Publications of Petrus C. Martens

A list of publications authored or co-authored by Petrus C. Martens, 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: 0000-0001-8078-6856

List of publications ordered by citations
Number of papers: 178 (refereed: 104)
No. of citations: 4076
First author papers: 57 (refereed: 26)

2025

1. The Impacts of Magnetogram Projection Effects on Solar Flare Forecasting [0]
   Goodwin, Griffin T., Sadykov, Viacheslav M. & Martens, Petrus C., ApJ, 981, 200

2024

1. A dataset of manually annotated filaments from H-alpha observations [2]
   Ahmadzadeh, Azim, Adhyapak, Rohan, Chaurasiya, Kartik, Nagubandi, Laxmi Alekhya, Aparna, V., Martens, Petrus C., Pevtsov, Alexei, Bertello, Luca, Pevtsov, Alexander, Douglas, Naomi, McDonald, Samuel, Bawa, Apaar, Kang, Eugene, Wu, Riley, Kempton, Dustin J., Abdelkarem, Aya, Copeland, Patrick M. & Seelamneni, Sri Harsha, Scientific Data, 11, 1031
2. Magnetic Helicity Signs and Flaring Propensity: Comparing the Force-free Parameter with the Helicity Signs of Hα Filaments and X-Ray Sigmoids [0]
   Aparna, V., Georgoulis, Manolis K. & Martens, Petrus C., ApJ, 967, 134
3. Investigating Performance Trends of Simulated Real-time Solar Flare Predictions: The Impacts of Training Windows, Data Volumes, and the Solar Cycle [5]
   Goodwin, Griffin T., Sadykov, Viacheslav M. & Martens, Petrus C., ApJ, 964, 163
4. Advancing Solar Energetic Particle Event Prediction through Survival Analysis and Cloud Computing. I. Kaplan–Meier Estimation and Cox Proportional Hazards Modeling [2]
   Jackson, India & Martens, Petrus, ApJS, 272, 37
5. Precise and Accurate Short-term Forecasting of Solar Energetic Particle Events with Multivariate Time-series Classifiers [3]
   Rotti, Sumanth A., Aydin, Berkay & Martens, Petrus C., ApJ, 974, 188
6. Short-term Classification of Strong Solar Energetic Particle Events Using Multivariate Time-series Classifiers [3]
   Rotti, Sumanth A., Aydin, Berkay & Martens, Petrus C., ApJ, 966, 165

2023

1. A Systematic Magnetic Polarity Inversion Line Data Set from SDO/HMI Magnetograms [14]
   Ji, Anli, Cai, Xumin, Khasayeva, Nigar, Georgoulis, Manolis K., Martens, Petrus C., Angryk, Rafal A. & Aydin, Berkay, ApJS, 265, 28
2. Muon Flux Variations Measured by Low-Cost Portable Cosmic Ray Detectors and Their Correlation With Space Weather Activity [6]
   Mubashir, A., Ashok, A., Bourgeois, A. G., Chien, Y. T., Connors, M., Potdevin, E., He, X., Martens, P., Mikler, A., Perera, A. G. U., Sadykov, V., Sarsour, M., Sharma, D. & Tiwari, C., Journal of Geophysical Research (Space Physics), 128, e2023JA031943
3. Muon Flux Variation in Real-time and its Correlation with Space Weather Activity [0]
   Mubashir, Arfa, He, Xiaochun, Ashok, Ashwin, Bourgeois, Anu G., Chien, Yang-Ting, Connors, Megan, Potdevin, Ernesto, Martens, Petrus C., Mikler, Armin R., Perera, Unil G. U., Sadykov, Viacheslav M., Sarsour, Murad, Sharma, Deepali & Tiwari, Chetan, essoar.167751625
4. Analysis of SEP Events and Their Possible Precursors Based on the GSEP Catalog [8]
   Rotti, Sumanth & Martens, Petrus C., ApJS, 267, 40
5. Review of Solar Energetic Particle Prediction Models [113]
   Whitman, Kathryn, Egeland, Ricky, Richardson, Ian G., Allison, Clayton, Quinn, Philip, Barzilla, Janet, Kitiashvili, Irina, Sadykov, Viacheslav, Bain, Hazel M., Dierckxsens, Mark, Mays, M. Leila, Tadesse, Tilaye, Lee, Kerry T., Semones, Edward, Luhmann, Janet G., Núñez, Marlon, White, Stephen M., Kahler, Stephen W., Ling, Alan G., Smart, Don F., Shea, Margaret A., Tenishev, Valeriy, Boubrahimi, Soukaina F., Aydin, Berkay, Martens, Petrus, Angryk, Rafal, Marsh, Michael S., Dalla, Silvia, Crosby, Norma, Schwadron, Nathan A., Kozarev, Kamen, Gorby, Matthew, Young, Matthew A., Laurenza, Monica, Cliver, Edward W., Alberti, Tommaso, Stumpo, Mirko, Benella, Simone, Papaioannou, Athanasios, Anastasiadis, Anastasios, Sandberg, Ingmar, Georgoulis, Manolis K., Ji, Anli, Kempton, Dustin, Pandey, Chetraj, Li, Gang, Hu, Junxiang, Zank, Gary P., Lavasa, Eleni, Giannopoulos, Giorgos, Falconer, David, Kadadi, Yash, Fernandes, Ian, Dayeh, Maher A., Muñoz-Jaramillo, Andrés, Chatterjee, Subhamoy, Moreland, Kimberly D., Sokolov, Igor V., Roussev, Ilia I., Taktakishvili, Aleksandre, Effenberger, Frederic, Gombosi, Tamas, Huang, Zhenguang, Zhao, Lulu, Wijsen, Nicolas, Aran, Angels, Poedts, Stefaan, Kouloumvakos, Athanasios, Paassilta, Miikka, Vainio, Rami, Belov, Anatoly, Eroshenko, Eugenia A., Abunina, Maria A., Abunin, Artem A., Balch, Christopher C., Malandraki, Olga, Karavolos, Michalis, Heber, Bernd, Labrenz, Johannes, Kühl, Patrick, Kosovichev, Alexander G., Oria, Vincent, Nita, Gelu M., Illarionov, Egor, O'Keefe, Patrick M., Jiang, Yucheng, Fereira, Sheldon H., Ali, Aatiya, Paouris, Evangelos, Aminalragia-Giamini, Sigiava, Jiggens, Piers, Jin, Meng, Lee, Christina O., Palmerio, Erika, Bruno, Alessandro, Kasapis, Spiridon, Wang, Xiantong, Chen, Yang, Sanahuja, Blai, Lario, David, Jacobs, Carla, Strauss, Du Toit, Steyn, Ruhann, van den Berg, Jabus, Swalwell, Bill, Waterfall, Charlotte, Nedal, Mohamed, Miteva, Rositsa, Dechev, Momchil, Zucca, Pietro, Engell, Alec, Maze, Brianna, Farmer, Harold, Kerber, Thuha, Barnett, Ben, Loomis, Jeremy, Grey, Nathan, Thompson, Barbara J., Linker, Jon A., Caplan, Ronald M., Downs, Cooper, Török, Tibor, Lionello, Roberto, Titov, Viacheslav, Zhang, Ming & Hosseinzadeh, Pouya, Advances in Space Research, 72, 5161

2022

1. Contingency Space: A Semimetric Space for Classification Evaluation [1]
   Ahmadzadeh, Azim, Kempton, Dustin J., Martens, Petrus C. & Angryk, Rafal A., IEEE Transactions on Pattern Analysis and Machine Intelligence, 45, 1501
2. Exploratory Analysis of Magnetic Polarity Inversion Line Metadata and Eruptive Characteristics of Solar Active Regions [0]
   Aydin, Berkay, Ji, Anli, Khasayeva, Nigar, Angryk, Rafal A., Martens, Petrus & Georgoulis, Manolis K., 44th COSPAR Scientific Assembly. Held 16-24 July, 44, p. 3223
3. Global network of cosmic ray muon detectors for terrestrial and space weather monitoring and climate studies [0]
   He, Xiaochun, Ashok, Ashwin, Chien, Yang-Ting, Connors, Megan, Martens, Petrus, Mikler, Armin, Perera, Unil, Sadykov, Viacheslav, Sarsour, Murad & Tiwari, Chetan, 44th COSPAR Scientific Assembly. Held 16-24 July, 44, p. 1562
4. Solar Data Analysis Center Initiatives To Promote Open Science [0]
   Ireland, Jack, Davey, Alisdair, Inglis, Andrew, Mansky, Edmund, Martens, Petrus & Yashiro, Seiji, Third Triennial Earth-Sun Summit (TESS), 54, p. 2022n7i119p02
5. Machine Learning-based Prediction of Solar Energetic Particle Events Using GOES Proton and X-ray Time Series Data. [0]
   Rotti, Sumanth & Martens, Petrus, 44th COSPAR Scientific Assembly. Held 16-24 July, 44, p. 1182
6. Integrated Geostationary Solar Energetic Particle Events Catalog: GSEP [18]
   Rotti, Sumanth, Aydin, Berkay, Georgoulis, Manolis K. & Martens, Petrus C., ApJS, 262, 29

2021

1. Which Verification Metrics Are Appropriate for Rare-Event Classification Problems? [0]
   Ahmadzadeh, Azim, Kempton, Dustin, Martens, Petrus & Angryk, Rafal, essoar.10508222
2. Improved Measurements of the Sun's Meridional Flow and Torsional Oscillation from Correlation Tracking on MDI and HMI Magnetograms [15]
   Mahajan, Sushant S., Hathaway, David H., Muñoz-Jaramillo, Andrés & Martens, Petrus C., ApJ, 917, 100
3. Using CME Progenitors to Assess CME Geoeffectiveness [4]
   Mundra, Kashvi, Aparna, V. & Martens, Petrus, ApJS, 257, 33
4. Solar evolution and extrema: current state of understanding of long-term solar variability and its planetary impacts [39]
   Nandy, Dibyendu, Martens, Petrus C. H., Obridko, Vladimir, Dash, Soumyaranjan & Georgieva, Katya, Progress in Earth and Planetary Science, 8, 40

2020

1. Multivariate time series dataset for space weather data analytics [62]
   Angryk, Rafal A., Martens, Petrus C., Aydin, Berkay, Kempton, Dustin, Mahajan, Sushant S., Basodi, Sunitha, Ahmadzadeh, Azim, Cai, Xumin, Filali Boubrahimi, Soukaina, Hamdi, Shah Muhammad, Schuh, Michael A. & Georgoulis, Manolis K., Scientific Data, 7, 227
2. Solar Filaments and Interplanetary Magnetic Field B_z [11]
   Aparna, V. & Martens, Petrus C., ApJ, 897, 68
3. Machine Learning in Heliophysics and Space Weather Forecasting: A White Paper of Findings and Recommendations [5]
   Nita, Gelu, Georgoulis, Manolis, Kitiashvili, Irina, Sadykov, Viacheslav, Camporeale, Enrico, Kosovichev, Alexander, Wang, Haimin, Oria, Vincent, Wang, Jason, Angryk, Rafal, Aydin, Berkay, Ahmadzadeh, Azim, Bai, Xiaoli, Bastian, Timothy, Filali Boubrahimi, Soukaina, Chen, Bin, Davey, Alisdair, Fereira, Sheldon, Fleishman, Gregory, Gary, Dale, Gerrard, Andrew, Hellbourg, Gregory, Herbert, Katherine, Ireland, Jack, Illarionov, Egor, Kuroda, Natsuha, Li, Qin, Liu, Chang, Liu, Yuexin, Kim, Hyomin, Kempton, Dustin, Ma, Ruizhe, Martens, Petrus, McGranaghan, Ryan, Semones, Edward, Stefan, John, Stejko, Andrey, Collado-Vega, Yaireska, Wang, Meiqi, Xu, Yan & Yu, Sijie, arXiv:2006.12224
4. A Catalog of Solar Flare Events Observed by the SOHO/EIT [7]
   Rotti, Sumanth A., Martens, Petrus C. H. & Aydin, Berkay, ApJS, 249, 20

2018

1. Using DSG to Build the Capability of Space Weather Forecasting in Deep Space [0]
   DeLuca, E. E., Golub, L., Korreck, K., Savage, S., McKenzie, D. D., Rachmeler, L., Winebarger, A. & Martens, P., Deep Space Gateway Concept Science Workshop (Editors: LPI Editorial Board), LPI Contributions, 2063, p. 3050
2. Using DSG to build the capability of space weather forecasting in deep space. [0]
   DeLuca, Edward, Golub, Leon, Korreck, Kelly, Savage, Sabrina L., McKenzie, David E., Rachmeler, Laurel, Winebarger, Amy R. & Martens, Petrus C., 2018 Triennial Earth-Sun Summit (TESS) (Editors: Brousseau, Donna), p. 220.02
3. Hemispheric Preference and Cyclic Variation of Solar Filament Chirality from 2000 to 2016 [6]
   Hazra, Soumitra, Mahajan, Sushant S., Douglas, William Keith, Jr. & Martens, Petrus C. H., ApJ, 865, 108
4. Forecasting Space Weather Hazards for Astronauts in Deep Space [3]
   Martens, P. C., Deep Space Gateway Concept Science Workshop (Editors: LPI Editorial Board), LPI Contributions, 2063, p. 3188
5. Data Handling and Assimilation for Solar Event Prediction [9]
   Martens, Petrus C. & Angryk, Rafal A., Space Weather of the Heliosphere: Processes and Forecasts (Editors: Foullon, Claire & Malandraki, Olga E.), IAU Symposium, 335, p. 344
6. Roadmap for Reliable Ensemble Forecasting of the Sun-Earth System [2]
   Nita, Gelu, Angryk, Rafal, Aydin, Berkay, Banda, Juan, Bastian, Tim, Berger, Tom, Bindi, Veronica, Boucheron, Laura, Cao, Wenda, Christian, Eric, de Nolfo, Georgia, DeLuca, Edward, DeRosa, Marc, Downs, Cooper, Fleishman, Gregory, Fuentes, Olac, Gary, Dale, Hill, Frank, Hoeksema, Todd, Hu, Qiang, Ilie, Raluca, Ireland, Jack, Kamalabadi, Farzad, Korreck, Kelly, Kosovichev, Alexander, Lin, Jessica, Lugaz, Noe, Mannucci, Anthony, Mansour, Nagi, Martens, Petrus, Mays, Leila, McAteer, James, McIntosh, Scott W., Oria, Vincent, Pan, David, Panesi, Marco, Pesnell, W. Dean, Pevtsov, Alexei, Pillet, Valentin, Rachmeler, Laurel, Ridley, Aaron, Scherliess, Ludger, Toth, Gabor, Velli, Marco, White, Stephen, Zhang, Jie & Zou, Shasha, arXiv:1810.08728

2017

1. On the Prediction of >100 MeV Solar Energetic Particle Events Using GOES Satellite Data [0]
   Filali Boubrahimi, Soukaina, Aydin, Berkay, Martens, Petrus & Angryk, Rafal, arXiv:1712.03998
2. The Faint Young Sun and Faint Young Stars Paradox [3]
   Martens, Petrus C., Living Around Active Stars (Editors: Nandy, D., Valio, A. & Petit, P.), IAU Symposium, 328, p. 350

2016

1. A large-scale dataset of solar event reports from automated feature recognition modules [5]
   Schuh, Michael A., Angryk, Rafal A. & Martens, Petrus C., Journal of Space Weather and Space Climate, 6, A22

2015

1. Special Section: Management, Search and Analysis of Solar Astronomy Big Data [0]
   Angryk, Rafal A., Csillaghy, André & Martens, Petrus C., Astronomy and Computing, 13, 85
2. The Minimum of Solar Cycle 23: As Deep as It Could Be? [19]
   Muñoz-Jaramillo, Andrés, Senkpeil, Ryan R., Longcope, Dana W., Tlatov, Andrey G., Pevtsov, Alexei A., Balmaceda, Laura A., DeLuca, Edward E. & Martens, Petrus C. H., ApJ, 804, 68
3. Small-scale and Global Dynamos and the Area and Flux Distributions of Active Regions, Sunspot Groups, and Sunspots: A Multi-database Study [66]
   Muñoz-Jaramillo, Andrés, Senkpeil, Ryan R., Windmueller, John C., Amouzou, Ernest C., Longcope, Dana W., Tlatov, Andrey G., Nagovitsyn, Yury A., Pevtsov, Alexei A., Chapman, Gary A., Cookson, Angela M., Yeates, Anthony R., Watson, Fraser T., Balmaceda, Laura A., DeLuca, Edward E. & Martens, Petrus C. H., ApJ, 800, 48
4. Solar image parameter data from the SDO: Long-term curation and data mining [4]
   Schuh, M. A., Angryk, R. A. & Martens, P. C., Astronomy and Computing, 13, 86

2014

1. Feature Finding for Solar Physics [0]
   Martens, Petrus C., Sixth Workshop on Solar Influences on the Magnetosphere, Ionosphere and Atmosphere (Editors: Georgieva, Katya), p. 25
2. Hemispheric Patterns in Filament Chirality and Sigmoid Shape over the Solar Cycle [4]
   Martens, Petrus C., Yeates, Anthony R. & Pillai, Karthik G., Nature of Prominences and their Role in Space Weather (Editors: Schmieder, Brigitte, Malherbe, Jean-Marie & Wu, S. T.), IAU Symposium, 300, p. 135

2013

1. Use of a time delay dynamo model to obtain solar-like sunspot cycles [0]
   Amouzou, E., Nandy, D., Muñoz-Jaramillo, A. & Martens, P., Astronomical Society of India Conference Series, Astronomical Society of India Conference Series, 10, p. 83
2. On Dimensionality Reduction for Indexing and Retrieval of Large-Scale Solar Image Data [4]
   Banda, J. M., Angryk, R. A. & Martens, P. C. H., Solar Physics, 283, 113
3. Steps Toward a Large-Scale Solar Image Data Analysis to Differentiate Solar Phenomena [7]
   Banda, J. M., Angryk, R. A. & Martens, P. C. H., Solar Physics, 288, 435
4. Science-policy challenges for biodiversity, public health and urbanization: examples from Belgium [14]
   Keune, H., Kretsch, C., De Blust, G., Gilbert, M., Flandroy, L., Van den Berge, K., Versteirt, V., Hartig, T., De Keersmaecker, L., Eggermont, H., Brosens, D., Dessein, J., Vanwambeke, S., Prieur-Richard, A. H., Wittmer, H., Van Herzele, A., Linard, C., Martens, P., Mathijs, E., Simoens, I., Van Damme, P., Volckaert, F., Heyman, P. & Bauler, T., Environmental Research Letters, 8, 025015
5. The solar corona: What are the remaining fundamental physical questions? [0]
   Martens, Petrus C., Astronomical Society of India Conference Series, Astronomical Society of India Conference Series, 10, p. 25
6. Helioseismic Perspective of the Solar Dynamo [1]
   Muñoz-Jaramillo, A., Martens, P. C. H. & Nandy, D., Fifty Years of Seismology of the Sun and Stars (Editors: Jain, K., Tripathy, S. C., Hill, F., Leibacher, J. W. & Pevtsov, A. A.), Astronomical Society of the Pacific Conference Series, 478, p. 271
7. Fast Differential Emission Measure Inversion of Solar Coronal Data [60]
   Plowman, Joseph, Kankelborg, Charles & Martens, Petrus, ApJ, 771, 2
8. Outflows and Dark Bands at Arcade-like Active Region Core Boundaries [7]
   Scott, J. T., Martens, P. C. H. & Tarr, L., ApJ, 765, 82

2012

1. Degradable, click poly(vinyl alcohol) hydrogels: characterization of degradation and cellular compatibility [9]
   Alves, M. H., Young, C. J., Bozzetto, K., Poole-Warren, L. A. & Martens, P. J., Biomedical Materials, 7, 024106
2. Computer Vision for the Solar Dynamics Observatory (SDO) [96]
   Martens, P. C. H., Attrill, G. D. R., Davey, A. R., Engell, A., Farid, S., Grigis, P. C., Kasper, J., Korreck, K., Saar, S. H., Savcheva, A., Su, Y., Testa, P., Wills-Davey, M., Bernasconi, P. N., Raouafi, N.-E., Delouille, V. A., Hochedez, J. F., Cirtain, J. W., DeForest, C. E., Angryk, R. A., De Moortel, I., Wiegelmann, T., Georgoulis, M. K., McAteer, R. T. J. & Timmons, R. P., Solar Physics, 275, 79
3. All Quiet on the Solar Front: Origin and Heliospheric Consequences of the Unusual Minimum of Solar Cycle 23 [0]
   Nandy, D., Muñoz-Jaramillo, A. & Martens, P. C. H., Sun and Geosphere, 7, 17
4. DEMs for EIS and AIA [0]
   Plowman, J., Kankelborg, C., Martens, P., Ritchie, M., Scott, J. & Sharma, R., Fifth Hinode Science Meeting (Editors: Golub, L., De Moortel, I. & Shimizu, T.), Astronomical Society of the Pacific Conference Series, 456, p. 131
5. Fast DEMs for EIS and AIA [0]
   Plowman, Joseph, Kankelborg, Charles, Martens, Petrus, Ritchie, Miriam, Scott, Jason & Sharma, Rahul, SDO-4: Dynamics and Energetics of the Coupled Solar Atmosphere. The Synergy Between State-of-the-Art Observations and Numerical Simulations, p. 77
6. EUV Analysis of a Quasi-static Coronal Loop Structure [6]
   Scott, J. T., Martens, P. C. H. & McKenzie, D. E., Solar Physics, 276, 113

2011

1. Computer Vision for the Solar Dynamics Observatory: First Results and What's Next [0]
   Martens, P. C. H. & Sdo Feature Finding Team, Astronomical Data Analysis Software and Systems XX (Editors: Evans, I. N., Accomazzi, A., Mink, D. J. & Rots, A. H.), Astronomical Society of the Pacific Conference Series, 442, p. 543
2. Magnetic Quenching of Turbulent Diffusivity: Reconciling Mixing-length Theory Estimates with Kinematic Dynamo Models of the Solar Cycle [68]
   Muñoz-Jaramillo, Andrés, Nandy, Dibyendu & Martens, Petrus C. H., ApJ, 727, L23
3. The unusual minimum of sunspot cycle 23 caused by meridional plasma flow variations [142]
   Nandy, Dibyendu, Muñoz-Jaramillo, Andrés & Martens, Petrus C. H., Nature, 471, 80
4. On the Anti-correlation between Spectral Line Broadening and Intensity in Coronal Structures Observed with EIS [7]
   Scott, J. T. & Martens, P. C. H., ApJ, 742, 101
5. Simulating the Effects of Initial Pitch-angle Distributions on Solar Flares [10]
   Winter, Henry D., Martens, Petrus & Reeves, Katharine K., ApJ, 735, 103

2010

1. Scaling Laws and Temperature Profiles for Solar and Stellar Coronal Loops with Non-uniform Heating [48]
   Martens, P. C. H., ApJ, 714, 1290
2. A Double-ring Algorithm for Modeling Solar Active Regions: Unifying Kinematic Dynamo Models and Surface Flux-transport Simulations [71]
   Muñoz-Jaramillo, Andrés, Nandy, Dibyendu, Martens, Petrus C. H. & Yeates, Anthony R., ApJ, 720, L20
3. Empirical Modeling of Radiative versus Magnetic Flux for the Sun-as-a-Star [3]
   Preminger, Dora, Nandy, Dibyendu, Chapman, Gary & Martens, Petrus C. H., Solar Physics, 264, 13
4. Solar Cycle Variation of Magnetic Flux Ropes in a Quasi-Static Coronal Evolution Model [9]
   Yeates, A. R., Constable, J. A. & Martens, P. C. H., Solar Physics, 263, 121
5. Comparison of a Global Magnetic Evolution Model with Observations of Coronal Mass Ejections [29]
   Yeates, A. R., Attrill, G. D. R., Nandy, Dibyendu, Mackay, D. H., Martens, P. C. H. & van Ballegooijen, A. A., ApJ, 709, 1238

2009

1. Solar Coronal Structure and Stray Light in TRACE [39]
   DeForest, C. E., Martens, P. C. H. & Wills-Davey, M. J., ApJ, 690, 1264
2. Helioseismic Data Inclusion in Solar Dynamo Models [56]
   Muñoz-Jaramillo, Andrés, Nandy, Dibyendu & Martens, Petrus C. H., ApJ, 698, 461

2008

1. Twisted solar active region magnetic fields as drivers of space weather: Observational and theoretical investigations [7]
   Nandy, Dibyendu, Mackay, Duncan H., Canfield, Richard C. & Martens, P. C. H., Journal of Atmospheric and Solar-Terrestrial Physics, 70, 605
2. Analysis of Two Coronal Loops with Combined TRACE and SOHO/CDS Data [2]
   Scott, J. T., Martens, P. C. H. & Cirtain, J. W., Solar Physics, 252, 293

2007

1. Active Region Loops: Temperature Measurements as a Function of Time from Joint TRACE and SOHO CDS Observations [39]
   Cirtain, J. W., Del Zanna, G., DeLuca, E. E., Mason, H. E., Martens, P. C. H. & Schmelz, J. T., ApJ, 655, 598
2. Space Climate and the Solar Stellar connection: What can we learn from the stars about long-term solar variability? [29]
   Nandy, Dibyendu & Martens, P. C. H., Advances in Space Research, 40, 891
3. Combining Hydrodynamics Modeling with Test Particle Tracking to Improve Flare Simulations [1]
   Winter, H. T., Martens, P. & Rettenmayer, J., New Solar Physics with Solar-B Mission (Editors: Shibata, K., Nagata, S. & Sakurai, T.), Astronomical Society of the Pacific Conference Series, 369, p. 501

2006

1. The EUV Unresolved Corona [11]
   Cirtain, Jonathan, Martens, P. C. H., Acton, L. W. & Weber, Mark, Solar Physics, 235, 295
2. The Trace Telescope Point Spread Function for the 171 Å Filter [20]
   Gburek, S., Sylwester, J. & Martens, P., Solar Physics, 239, 531
3. Unraveling long-term solar variability and its impact on space climate: The stars as suns project [0]
   Nandy, D. & Martens, P. C. H., Proceedings of the ILWS Workshop (Editors: Gopalswamy, N. & Bhattacharyya, A.), p. 158
4. Multithermal Analysis of a SOHO/CDS Coronal Loop [39]
   Schmelz, J. T. & Martens, P. C. H., ApJ, 636, L49
5. A Time Delay Model for Solar and Stellar Dynamos [59]
   Wilmot-Smith, A. L., Nandy, D., Hornig, G. & Martens, P. C. H., ApJ, 652, 696
6. The virtual solar observatory [1]
   Young, C. A., Gurman, J. B., Dimitoglou, G., Hourcle, J., Bogart, R. S., Tian, K., Hill, F., Suarz-Sola, I., Wampler, S., Martens, P., Yoshimura, S. & Davey, A., Proceedings of the ILWS Workshop (Editors: Gopalswamy, N. & Bhattacharyya, A.), p. 226

2005

1. Low-order stellar dynamo models [32]
   Wilmot-Smith, A. L., Martens, P. C. H., Nandy, D., Priest, E. R. & Tobias, S. M., MNRAS, 363, 1167

2004

1. Cosmological stabilization of moduli with steep potentials [45]
   Brustein, R., de Alwis, S. P. & Martens, P., Physical Review D, 70, 126012
2. The Virtual Solar Observatory: status and initial operational experience [14]
   Hill, Frank, Bogart, Richard S., Davey, Alisdair, Dimitoglou, George, Gurman, Joseph B., Hourcle, Joseph A., Martens, Petrus C., Suarez-Sola, Igor, Tian, Karen, Wampler, Steven & Yoshimura, Keiji, Optimizing Scientific Return for Astronomy through Information Technologies (Editors: Quinn, Peter J. & Bridger, Alan), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 5493, p. 163

2003

1. Analysis of a coronal loop on the limb [0]
   Cirtain, J. W., Martens, P. C. H. & Winter, H. D., Advances in Space Research, 32, 1117
2. SADE: The starspot and dynamo explorer [0]
   Martens, P. C. H., Acton, L. W. A., Klumpar, D., Kankelborg, C., Stern, R. A., Peres, G. & Culhane, J. L., Advances in Space Research, 32, 1123
3. Yohkoh-SXT Observations of reconnection [12]
   Martens, P. C. H., Advances in Space Research, 32, 905
4. The Effect of Background Subtraction on the Temperature of EIT Coronal Loops [37]
   Schmelz, J. T., Beene, J. E., Nasraoui, K., Blevins, H. T., Martens, P. C. H. & Cirtain, J. W., ApJ, 599, 604

2002

1. Adsorption and Pressure Swing Desorption of NOxin Na-Y Zeolite: Experiments and Modeling [20]
   Brilhac, J.-F., Sultana, A., Gilot, P. & Martens, Environmental Science and Technology, 36, 1136
2. Blind Deconvolution of the SXT PSF Core Part [3]
   Gburek, S., Sylwester, J. & Martens, P. C. H., Multi-Wavelength Observations of Coronal Structure and Dynamics (Editors: Martens, P. C. H. & Cauffman, D.), 10, p. 417
3. Blind deconvolution of the SXT PSF core part [0]
   Gburek, S., Sylwester, J. & Martens, P. C. H., Cospar, 13, 417
4. The Origin of Prominences and Their Hemispheric Preference for the Skew of Overlying X-ray Loops [1]
   Martens, P. C. H., Multi-Wavelength Observations of Coronal Structure and Dynamics (Editors: Martens, P. C. H. & Cauffman, D.), 10, p. 135
5. The origin of prominences and their hemispheric preference for the skew of overlying X-ray loops [0]
   Martens, P. C. H., Cospar, 13, 135
6. The Inadequacy of Temperature Measurements in the Solar Corona through Narrowband Filter and Line Ratios [76]
   Martens, P. C. H., Cirtain, J. W. & Schmelz, J. T., ApJ, 577, L115

2001

1. Chromospheric Damping of Alfvén Waves [169]
   De Pontieu, B., Martens, P. C. H. & Hudson, H. S., ApJ, 558, 859
2. Simultaneous EUV imaging and spectroscopy [2]
   Kankelborg, Charles C., Martens, Petrus C. & Thomas, Roger J., Solar encounter. Proceedings of the First Solar Orbiter Workshop (Editors: Battrick, Bruce, Sawaya-Lacoste, H., Marsch, E., Martinez Pillet, V., Fleck, B. & Marsden, R.), ESA Special Publication, 493, p. 257
3. Science objectives of the EUV spectral imager for Solar Orbiter [0]
   Martens, Petrus C. & Kankelborg, Charles C., Solar encounter. Proceedings of the First Solar Orbiter Workshop (Editors: Battrick, Bruce, Sawaya-Lacoste, H., Marsch, E., Martinez Pillet, V., Fleck, B. & Marsden, R.), ESA Special Publication, 493, p. 293
4. Origin and Evolution of Filament-Prominence Systems [163]
   Martens, Petrus C. & Zwaan, Cornelis, ApJ, 558, 872

2000

1. Solar Flares: Preflare Phase [1]
   Martens, P., Encyclopedia of Astronomy and Astrophysics (Editors: Murdin, P.), p.2288
2. SOHO (Solar and Heliospheric Observatory) [0]
   Martens, P., Encyclopedia of Astronomy and Astrophysics (Editors: Murdin, P.), p.1978
3. The Scaling of Solar Flare Hard X-ray Emission to Other Flaring Objects in the Universe [0]
   Martens, P. C. H., Highly Energetic Physical Processes and Mechanisms for Emission from Astrophysical Plasmas (Editors: Martens, P. C. H., Tsuruta, S. & Weber, M. A.), IAU Symposium, 195, p. 133
4. On the Nature of the ``Moss'' Observed by TRACE [105]
   Martens, P. C. H., Kankelborg, C. C. & Berger, T. E., ApJ, 537, 471
5. Dynamics in Restructuring Active Regions Observed During Soho/Yohkoh/Gbo Campaigns [1]
   Schmieder, B., Deng, Y., Mandrini, C. H., Rudawy, P., Nitta, N., Mason, H., Fletcher, L., Martens, P. & Brynildsen, N., Advances in Space Research, 25, 1879

1999

1. The Dynamical Influence Of The Transition Region And Chromosphere On The Heating Of Coronal Loops By Resonant Absorption Of Alfvén Waves [5]
   Belien, A. J. C., Martens, P. C. H. & Keppens, R., 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. 167
2. Coronal Heating by Resonant Absorption: The Effects of Chromospheric Coupling [39]
   Beliën, A. J. C., Martens, P. C. H. & Keppens, R., ApJ, 526, 478
3. Wave Heating and Nonlinear Dynamics of Coronal Loops [0]
   Beliën, A. J. C., Martens, P. C. H., Keppens, R. & Tóth, G., Third Advances in Solar Physics Euroconference: Magnetic Fields and Oscillations (Editors: Schmieder, B., Hofmann, A. & Staude, J.), Astronomical Society of the Pacific Conference Series, 184, p. 248
4. Scientific highlights from the Solar and Heliospheric Observatory [1]
   Martens, P. C. H. & Muglach, K., Polarization (Editors: Nagendra, K. N. & Stenflo, J. O.), Astrophysics and Space Science Library, 243, p. 325
5. Can Streamer Blobs Prevent the Buildup of the Interplanetary Magnetic Field? [12]
   van Aalst, M. K., Martens, P. C. H. & Beliën, A. J. C., ApJ, 511, L125

1998

1. A Model for Hard X-Ray Emission from the Top of Flaring Loops [63]
   Fletcher, L. & Martens, P. C. H., ApJ, 505, 418
2. Foreword [1]
   Koutchmy, S., Martens, P. & Shibata, K., Solar Jets and Coronal Plumes (Editors: Guyenne, Tan-Duc), ESA Special Publication, 421, p. 14
3. SOHO - YOHKOH Science Collaboration [0]
   Martens, P. C., Observational Plasma Astrophysics : Five Years of YOHKOH and Beyond (Editors: Watanabe, Tetsuya & Kosugi, Takeo), Astrophysics and Space Science Library, 229, p. 217
4. Hard X-Ray Emission from a Mirror Trap at the Top of Reconnecting Loops [0]
   Martens, P. C. H. & Fletcher, L., Observational Plasma Astrophysics : Five Years of YOHKOH and Beyond (Editors: Watanabe, Tetsuya & Kosugi, Takeo), Astrophysics and Space Science Library, 229, p. 269
5. MHD and Plasma Interpretation of a Prominence Eruption Observed by SOHO (Review) [4]
   Martens, P. C. H., IAU Colloquium 167: New Perspectives on Solar Prominences (Editors: Webb, David F., Schmieder, Brigitte & Rust, David M.), Astronomical Society of the Pacific Conference Series, 150, p. 294
6. A SOHO User Manual [6]
   Martens, Petrus C., Space Solar Physics: Theoretical and Observational Issues in the Context of the SOHO Mission (Editors: Vial, Jean Claude, Bocchialini, Karine & Boumier, Patrick), p.263
7. Coordinated Eclipse and SOHO Observations on 26 February 1998 [0]
   Muglach, B. Foing K., Beaufort, T., Orlando, S., Martens, P. & Desteve, C., Crossroads for European Solar and Heliospheric Physics. Recent Achievements and Future Mission Possibilities (Editors: Priest, E. R.), ESA Special Publication, 417, p. 337
8. An approximate self-consistent theory of the magnetic field of fluted penumbrae [4]
   Neukirch, T. & Martens, P. C. H., A&A, 332, 1075
9. Surges and filaments in active regions during SOHO campaigns [1]
   Schmieder, B., Deng, Y., Rudawy, P., Nitta, N., Mandrini, C. H., Fletcher, L., Martens, P., Innes, D., Young, P. & Mason, H., Solar Jets and Coronal Plumes (Editors: Guyenne, Tan-Duc), ESA Special Publication, 421, p. 323
10. Energy and momentum deposition in coronal holes. Solar coronal hole simulations compared with interpretations of YOHKOH SXT observations [4]
    Tziotziou, K., Martens, P. C. H. & Hearn, A. G., A&A, 340, 203
11. Filament Disparition Brusque and CME - September 25-26, 1996 Event [8]
    van Driel-Gesztelyi, L., Schmieder, B., Aulanier, G., Demoulin, P., Martens, P. C. H., Zarro, D., Deforest, C., Thompson, B., St. Cyr, C., Kucera, T., Burkepile, J. T., White, O. R., Hanaoka, Y. & Nitta, N., IAU Colloquium 167: New Perspectives on Solar Prominences (Editors: Webb, David F., Schmieder, Brigitte & Rust, David M.), Astronomical Society of the Pacific Conference Series, 150, p. 366

1997

1. The Solar and Heliospheric Observatory (SOHO) in 1996. [0]
   Domingo, V., Fleck, B., Martens, P. & Sanchez, L., JOSO Annu. Rep., 1996, p. 4
2. Solar Coronal Heating: AC versus DC [45]
   Milano, Leonardo J., Gómez, Daniel O. & Martens, Petrus C. H., ApJ, 490, 442

1996

1. On Small Coronal Particle Acceleration Sites with Widespread Magnetic Connections [5]
   Aurass, H., Klein, K.-L. & Martens, P. C. H., Astronomical Society of the Pacific Conference Series (Editors: Bentley, R. D. & Mariska, J. T.), Astronomical Society of the Pacific Conference Series, 111, p. 194
2. An Analytical Model for Fluted Sunspots and a New Interpretation of Evershed Flow and X-Ray Anemones [19]
   Martens, Petrus C. H., Hurlburt, Neal E., Title, Alan M. & Acton, Loren W., ApJ, 463, 372
3. High resolution Lyalpha images obtained with the transition region camera (TRC): a comparison with Hα observations [1]
   Wiik, J. E., Foing, B. H., Martens, P., Fleck, B. & Schmieder, B., Advances in Space Research, 17, 105

1995

1. The point spread function of the soft X-ray telescope aboard Yohkoh [43]
   Martens, Petrus C., Acton, Loren W. & Lemen, James R., Solar Physics, 157, 141
2. SOHO Ground Segment, Science Operations, and Data Products [11]
   St. Cyr, O. C., Sánchez-Duarte, L., Martens, P. C. H., Gurman, J. B. & Larduinat, E., Solar Physics, 162, 39

1994

1. Morphological Evolution of the Post-Flare Loops of June 25-26, 1992 [0]
   Anwar, B., Hiei, E., Hudson, H. S., Acton, L. W., Metacalf, T., Lemen, J. & Martens, P., X-ray solar physics from Yohkoh (Editors: Uchida, Yutaka, Watanabe, Tetsuya, Shibata, Kazunari & Hudson, Hugh S.), p. 121
2. First Detection of Correlated Electron Beams and Plasma Jets in Radio and Soft X-Ray Data [55]
   Aurass, H., Klein, K.-L. & Martens, P. C. H., Solar Physics, 155, 203
3. Volume Reconstruction of Magnetic Fields using Solar Imagery [10]
   Hurlburt, Neal E., Martens, Petrus C. H., Slater, Gregory L. & Jaffey, Steven M., Solar Active Region Evolution: Comparing Models with Observations (Editors: Balasubramaniam, K. S. & Simon, George W.), Astronomical Society of the Pacific Conference Series, 68, p. 30
4. An Analytical Model for Fluted Sunspots and its Relation with Evershed Flow and X-Ray Anemone [1]
   Hurlburt, Neal E., Martens, Petrus C., Title, Alan M. & Acton, Loren, Solar Active Region Evolution: Comparing Models with Observations (Editors: Balasubramaniam, K. S. & Simon, George W.), Astronomical Society of the Pacific Conference Series, 68, p. 300
5. An analytical model for fluted sunspots and a new interpretation of Evershed flow [0]
   Martens, P. C., Hurlburt, N., Title, A. M. & Acton, L. A., Solar Surface Magnetism (Editors: Rutten, Robert J. & Schrijver, Carolus J.), NATO Advanced Study Institute (ASI) Series C, 433, p. 237
6. A Simple Circuit Model for the December 2 1991 Flare [0]
   Martens, P. C. H. & Tsuneta, S., X-ray solar physics from Yohkoh (Editors: Uchida, Yutaka, Watanabe, Tetsuya, Shibata, Kazunari & Hudson, Hugh S.), p. 327
7. Electric Currents and Coronal Heating in NOAA Active Region 6952 [40]
   Metcalf, T. R., Canfield, R. C., Hudson, H. S., Mickey, D. L., Wulser, J.-P., Martens, P. C. H. & Tsuneta, S., ApJ, 428, 860
8. Possible detection of a stellar flare-generated particle beam in polarized light [7]
   Saar, S. H., Martens, P. C. H., Huovelin, J. & Linnaluoto, S., A&A, 286, 194
9. Preparing for SOHO: results from the transition region camera [0]
   Wiik, J. E., Foing, B. H., Schmieder, B., Martens, P. & Fleck, B., Solar Dynamic Phenomena and Solar Wind Consequences, the Third SOHO Workshop (Editors: Hunt, J. J.), ESA Special Publication, 373, p. 433

1993

1. Normal Incidence X-Ray Telescope Power Spectra of X-Ray Emission from Solar Active Regions. II. Theory [11]
   Gomez, Daniel O., Martens, Petrus C. H. & Golub, Leon, ApJ, 405, 773
2. Normal Incidence X-Ray Telescope Power Spectra of X-Ray Emission from Solar Active Regions. I. Observations [27]
   Gomez, Daniel O., Martens, Petrus C. H. & Golub, Leon, ApJ, 405, 767

1992

1. Spectra of MHD turbulence in the solar corona [0]
   Gomez, D. & Martens, P. C. H., Memorie della Societa Astronomica Italiana, 63, 755
2. Magnetohydrodynamic Non-Equilibrium - a Numerical Experiment [1]
   Martens, P., Sun, M. T. & Wu, S. T., IAU Colloquium 133: Eruptive Solar Flares (Editors: Svestka, Zdenek, Jackson, Bernard V. & Machado, Marcos E.), p.65
3. Can Yohkoh/SXT observe coronal MHD turbulence? [0]
   Martens, P. C. H. & Gomez, D., Memorie della Societa Astronomica Italiana, 63, 759
4. Coronal heating through lack of MHD equilibrium [2]
   Martens, P. C. H., Sun, M. T. & Wu, S. T., Electromechanical Coupling of the Solar Atmosphere (Editors: Spicer, Daniel S. & MacNeice, Peter), American Institute of Physics Conference Series, 267, p. 111
5. Spatial Power-Spectra from Yohkoh Soft X-Ray Images [10]
   Martens, Petrus C. H. & Gomez, Daniel O., Publications of the Astronomical Society of Japan, 44, L187

1991

1. Spectra of MHD Turbulence in Coronal Active Regions (With 3 Figures) [3]
   Gomez, D., Martens, P., Herant, M., Pardo, F. & Golub, L., Mechanisms of Chromospheric and Coronal Heating (Editors: Ulmschneider, Peter, Priest, Eric R. & Rosner, Robert), p. 260
2. SXT Observations of MHD Turbulance in Active Regions [1]
   Martens, P. C. H., Gómez, D. O., Slater, G. & Golub, L., Flare Physics in Solar Activity Maximum 22 (Editors: Uchida, Yutaka, Canfield, Richard C., Watanabe, Tetsuya & Hiei, Eijiro), p.291
3. A facility to measure fast neutron cross sections at energies around 20 MeV [3]
   Morales, J. R., Figueroa, L. O., Martens, P. & Romero, J. L., Nuclear Instruments and Methods in Physics Research A, 300, 312
4. Shear-induced instability and arch filament eruption: A magnetohydrodynamic (MHD) numerical simulation [20]
   Wu, S. T., Song, M. T., Martens, P. C. H. & Dryer, M., Solar Physics, 134, 353

1990

1. A self-consistent model for beam generation in two-ribbon flares. [0]
   Martens, P. C. H., Plasma Phenomena in the Solar Atmosphere (Editors: Dubois, M. A., Bely-Dubau, F. & Grésellon, D.), p. 259
2. A Self Consistent Model for Beam Generation in Two-Ribbon Flares. [0]
   Martens, P. C. H., Plasma Phenomena in the Solar Atmosphere (Editors: Dubois, M. A., Bely-Dubau, F. & Grésellon, D.), p. 257
3. NIXT Observations of the June 23 1988 Flare and their Theoretical Interpretation [2]
   Martens, P. C. H., Golub, L. & Herant, M., Plasma Phenomena in the Solar Atmosphere (Editors: Dubois, M. A., Bely-Dubau, F. & Grésellon, D.), p. 153
4. Helical flux ropes in solar prominences [6]
   Martens, P. C. H. & van Ballegooijen, A. A., Geophysical Monograph Series, 58, 337
5. Neutral Beams in Two-Ribbon Flares and in the Geomagnetic Tail [70]
   Martens, P. C. H. & Young, A., ApJS, 73, 333
6. Magnetic Fields in Quiescent Prominences [101]
   van Ballegooijen, A. A. & Martens, P. C. H., ApJ, 361, 283

1989

1. Time-dependent corona models : scaling laws. [1]
   Korevaar, P. & Martens, P. C. H., A&A, 226, 203
2. Inorganic phytoplankton nutrients in the Wadden Sea areas off Schleswig-Holstein. I. Dissolved inorganic nitrogen [4]
   Martens, P., Helgolander Meeresuntersuchungen, 43, 77
3. Proton Acceleration in Solar Flares and in the Geomagnetic Tail:A Comparison. [0]
   Martens, P. C. H. & Young, A., Nonlinear Phenomena in Vlasov Plasmas (Editors: Doveil, F.), p. 381
4. A Circuit Model for Filament Eruptions and Two-Ribbon Flares [186]
   Martens, P. C. H. & Kuin, N. P. M., Solar Physics, 122, 263
5. Preflare activity. [6]
   Priest, E. R., Gaizauskas, V., Hagyard, M. J., Schmahl, E. J., Webb, D. F., Cargill, P., Forbes, T. G., Hood, A. W., Steinolfson, R. S., Chapman, G. A., Deloach, A. C., Gary, G. A., Jones, H. P., Karpen, J. T., Martres, M.-J., Porter, J. G., Schmieder, B., Smith, J. B., Jr., Toomre, J., Woodgate, B., Waggett, P., Bentley, R., Hurford, G., Schadee, A., Schrijver, J., Harrison, R. & Martens, P., Energetic Phenomena on the Sun (Editors: Kundu, M. R. & Woodgate, B.), p. 1
6. Formation and Eruption of Solar Prominences [848]
   van Ballegooijen, A. A. & Martens, P. C. H., ApJ, 343, 971

1988

1. The generation of proton beams in two-ribbon flares. [0]
   Martens, P. C. H., Solar and Stellar Coronal Structure and Dynamics (Editors: Altrock, Richard C.), p. 501
2. The Generation of Proton Beams in Two-Ribbon Flares [88]
   Martens, P. C. H., ApJ, 330, L131

1987

1. The thermal stability of coronal loops by nonlinear diffusion asymptotics [6]
   Pakkert, J. W., Verhulst, F. & Martens, P. C. H., A&A, 179, 285

1986

1. Absence of MHS-Equilibrium in Plasmas [0]
   Martens, P. C. H., Magnetic Reconnection and Turbulence (Editors: Dubois, M. A., Grésellon, D. & Bussac, M. N.), p. 79
2. Preflare energy build-up in a filament circuit. [28]
   Martens, P. C. H., Solar Physics, 107, 95
3. A coordinate free description of magnetohydrostatic equilibria. [3]
   Martens, P. C. H., NASA Conference Publication (Editors: Poland, Arthur I.), NASA Conference Publication, 2442, p. 431
4. Energy conversion in the coronal plasma. [3]
   Martens, P. C. H., NASA Conference Publication (Editors: Poland, Arthur I.), NASA Conference Publication, 2442, p. 407
5. A dynamic model of filament eruptions and two ribbon flares. [0]
   Paul, N., Kuin, M. & Martens, P. C. H., NASA Conference Publication (Editors: Poland, Arthur I.), NASA Conference Publication, 2442, p. 241
6. Preflare activity. [1]
   Priest, E. R., Gaizauskas, V., Hagyard, M. J., Schmahl, E. J., Webb, D. F., Cargill, P., Forbes, T. G., Hood, A. W., Steinolfson, R. S., Chapman, G. A., Deloach, A. C., Gary, G. A., Jones, H. P., Karpen, J. T., Martres, M.-J., Porter, J. G., Schmieder, B., Smith, J. B., Jr., Toomre, J., Woodgate, B., Waggett, P., Bentley, R., Hurford, G., Schadee, A., Schrijver, J., Harrison, R. & Martens, P., NASA Conference Publication, NASA Conference Publication, 2439, p. 1
7. Coronal manifestations of preflare activity [1]
   Schmahl, E. J., Webb, D. F., Woodgate, B., Waggett, P., Bentley, R., Hurford, G., Schadee, A., Schrijver, J., Harrison, R. & Martens, P., Energetic Phenomena on the Sun (Editors: Kundu, Mukul & Woodgate, Bruce)

1985

1. Observations of Steady Anomalous Magnetic Heating in Thin Current Sheets [53]
   Martens, P. C. H., van den Oord, G. H. J. & Hoyng, P., Solar Physics, 96, 253
2. New instabilities in line driven winds. [0]
   Martens, P. C. H., NASA Conference Publication (Editors: Underhill, A. B. & Michalitsianos, A. G.), NASA Conference Publication, 2358, p. 226

1984

1. Buchbesprechungen [0]
   Eisler, R., Ackefors, H., Gillbricht, M., Meincke, J., Radach, G., Anger, K., Kinne, O., Schuhmacher, H., Martens, P., Lauckner, G., v. Westernhagen, H., Hartmann-Schröder, G., Tesch, F.-W., Oehlenschläger, J., John, H.-Ch., Schreiber, W. & Sahrhage, D., Helgolander Meeresuntersuchungen, 38, 419
2. Summary of the Workshop, Conclusions - Discussion [0]
   La Dous, C., Lago, T., Kuin, P., Martens, P., Ramella, M. & Company), The, Effects of Variable Mass Loss on the Local Stellar Environment (Editors: Stalio, Roberto & Thomas, Richard N.), p. 219
3. Applications of non-linear methods in astronomy [6]
   Martens, P. C. H., Physics Reports, 115, 315

1983

1. Relaxation oscillations and double temperature structures in stellar coronae. [9]
   Hearn, A. G., Kuin, N. P. M. & Martens, P. C. H., A&A, 125, 69
2. A thermal catastrophe in a resonantly heated coronal loop [1]
   Martens, P. C. H. & Kuperus, M., Solar and Stellar Magnetic Fields: Origins and Coronal Effects (Editors: Stenflo, J. O.), IAU Symposium, 102, p. 397
3. The thermal evolution of resonantly heated coronal loops [28]
   Martens, P. C. H. & Kuin, N. P. M., A&A, 123, 216

1982

1. On the thermal stability of hot coronal loops - The coupling between chromosphere and corona [94]
   Kuin, N. P. M. & Martens, P. C. H., A&A, 108, L1
2. Resonant electrodynamic heating and the thermal stability of coronal loops [8]
   Martens, P. C. H. & Kuperus, M., A&A, 113, 324
3. On cool coronal loops [20]
   Martens, P. C. H. & Kuin, N. P. M., A&A, 112, 366

1981

1. An analytical model for stellar coronae [9]
   Martens, P. C. H., A&A, 102, 156

1979

1. Line driven sound waves in early type stars. [17]
   Martens, P. C. H., A&A, 75, L7