steady-Flow Models to Explain the Extreme-Ultraviolet Coronal Loops [43]
   Patsourakos, S., Klimchuk, J. A. & MacNeice, P. J., ApJ, 603, 322
7. An Observational Test for Coronal Heating Models [0]
   van Driel-Gesztelyi, L., Démoulin, P., Mandrini, C. H., Harra, L. K. & Klimchuk, J. A., Stars as Suns : Activity, Evolution and Planets (Editors: Dupree, Andrea K. & Benz, Arnold O.), IAU Symposium, 219, p. 473

2003

1. Coronal energy release via ideal three-dimensional instability three-dimensional instability [14]
   Dahlburg, R. B., Klimchuk, J. A. & Antiochos, S. K., Advances in Space Research, 32, 1029
2. The Long-Term Evolution of AR 7978: Testing Coronal Heating Models [36]
   Démoulin, P., van Driel-Gesztelyi, L., Mandrini, C. H., Klimchuk, J. A. & Harra, L., ApJ, 586, 592
3. Constraints on the Magnetic Field Geometry in Prominences [63]
   Karpen, J. T., Antiochos, S. K., Klimchuk, J. A. & MacNeice, P. J., ApJ, 593, 1187
4. The mystery of Coronal Loops [0]
   Klimchuk, J. A., Boletin de la Asociacion Argentina de Astronomia La Plata Argentina, 46, 2
5. Coronal arcs and magnetic structure of the solar corona [0]
   López Fuentes, M. C. & Klimchuk, J. A., Boletin de la Asociacion Argentina de Astronomia La Plata Argentina, 46, 2
6. How to test coronal heating models? [0]
   Mandrini, C. H., Démoulin, P., van Driel-Gesztelyi, L., Klimchuk, J. A. & Harra, L. K., Boletin de la Asociacion Argentina de Astronomia La Plata Argentina, 46, 5
7. A Transient Heating Model for Coronal Structure and Dynamics [62]
   Spadaro, D., Lanza, A. F., Lanzafame, A. C., Karpen, J. T., Antiochos, S. K., Klimchuk, J. A. & MacNeice, P. J., ApJ, 582, 486
8. The Long-Term Evolution of AR 7978: The Scalings of the Coronal Plasma Parameters with the Mean Photospheric Magnetic Field [47]
   van Driel-Gesztelyi, L., Démoulin, P., Mandrini, C. H., Harra, L. & Klimchuk, J. A., ApJ, 586, 579

2002

1. Observation and Theory of Coronal Loop Structure [0]
   Klimchuk, J. A., Multi-Wavelength Observations of Coronal Structure and Dynamics (Editors: Martens, P. C. H. & Cauffman, D.), 10, p. 65
2. Modeling the coronal loop of an X-ray bright point [0]
   McMullen, R., Longcope, D., McKenzie, D., Kankelborg, C. & Klimchuk, J., Observational Challenges for the Next Decade of Solar Magnetohydrodynamics (Editors: Fisher, George H. & Longcope, Dana W.), p. 28
3. Fuzzy hot post-flare loops versus sharp cool post-flare loops [6]
   Patsourakos, S., Antiochos, S. K. & Klimchuk, J. A., SOLMAG 2002. Proceedings of the Magnetic Coupling of the Solar Atmosphere Euroconference (Editors: Sawaya-Lacoste, Huguette), ESA Special Publication, 505, p. 207
4. Hydrodynamic simulations of coronal loops subject to transient heating [3]
   Spadaro, D., Lanza, A. F., Lanzafame, A. C., Karpen, J. T., MacNeice, P. J., Antiochos, S. K. & Klimchuk, J. A., From Solar Min to Max: Half a Solar Cycle with SOHO (Editors: Wilson, A.), ESA Special Publication, 508, p. 331
5. Hydrodynamic models of transiently heated coronal loops [0]
   Spadaro, D., Lanza, A. F., Lanzafame, A. C., Karpen, J. T., Antiochos, S. K., Klimchuk, J. A. & MacNeice, P. J., SOLMAG 2002. Proceedings of the Magnetic Coupling of the Solar Atmosphere Euroconference (Editors: Sawaya-Lacoste, Huguette), ESA Special Publication, 505, p. 583

2001

1. Are Magnetic Dips Necessary for Prominence Formation? [184]
   Karpen, J. T., Antiochos, S. K., Hohensee, M., Klimchuk, J. A. & MacNeice, P. J., ApJ, 553, L85
2. Theory of Coronal Mass Ejections [98]
   Klimchuk, J. A., Geophysical Monograph Series, 125, 143
3. Spectroscopic Diagnostics of Nanoflare-heated Loops [89]
   Klimchuk, J. A. & Cargill, P. J., ApJ, 553, 440
4. Properties of EUV and X-ray emission in solar active regions [3]
   Matthews, S. A., Klimchuk, J. A. & Harra, L. K., A&A, 365, 186
5. On the Correlation between Coronal and Lower Transition Region Structures at Arcsecond Scales [40]
   Vourlidas, A., Klimchuk, J. A., Korendyke, C. M., Tarbell, T. D. & Handy, B. N., ApJ, 563, 374

2000

1. Three-dimensional Stereoscopic Analysis of Solar Active Region Loops. II. SOHO/EIT Observations at Temperatures of 1.5-2.5 MK [97]
   Aschwanden, Markus J., Alexander, David, Hurlburt, Neal, Newmark, Jeffrey S., Neupert, Werner M., Klimchuk, J. A. & Gary, G. Allen, ApJ, 531, 1129
2. Test on the parameter dependence of coronal heating models [0]
   Démoulin, P., Mandrini, C. H. & Klimchuk, J. A., The Sun and Sun-Like Stars (Editors: Jankovics, I., Kovács, J. & Vincze, I. J.), p. 85
3. Cross-Sectional Properties of Coronal Loops [175]
   Klimchuk, J. A., Solar Physics, 193, 53
4. Twisted Coronal Magnetic Loops [56]
   Klimchuk, J. A., Antiochos, S. K. & Norton, D., ApJ, 542, 504
5. Magnetic Field and Plasma Scaling Laws: Their Implications for Coronal Heating Models [199]
   Mandrini, C. H., Démoulin, P. & Klimchuk, J. A., ApJ, 530, 999
6. The spatial distribution of EUV emission in active regions [0]
   Matthews, S. A., Klimchuk, J. A. & Harra, L. K., The Sun and Sun-Like Stars (Editors: Jankovics, I., Kovács, J. & Vincze, I. J.), p. 53
7. Width Variations along Coronal Loops Observed by TRACE [113]
   Watko, J. A. & Klimchuk, J. A., Solar Physics, 193, 77

1999

1. The Dynamic Formation of Prominence Condensations [230]
   Antiochos, S. K., MacNeice, P. J., Spicer, D. S. & Klimchuk, J. A., ApJ, 512, 985
2. A Model for Solar Coronal Mass Ejections [1356]
   Antiochos, S. K., DeVore, C. R. & Klimchuk, J. A., ApJ, 510, 485
3. Three-dimensional Stereoscopic Analysis of Solar Active Region Loops. I. SOHO/EIT Observations at Temperatures of (1.0-1.5) × 10⁶ K [260]
   Aschwanden, Markus J., Newmark, Jeffrey S., Delaboudinière, Jean-Pierre, Neupert, Werner M., Klimchuk, J. A., Gary, G. Allen, Portier-Fozzani, Fabrice & Zucker, Arik, ApJ, 515, 842
4. Properties of Transition Region and Coronal Loops [0]
   Matthews, S. A., Klimchuk, J. A. & Harra-Murnion, L. K., 8th SOHO Workshop: Plasma Dynamics and Diagnostics in the Solar Transition Region and Corona (Editors: Vial, J.-C. & Kaldeich-Schü, B.), ESA Special Publication, 446, p. 489
5. Temperature and density in a polar plume - measurements from CDS/SOHO [56]
   Young, P. R., Klimchuk, J. A. & Mason, H. E., A&A, 350, 286

1998

1. 3D-Stereoscopic Analysis of Solar Active Region Loops Observed with SOHO/EIT [0]
   Aschwanden, M. J., Newmark, J. S., Delaboudiniere, J.-P., Neupert, W. M., Klimchuk, J. A., Gary, G. Allen, Portier-Fozzani, F. & Zucker, A., CESRA Workshop on Coronal Explosive Events (Editors: Pohjolainen, S.), p. 19. ISBN 951-22-4097-1, ISSN 1455-9587
2. Theory of spicules, jets, plumes and other solar eruptions [5]
   Klimchuk, J. A., Solar Jets and Coronal Plumes (Editors: Guyenne, Tan-Duc), ESA Special Publication, 421, p. 233
3. A Self-consistent Model for the Resonant Heating of Coronal Loops: The Effects of Coupling with the Chromosphere [91]
   Ofman, L., Klimchuk, J. A. & Davila, J. M., ApJ, 493, 474

1997

1. A Nanoflare Explanation for the Heating of Coronal Loops Observed by Yohkoh [152]
   Cargill, P. J. & Klimchuk, J. A., ApJ, 478, 799
2. The Occurrence Rate of Soft X-Ray Flares as a Function of Solar Activity [55]
   Feldman, U., Doschek, G. A. & Klimchuk, J. A., ApJ, 474, 511

1996

1. Broadband Imaging Spectroscopy with the Solar Radio Telescope [0]
   Bastian, T. S., Gary, D. E., Hurford, G. J., Hudson, H. S., Klimchuk, J. A., Petrosian, V. & White, S. M., Radio Emission from the Stars and the Sun (Editors: Taylor, A. R. & Paredes, J. M.), Astronomical Society of the Pacific Conference Series, 93, p. 430
2. The Heating of Soft X-ray Coronal Loops [1]
   Klimchuk, J. A. & Porter, L. J., IAU Colloquium 153: Magnetodynamic Phenomena in the Solar Atmosphere - Prototypes of Stellar Magnetic Activity (Editors: Uchida, Yutaka, Kosugi, Takeo & Hudson, Hugh S.), p. 39
3. STEREO: a solar terrestrial event observer mission concept [4]
   Socker, Dennis G., Antiochos, S. K., Brueckner, Guenter E., Cook, John W., Dere, Kenneth P., Howard, Russell A., Karpen, J. T., Klimchuk, J. A., Korendyke, Clarence M., Michels, Donald J., Moses, J. Daniel, Prinz, Dianne K., Sheely, N. R., Wu, Shi T., Buffington, Andrew, Jackson, Bernard V., Labonte, Barry, Lamy, Philippe L., Rosenbauer, H., Schwenn, Rainer, Burlaga, L., Davila, Joseph M., Davis, John M., Goldstein, Barry, Harris, H., Liewer, Paulett C., Neugebauer, Marcia, Hildner, E., Pizzo, Victor J., Moulton, Norman E., Linker, J. A. & Mikic, Z., Missions to the Sun (Editors: Rust, David M.), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 2804, p. 50

1995

1. A Comparison of Active Region Temperatures and Emission Measures Observed in Soft X-Rays and Microwaves and Implications for Coronal Heating [61]
   Klimchuk, J. A. & Gary, D. E., ApJ, 448, 925

1994

1. The Magnetic Field of Solar Prominences [240]
   Antiochos, S. K., Dahlburg, R. B. & Klimchuk, J. A., ApJ, 420, L41
2. Coronal Eruptions Observed by YOHKOH [21]
   Klimchuk, J. A., Acton, L. W., Harvey, K. L., Hudson, H. S., Kluge, K. L., Sime, D. G., Strong, K. T. & Watanabe, Ta., X-ray solar physics from Yohkoh (Editors: Uchida, Yutaka, Watanabe, Tetsuya, Shibata, Kazunari & Hudson, Hugh S.), p. 181
3. Asymptotic Forms for the Energy of Force-free Magnetic Field Configurations of Translational Symmetry [8]
   Sturrock, P. A., Antiochos, S. K., Klimchuk, J. A. & Roumeliotis, G., ApJ, 431, 870
4. The Asymptotic Behavior of Force-Free Magnetic-Field Configurations [0]
   Sturrock, P. A., Klimchuk, J. A., Roumeliotis, G. & Antiochos, S. K., Solar Active Region Evolution: Comparing Models with Observations (Editors: Balasubramaniam, K. S. & Simon, George W.), Astronomical Society of the Pacific Conference Series, 68, p. 219
5. Coronal/Interplanetary Disturbances Associated with a Solar Filament Disappearance on September 28, 1991 [2]
   Watanabe, T., Kozuka, Y., Ohyama, M., Kojima, M., Yamaguchi, K., Watari, S., Tsuneta, S., Joselyn, J. A., Harvey, K. L., Acton, L. W. & Klimchuk, J. A., Solar-Terrestrial Energy Program (Editors: Baker, D. N., Papitashvili, V. O. & Teague, M. J.), p. 89
6. Eruptive-Prominence Related Coronal Disturbances Observed with YOHKOH SXT [0]
   Watanabe, T., Kozuka, Y., Ohyama, M., Kojima, M., Yamaguchi, K., Watari, S., Tsuneta, S., Joselyn, J. A., Harvey, K. L., Acton, L. W. & Klimchuk, J. A., Solar-Terrestrial Energy Program (Editors: Baker, D. N., Papitashvili, V. O. & Teague, M. J.), p. 85
7. Interplanetary Consequences of Transient Coronal Events [6]
   Watanabe, Ta., Kojima, M., Kozuka, Y., Tsuneta, S., Lemen, J. R., Hudson, H., Joselyn, J. A. & Klimchuk, J. A., X-ray solar physics from Yohkoh (Editors: Uchida, Yutaka, Watanabe, Tetsuya, Shibata, Kazunari & Hudson, Hugh S.), p. 207

1992

1. Three-dimensional Force-free Magnetic Fields and Flare Energy Buildup [58]
   Klimchuk, J. A. & Sturrock, P. A., ApJ, 385, 344
2. The Practical Application of the Magnetic Virial Theorem [41]
   Klimchuk, J. A., Canfield, R. C. & Rhoads, J. E., ApJ, 385, 327
3. Static and dynamic loop models and their observational signatures. [7]
   Klimchuk, James A., Coronal Streamers, Coronal Loops, and Coronal and Solar Wind Composition (Editors: Mattok, C.), ESA Special Publication, 348, p. 167

1991

1. A Model for the Formation of Solar Prominences [173]
   Antiochos, S. K. & Klimchuk, J. A., ApJ, 378, 372
2. Simulated SXT Observations of Coronal Loops [2]
   Dixon, W. W., Klimchuk, J. A., Sturrock, P. A. & Lemen, J. R., Flare Physics in Solar Activity Maximum 22 (Editors: Uchida, Yutaka, Canfield, Richard C., Watanabe, Tetsuya & Hiei, Eijiro), p.297
3. The Practical Application of the Magnetic Virial Theorem [0]
   Klimchuk, J. A., Canfield, R. C. & Rhoads, J. E., Flare Physics in Solar Activity Maximum 22 (Editors: Uchida, Yutaka, Canfield, Richard C., Watanabe, Tetsuya & Hiei, Eijiro), p.219

1990

1. Episodic Coronal Heating [54]
   Sturrock, P. A., Dixon, W. W., Klimchuk, J. A. & Antiochos, S. K., ApJ, 356, L31

1989

1. Largescale Magnetic Field Phenomena [17]
   Harrison, R. A., Bentley, R. D., Brosius, J., Dwivedi, B. N., Jardine, M., Klimchuk, J. A., Kundu, M. R., Pearce, G., Saba, J., Sakurai, T., Schmahl, E. J., Schmelz, J., Sime, D. G., Steele, C. D. C., Sun, M. T., Tappin, S. J., Waljeski, K., Wang, A. H. & Wu, S. T., Thermal-Non-Thermal Interactions in Solar Flares (Editors: Phillips, Kenneth J. H.), p. 1
2. Force-free Magnetic Fields: Is There a ``Loss of Equilibrium''? [94]
   Klimchuk, J. A. & Sturrock, P. A., ApJ, 345, 1034

1988

1. Coronal Magnetic Fields Produced by Photospheric Shear [38]
   Klimchuk, J. A., Sturrock, P. A. & Yang, W.-H., ApJ, 335, 456
2. Heating-related Flows in Cool Solar Loops [36]
   Klimchuk, J. A. & Mariska, J. T., ApJ, 328, 334

1987

1. The Magnetic and Velocity Structure Adjacent to Solar Active Regions [13]
   Athay, R. Grant & Klimchuk, J. A., ApJ, 318, 437
2. A numerical study of the thermal stability of solar loops. [0]
   Klimchuk, J. A., Antiochos, S. K. & Mariska, J. T., NASA Conference Publication (Editors: Athay, G. & Spicer, D. S.), NASA Conference Publication, 2483, p. 113
3. A Numerical Study of the Nonlinear Thermal Stability of Solar Loops [62]
   Klimchuk, J. A., Antiochos, S. K. & Mariska, J. T., ApJ, 320, 409

1986

1. Magnetic Shear. IV. Hale Regions 16740, 16815, and 16850 [10]
   Athay, R. G., Klimchuk, J. A., Jones, H. P. & Zirin, H., ApJ, 303, 884
2. A numerical study of the thermal stability of low-lying coronal loops. [1]
   Klimchuk, J. A., Antiochos, S. K. & Mariska, J. T., NASA Conference Publication (Editors: Poland, Arthur I.), NASA Conference Publication, 2442, p. 389
3. C IV Doppler shifts observed in active region filaments. [4]
   Klimchuk, J. A., NASA Conference Publication (Editors: Poland, Arthur I.), NASA Conference Publication, 2442, p. 183
4. Numerical simulations of a siphon mechanism for quiescent prominence formation. [2]
   Poland, A. I., Mariska, J. T. & Klimchuk, J. A., NASA Conference Publication (Editors: Poland, Arthur I.), NASA Conference Publication, 2442, p. 57

1983

1. Outflow from the sun's polar corona [23]
   Orrall, F. Q., Rottman, G. J. & Klimchuk, J. A., ApJ, 266, L65

1982

1. Measurements of outflow from the base of solar coronal holes [64]
   Rottman, G. J., Orrall, F. Q. & Klimchuk, J. A., ApJ, 260, 326

1981

1. Measurement of systematic outflow from the solar transition region underlying a coronal hole [22]
   Rottman, G. J., Klimchuk, J. A. & Orrall, F. Q., ApJ, 247, L135