Publications of Robertus Erdelyi

A list of publications authored or co-authored by Robertus Erdelyi, 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: 0000-0003-3439-4127

List of publications ordered by citations
Number of papers: 336 (refereed: 314)
No. of citations: 10522
First author papers: 41 (refereed: 38)

2026

1. A Deep Learning Approach for Automated Total Sunspot Number Estimation [0]
   Wang, Yimin, Liu, Jiajia, Chen, Jing, Erdélyi, Robertus, Gyenge, Norbert G. & Jiang, Ye, ApJ, 997, 148
2. Inferring Photospheric Horizontal Flows from Multiple Observations with SUVEL Models [0]
   Xie, Quan, Liu, Jiajia, Erdélyi, Robert & Wang, Yuming, ApJ, 998, 334

2025

1. Long-term properties of coronal off-limb structures [3]
   Bourgeois, S., Chierichini, S., Soós, Sz., Erdélyi, R., Liu, J., Korsós, M. B., Gafeira, R. & Barata, T., A&A, 693, A301
2. A Bias-free Deep Learning Approach for Automated Sunspot Segmentation [6]
   Chen, Jing, Gyenge, Norbert G., Jiang, Ye, Erdélyi, Robertus, Liu, Jiajia & Wang, Yimin, ApJ, 980, 261
3. Coronal jet Identification with machine learning [0]
   Chierichini, S., Bourgeois, S., Soós, Sz., Liu, J., Korsós, M. B., Del Moro, D. & Erdélyi, R., A&A, 698, A50
4. Where Do Solar Storms Prefer to Originate From: Hemispheric and Longitudinal Patterns in Solar Cycles 23 and 24 [1]
   Korsós, Marianna B. & Erdélyi, Robertus, ApJ, 989, 162
5. High-frequency leaky standing sausage and kink mode waves in magnetic slab [0]
   Kumar, Ankit, Pandey, V. S., Singh, Sweta, Verma, Preeti & Erdelyi, R., Physics of Plasmas, 32, 072112
6. Understanding the Magnetic Field and Plasma-β along Umbral Fan Loops Traced Using 3 Minute Slow Waves [0]
   Rawat, Ananya, Gupta, Girjesh, Van Doorsselaere, Tom, Krishna Prasad, S. & Erdélyi, Robertus, ApJ, 988, L26
7. The Relation between Solar Spicules and Magnetohydrodynamic Shocks [2]
   Srivastava, Sankalp, Chatterjee, Piyali, Dey, Sahel & Erdélyi, Robertus, ApJ, 989, 39
8. Nonparallel Wave Propagation in an Asymmetric Magnetic Slab [1]
   Tsiapalis, Antreas, Zsámberger, Noémi Kinga, Asztalos, Balázs & Erdélyi, Robert, ApJ, 988, 38
9. Improving the Γ-functions method for vortex identification [5]
   Xie, Quan, Liu, Jiajia, Erdélyi, Robert & Wang, Yuming, A&A, 700, A6
10. Photospheric Swirls in a Quiet-Sun Region [5]
    Xie, Quan, Liu, Jiajia, Nelson, Chris J., Erdélyi, Robert & Wang, Yuming, ApJ, 979, 27

2024

1. Case Studies on Pre-eruptive X-class Flares using R-value in the Lower Solar Atmosphere [2]
   Biswal, Shreeyesh, Korsós, Marianna B., Georgoulis, Manolis K., Nindos, Alexander, Patsourakos, Spiros & Erdélyi, Robertus, ApJ, 974, 259
2. Sunspots Identification Through Mathematical Morphology: The Method [8]
   Bourgeois, Slava, Barata, Teresa, Erdélyi, Robertus, Gafeira, Ricardo & Oliveira, Orlando, Solar Physics, 299, 10
3. CME Arrival Modeling with Machine Learning [12]
   Chierichini, Simone, Liu, Jiajia, Korsós, Marianna B., Del Moro, Dario & Erdélyi, Robertus, ApJ, 963, 121
4. A Bayesian approach to the drag-based modelling of ICMEs [3]
   Chierichini, Simone, Francisco, Gregoire, Mugatwala, Ronish, Foldes, Raffaello, Camporeale, Enrico, De Gasperis, Giancarlo, Giovannelli, Luca, Napoletano, Gianluca, Del Moro, Dario & Erdelyi, Robertus, Journal of Space Weather and Space Climate, 14, 1
5. Magnetohydrodynamic Instabilities of Double Magnetic Bands in a Shallow-water Tachocline Model. II. Teleconnection Between High- and Low-latitude Bands and Across Equator [1]
   Dikpati, Mausumi, Belucz, Bernadett, Erdélyi, Robertus, Gilman, Peter A., McIntosh, Scott W. & Raphaldini, Breno, ApJ, 977, 99
6. Exploring Spatial and Temporal Patterns in the Debrecen Solar Faculae Database: Part I [5]
   Elek, Anett, Korsós, Marianna B., Dikpati, Mausumi, Gyenge, Norbert G., Belucz, Bernadett & Erdélyi, Robertus, ApJ, 964, 112
7. Magnetohydrodynamic Waves in Asymmetric Waveguides and Their Applications in Solar Physics—A Review [3]
   Erdélyi, Robertus & Zsámberger, Noémi Kinga, Symmetry, 16, 1228
8. Dependence of Spicule Properties on the Magnetic Field—Results from Magnetohydrodynamics Simulations [5]
   Kesri, Kartav, Dey, Sahel, Chatterjee, Piyali & Erdelyi, Robertus, ApJ, 973, 49
9. Exploring Spatial and Temporal Patterns in the Debrecen Solar Faculae Database: Part II [2]
   Korsós, Marianna B., Elek, Anett, Zuccarello, Francesca & Erdélyi, Robertus, ApJ, 975, 248
10. First Insights into the Applicability and Importance of Different 3D Magnetic Field Extrapolation Approaches for Studying the Preeruptive Conditions of Solar Active Regions [8]
    Korsós, Marianna B., Jarolim, Robert, Erdélyi, Robertus, Veronig, Astrid M., Morgan, Huw & Zuccarello, Francesca, ApJ, 962, 171
11. Improving the Automated Coronal Jet Identification with U-NET [6]
    Liu, Jiajia, Ji, Chunyu, Wang, Yimin, Soós, Szabolcs, Jiang, Ye, Erdélyi, Robertus, Korsós, M. B. & Wang, Yuming, ApJ, 972, 187
12. A catalogue of observed geo-effective CME/ICME characteristics [3]
    Mugatwala, Ronish, Chierichini, Simone, Francisco, Gregoire, Napoletano, Gianluca, Foldes, Raffaello, Giovannelli, Luca, De Gasperis, Giancarlo, Camporeale, Enrico, Erdélyi, Robertus & Del Moro, Dario, Journal of Space Weather and Space Climate, 14, 6
13. Evolution of Coronal Jets during Solar Cycle 24 [5]
    Soós, Sz., Liu, J., Korsós, M. B. & Erdélyi, R., ApJ, 965, 43
14. The effect of data-driving and relaxation models on magnetic flux rope evolution and stability [2]
    Wagner, A., Price, D. J., Bourgeois, S., Daei, F., Pomoell, J., Poedts, S., Kumari, A., Barata, T., Erdélyi, R. & Kilpua, E. K. J., A&A, 692, A74
15. The automatic identification and tracking of coronal flux ropes. II. New mathematical morphology-based flux rope extraction method and deflection analysis [4]
    Wagner, A., Bourgeois, S., Kilpua, E. K. J., Sarkar, R., Price, D. J., Kumari, A., Pomoell, J., Poedts, S., Barata, T., Erdélyi, R., Oliveira, O. & Gafeira, R., A&A, 683, A39
16. Long-period oscillations in the lower solar atmosphere prior to flare events [2]
    Wiśniewska, A., Korsós, M. B., Kontogiannis, I., Soós, Sz. & Erdélyi, R., A&A, 686, A224

2023

1. Magnetohydrodynamic Instabilities of Double Magnetic Bands in a Shallow-water Tachocline Model. I. Cross-equatorial Interactions of Bands [4]
   Belucz, Bernadett, Dikpati, Mausumi, McIntosh, Scott W., Leamon, Robert J. & Erdélyi, Robertus, ApJ, 945, 32
2. DKIST Unveils the Serpentine Topology of Quiet Sun Magnetism in the Photosphere [9]
   Campbell, Ryan J., Keys, P. H., Mathioudakis, M., Wöger, F., Schad, T., Tritschler, A., de Wijn, A. G., Smitha, H. N., Beck, C., Christian, D. J., Jess, D. B. & Erdélyi, R., ApJ, 955, L36
3. Measuring local physical parameters in coronal loops with spatial seismology [4]
   Chen, G. Y., Guo, Y., Ding, M. D. & Erdélyi, R., A&A, 678, A205
4. p-Mode Oscillations in Highly Gravitationally Stratified Magnetic Solar Atmospheres [3]
   Griffiths, Michael, Gyenge, Norbert, Zheng, Ruisheng, Korsós, Marianna & Erdélyi, Robertus, Physics, 5, 461
5. On the Connection between Rieger-type and Magneto-Rossby Waves Driving the Frequency of the Large Solar Eruptions during Solar Cycles 19-25 [16]
   Korsós, Marianna B., Dikpati, Mausumi, Erdélyi, Robertus, Liu, Jiajia & Zuccarello, Francesca, ApJ, 944, 180
6. Power-law Distribution of Solar Cycle-modulated Coronal Jets [13]
   Liu, Jiajia, Song, Anchuan, Jess, David B., Zhang, Jie, Mathioudakis, Mihalis, Soós, Szabolcs, Keenan, Francis P., Wang, Yuming & Erdélyi, Robertus, ApJS, 266, 17
7. CMAG: A Mission to Study and Monitor the Inner Corona Magnetic Field [2]
   Orozco Suárez, David, del Toro Iniesta, Jose Carlos, Bailén Martínez, Francisco Javier, Balaguer Jiménez, María, Álvarez García, Daniel, Serrano, Daniel, Peñin, Luis F., Vázquez-Ramos, Alicia, Bellot Rubio, Luis Ramón, Atienzar, Julia, Pérez Grande, Isabel, Torralbo Gimeno, Ignacio, Sanchis Kilders, Esteban, Gasent Blesa, José Luis, Hernández Expósito, David, Ruiz Cobo, Basilio, Trujillo Bueno, Javier, Erdélyi, Robertus, Davies, Jackie A., Green, Lucie M., Matthews, Sarah A., Long, David M., Mathioudakis, Michail, Kintziger, Christian, Leenaarts, Jorrit, Fineschi, Silvano & Scullion, Eamon, Aerospace, 10, 987
8. The Solar Particle Acceleration Radiation and Kinetics (SPARK) Mission Concept [5]
   Reid, Hamish A. S., Musset, Sophie, Ryan, Daniel F., Andretta, Vincenzo, Auchère, Frédéric, Baker, Deborah, Benvenuto, Federico, Browning, Philippa, Buchlin, Éric, Calcines Rosario, Ariadna, Christe, Steven D., Corso, Alain Jody, Dahlin, Joel, Dalla, Silvia, Del Zanna, Giulio, Denker, Carsten, Dudík, Jaroslav, Erdélyi, Robertus, Ermolli, Ilaria, Fletcher, Lyndsay, Fludra, Andrzej, Green, Lucie M., Gordovskyy, Mykola, Guglielmino, Salvo L., Hannah, Iain, Harrison, Richard, Hayes, Laura A., Inglis, Andrew R., Jeffrey, Natasha L. S., Kašparová, Jana, Kerr, Graham S., Kintziger, Christian, Kontar, Eduard P., Krucker, Säm, Laitinen, Timo, Laurent, Philippe, Limousin, Olivier, Long, David M., Maloney, Shane A., Massa, Paolo, Massone, Anna Maria, Matthews, Sarah, Mrozek, Tomasz, Nakariakov, Valery M., Parenti, Susanna, Piana, Michele, Polito, Vanessa, Pesce-Rollins, Melissa, Romano, Paolo, Rouillard, Alexis P., Sasso, Clementina, Shih, Albert Y., Stęślicki, Marek, Orozco Suárez, David, Teriaca, Luca, Verma, Meetu, Veronig, Astrid M., Vilmer, Nicole, Vocks, Christian & Warmuth, Alexander, Aerospace, 10, 1034
9. Generation of Vertical Flows by Torsional Alfvén Pulses in Zero-beta Tubes with a Transitional Layer [2]
   Scalisi, Joseph, Ruderman, Michael S. & Erdélyi, Robertus, ApJ, 951, 60
10. Why "Solar Tsunamis" Rarely Leave Their Imprints in the Chromosphere [22]
    Zheng, Ruisheng, Liu, Yihan, Liu, Wenlong, Wang, Bing, Hou, Zhenyong, Feng, Shiwei, Kong, Xiangliang, Huang, Zhenghua, Song, Hongqiang, Tian, Hui, Chen, Pengfei, Erdélyi, Robertus & Chen, Yao, ApJ, 949, L8

2022

1. Polymeric jets throw light on the origin and nature of the forest of solar spicules [14]
   Dey, Sahel, Chatterjee, Piyali, O. V. S. N., Murthy, Korsós, Marianna B., Liu, Jiajia, Nelson, Christopher J. & Erdélyi, Robertus, Nature Physics, 18, 595
2. The Solar Activity Monitor Network - SAMNet [23]
   Erdélyi, Robertus, Korsós, Marianna B., Huang, Xin, Yang, Yong, Pizzey, Danielle, Wrathmall, Steven A., Hughes, Ifan G., Dyer, Martin J., Dhillon, Vikram S., Belucz, Bernadett, Brajša, Roman, Chatterjee, Piyali, Cheng, Xuewu, Deng, Yuanyong, Domínguez, Santiago Vargas, Joya, Raúl, Gömöry, Peter, Gyenge, Norbert G., Hanslmeier, Arnold, Kucera, Ales, Kuridze, David, Li, Faquan, Liu, Zhong, Xu, Long, Mathioudakis, Mihalis, Matthews, Sarah, McAteer, James R. T., Pevtsov, Alexei A., Pötzi, Werner, Romano, Paolo, Shen, Jinhua, Temesváry, János, Tlatov, Andrey G., Triana, Charles, Utz, Dominik, Veronig, Astrid M., Wang, Yuming, Yan, Yihua, Zaqarashvili, Teimuraz & Zuccarello, Francesca, Journal of Space Weather and Space Climate, 12, 2
3. HiRISE - High-Resolution Imaging and Spectroscopy Explorer - Ultrahigh resolution, interferometric and external occulting coronagraphic science [1]
   Erdélyi, Robertus, Damé, Luc, Fludra, Andrzej, Mathioudakis, Mihalis, Amari, T., Belucz, B., Berrilli, F., Bogachev, S., Bolsée, D., Bothmer, V., Brun, S., Dewitte, S., de Wit, T. Dudok, Faurobert, M., Gizon, L., Gyenge, N., Korsós, M. B., Labrosse, N., Matthews, S., Meftah, M., Morgan, H., Pallé, P., Rochus, P., Rozanov, E., Schmieder, B., Tsinganos, K., Verwichte, E., Zharkov, S., Zuccarello, F. & Wimmer-Schweingruber, R., Experimental Astronomy, 54, 227
4. Magnetic Helicity Flux Oscillations in the Atmospheres of Flaring and Nonflaring Active Regions [7]
   Korsós, M. B., Erdélyi, R., Huang, X. & Morgan, H., ApJ, 933, 66
5. Deep Learning Based Solar Flare Forecasting Model. II. Influence of Image Resolution [14]
   Liu, Sixuan, Xu, Long, Zhao, Zhongrui, Erdélyi, R., Korsós, Marianna B. & Huang, Xin, ApJ, 941, 20
6. Magnetohydrodynamic Simulations of Spicular Jet Propagation Applied to Lower Solar Atmosphere Model. II. Case Studies with Tilted Jets [3]
   Mackenzie Dover, Fionnlagh, Sharma, Rahul & Erdélyi, Robertus, ApJ, 929, 88
7. The high-energy Sun - probing the origins of particle acceleration on our nearest star [3]
   Matthews, S. A., Reid, H. A. S., Baker, D., Bloomfield, D. S., Browning, P. K., Calcines, A., Del Zanna, G., Erdelyi, R., Fletcher, L., Hannah, I. G., Jeffrey, N., Klein, L., Krucker, S., Kontar, E., Long, D. M., MacKinnon, A., Mann, G., Mathioudakis, M., Milligan, R., Nakariakov, V. M., Pesce-Rollins, M., Shih, A. Y., Smith, D., Veronig, A. & Vilmer, N., Experimental Astronomy, 54, 335
8. On the Differences in the Periodic Behavior of Magnetic Helicity Flux in Flaring Active Regions with and without X-class Events [10]
   Soós, Sz., Korsós, M. B., Morgan, H. & Erdélyi, R., ApJ, 925, 129
9. Twin Extreme Ultraviolet Waves in the Solar Corona [11]
   Zheng, Ruisheng, Wang, Bing, Zhang, Liang, Chen, Yao & Erdélyi, Robertus, ApJ, 929, L4
10. Solar Magneto-seismology of a Magnetic Slab in an Asymmetric Magnetic Environment [3]
    Zsámberger, Noémi Kinga & Erdélyi, Róbert, ApJ, 934, 155
11. MHD Wave Propagation and the Kelvin-Helmholtz Instability in an Asymmetric Magnetic Slab System [3]
    Zsámberger, Noémi Kinga, Tong, Yihui, Asztalos, Balázs & Erdélyi, Róbert, ApJ, 935, 41
12. Magnetohydrodynamic Waves in an Asymmetric Magnetic Slab with Different External Flows [2]
    Zsámberger, Noémi Kinga, Sánchez Montoya, Carmen M. & Erdélyi, Róbert, ApJ, 937, 23

2021

1. Reliability of AI-generated magnetograms from only EUV images [18]
   Liu, Jiajia, Wang, Yimin, Huang, Xin, Korsós, Marianna B., Jiang, Ye, Wang, Yuming & Erdélyi, Robert, Nature Astronomy, 5, 108
2. Magnetohydrodynamic Simulations of Spicular Jet Propagation Applied to Lower Solar Atmosphere Model [13]
   Mackenzie Dover, Fionnlagh, Sharma, Rahul & Erdélyi, Robertus, ApJ, 913, 19
3. Could Switchbacks Originate in the Lower Solar Atmosphere? II. Propagation of Switchbacks in the Solar Corona [12]
   Magyar, Norbert, Utz, Dominik, Erdélyi, Robertus & Nakariakov, Valery M., ApJ, 914, 8
4. Could Switchbacks Originate in the Lower Solar Atmosphere? I. Formation Mechanisms of Switchbacks [24]
   Magyar, Norbert, Utz, Dominik, Erdélyi, Robertus & Nakariakov, Valery M., ApJ, 911, 75
5. Critical Science Plan for the Daniel K. Inouye Solar Telescope (DKIST) [94]
   Rast, Mark P., Bello González, Nazaret, Bellot Rubio, Luis, Cao, Wenda, Cauzzi, Gianna, Deluca, Edward, de Pontieu, Bart, Fletcher, Lyndsay, Gibson, Sarah E., Judge, Philip G., Katsukawa, Yukio, Kazachenko, Maria D., Khomenko, Elena, Landi, Enrico, Martínez Pillet, Valentín, Petrie, Gordon J. D., Qiu, Jiong, Rachmeler, Laurel A., Rempel, Matthias, Schmidt, Wolfgang, Scullion, Eamon, Sun, Xudong, Welsch, Brian T., Andretta, Vincenzo, Antolin, Patrick, Ayres, Thomas R., Balasubramaniam, K. S., Ballai, Istvan, Berger, Thomas E., Bradshaw, Stephen J., Campbell, Ryan J., Carlsson, Mats, Casini, Roberto, Centeno, Rebecca, Cranmer, Steven R., Criscuoli, Serena, Deforest, Craig, Deng, Yuanyong, Erdélyi, Robertus, Fedun, Viktor, Fischer, Catherine E., González Manrique, Sergio J., Hahn, Michael, Harra, Louise, Henriques, Vasco M. J., Hurlburt, Neal E., Jaeggli, Sarah, Jafarzadeh, Shahin, Jain, Rekha, Jefferies, Stuart M., Keys, Peter H., Kowalski, Adam F., Kuckein, Christoph, Kuhn, Jeffrey R., Kuridze, David, Liu, Jiajia, Liu, Wei, Longcope, Dana, Mathioudakis, Mihalis, McAteer, R. T. James, McIntosh, Scott W., McKenzie, David E., Miralles, Mari Paz, Morton, Richard J., Muglach, Karin, Nelson, Chris J., Panesar, Navdeep K., Parenti, Susanna, Parnell, Clare E., Poduval, Bala, Reardon, Kevin P., Reep, Jeffrey W., Schad, Thomas A., Schmit, Donald, Sharma, Rahul, Socas-Navarro, Hector, Srivastava, Abhishek K., Sterling, Alphonse C., Suematsu, Yoshinori, Tarr, Lucas A., Tiwari, Sanjiv, Tritschler, Alexandra, Verth, Gary, Vourlidas, Angelos, Wang, Haimin, Wang, Yi-Ming, NSO and DKIST Project, DKIST Instrument Scientists, DKIST Science Working Group & DKIST Critical Science Plan Community, Solar Physics, 296, 70
6. Reflection and Evolution of Torsional Alfvén Pulses in Zero-beta Flux Tubes [7]
   Scalisi, Joseph, Ruderman, Michael S. & Erdélyi, Robertus, ApJ, 922, 118
7. Propagation of Torsional Alfvén Pulses in Zero-beta Flux Tubes [17]
   Scalisi, Joseph, Oxley, William, Ruderman, Michael S. & Erdélyi, Robertus, ApJ, 911, 39
8. Torsional oscillations within a magnetic pore in the solar photosphere [24]
   Stangalini, Marco, Erdélyi, Robertus, Boocock, Callum, Tsiklauri, David, Nelson, Christopher J., Del Moro, Dario, Berrilli, Francesco & Korsós, Marianna B., Nature Astronomy, 5, 691
9. Magnetoacoustic Waves in a Magnetic Slab Embedded in an Asymmetric Magnetic Environment. III. Applications to the Solar Atmosphere [4]
   Zsámberger, Noémi Kinga & Erdélyi, Róbert, ApJ, 906, 122

2020

1. Signatures of Cross-sectional Width Modulation in Solar Spicules due to Field-aligned Flows [6]
   Dover, Fionnlagh Mackenzie, Sharma, Rahul, Korsós, Marianna B. & Erdélyi, Robertus, ApJ, 905, 72
2. Differences in Periodic Magnetic Helicity Injection Behavior between Flaring and Non-flaring Active Regions: Case Study [18]
   Korsós, M. B., Romano, P., Morgan, H., Ye, Y., Erdélyi, R. & Zuccarello, F., ApJ, 897, L23
3. Solar Flare Prediction Using Magnetic Field Diagnostics above the Photosphere [33]
   Korsós, M. B., Georgoulis, M. K., Gyenge, N., Bisoi, S. K., Yu, S., Poedts, S., Nelson, C. J., Liu, J., Yan, Y. & Erdélyi, R., ApJ, 896, 119
4. Formation of Chromospheric Spicules in Magnetic Bright Points: An Analytical Approach Using Cartesian Slab Geometry [11]
   Oxley, William, Scalisi, Joseph, Ruderman, Michael S. & Erdélyi, Róbert, ApJ, 905, 168
5. Standing MHD Waves in a Magnetic Slab Embedded in an Asymmetric Magnetic Plasma Environment: Surface Waves [4]
   Oxley, William, Zsámberger, Noémi Kinga & Erdélyi, Róbert, ApJ, 898, 19
6. Standing MHD Waves in a Magnetic Slab Embedded in an Asymmetric Plasma Environment: Slow Surface Waves [6]
   Oxley, William, Zsámberger, Noémi Kinga & Erdélyi, Róbert, ApJ, 890, 109
7. Wave amplitude modulation in fan loops as observed by AIA/SDO [12]
   Sharma, Aishawnnya, Tripathi, Durgesh, Erdélyi, Robertus, Gupta, Girjesh R. & Ahmed, Gazi A., A&A, 638, A6
8. Magnetoacoustic Waves in a Magnetic Slab Embedded in an Asymmetric Magnetic Environment. II. Thin and Wide Slabs, Hot and Cold Plasmas [7]
   Zsámberger, Noémi Kinga & Erdélyi, Róbert, ApJ, 894, 123

2019

1. Magnetohydrodynamic waves in multi-layered asymmetric waveguides: solar magneto-seismology theory and application [15]
   Allcock, Matthew, Shukhobodskaia, Daria, Zsámberger, Noémi Kinga & Erdélyi, Robert, Frontiers in Astronomy and Space Sciences, 6, 48
2. An Analytical Model of the Kelvin-Helmholtz Instability of Transverse Coronal Loop Oscillations [25]
   Barbulescu, Mihai, Ruderman, Michael S., Van Doorsselaere, Tom & Erdélyi, Robert, ApJ, 870, 108
3. Investigation of pre-flare dynamics using the weighted horizontal magnetic gradient method: From small to major flare classes [13]
   Korsós, Marianna B., Yang, Shuhong & Erdélyi, Robertus, Journal of Space Weather and Space Climate, 9, A6
4. Co-spatial velocity and magnetic swirls in the simulated solar photosphere [20]
   Liu, Jiajia, Carlsson, Mats, Nelson, Chris J. & Erdélyi, Robert, A&A, 632, A97
5. Evidence of ubiquitous Alfvén pulses transporting energy from the photosphere to the upper chromosphere [73]
   Liu, Jiajia, Nelson, Chris J., Snow, Ben, Wang, Yuming & Erdélyi, Robert, Nature Communications, 10, 3504
6. How Many Twists Do Solar Coronal Jets Release? [21]
   Liu, Jiajia, Wang, Yuming & Erdélyi, Robert, Frontiers in Astronomy and Space Sciences, 6, 44
7. Automated Swirl Detection Algorithm (ASDA) and Its Application to Simulation and Observational Data [24]
   Liu, Jiajia, Nelson, Chris J. & Erdélyi, Robertus, ApJ, 872, 22
8. Spatially Resolved Signatures of Bidirectional Flows Observed in Inverted-Y Shaped Jets [12]
   Nelson, C. J., Freij, N., Bennett, S., Erdélyi, R. & Mathioudakis, M., ApJ, 883, 115
9. The Effect Of Cooling On Driven Kink Oscillations Of Coronal Loops [5]
   Nelson, Chris J., Shukhobodskiy, Alexander A., Erdélyi, Robertus & Mathioudakis, Mihalis, Frontiers in Astronomy and Space Sciences, 6, 45
10. Generation of solar spicules and subsequent atmospheric heating [157]
    Samanta, Tanmoy, Tian, Hui, Yurchyshyn, Vasyl, Peter, Hardi, Cao, Wenda, Sterling, Alphonse, Erdélyi, Robertus, Ahn, Kwangsu, Feng, Song, Utz, Dominik, Banerjee, Dipankar & Chen, Yajie, Science, 366, 890
11. CME Arrival Time Prediction Using Convolutional Neural Network [39]
    Wang, Yimin, Liu, Jiajia, Jiang, Ye & Erdélyi, Robert, ApJ, 881, 15

2018

1. Solar Magnetoseismology with Magnetoacoustic Surface Waves in Asymmetric Magnetic Slab Waveguides [14]
   Allcock, Matthew & Erdélyi, Robert, ApJ, 855, 90
2. Magnetoacoustic Waves and the Kelvin-Helmholtz Instability in a Steady Asymmetric Slab. I: The Effects of Varying Density Ratios [9]
   Barbulescu, M. & Erdélyi, R., Solar Physics, 293, 86
3. Spatial Inhomogeneity in Solar Faculae [3]
   Elek, A., Gyenge, N., Korsós, M. B. & Erdélyi, R., Space Weather of the Heliosphere: Processes and Forecasts (Editors: Foullon, Claire & Malandraki, Olga E.), IAU Symposium, 335, p. 17
4. Solar atmosphere wave dynamics generated by solar global oscillating eigenmodes [3]
   Griffiths, M. K., Fedun, V., Erdélyi, R. & Zheng, R., Advances in Space Research, 61, 720
5. MHD code using multi graphical processing units: SMAUG+ [1]
   Gyenge, N., Griffiths, M. K. & Erdélyi, R., Advances in Space Research, 61, 683
6. Predicting the Loci of Solar Eruptions [0]
   Gyenge, N. & Erdélyi, R., Space Weather of the Heliosphere: Processes and Forecasts (Editors: Foullon, Claire & Malandraki, Olga E.), IAU Symposium, 335, p. 201
7. Periodic Recurrence Patterns In X-Ray Solar Flare Appearances [2]
   Gyenge, N. & Erdélyi, R., ApJ, 859, 169
8. Buoyancy-driven Magnetohydrodynamic Waves in a Partially Ionized Plasma [1]
   Hague, A. & Erdélyi, R., ApJ, 866, 114
9. Photospheric Observations of Surface and Body Modes in Solar Magnetic Pores [54]
   Keys, Peter H., Morton, Richard J., Jess, David B., Verth, Gary, Grant, Samuel D. T., Mathioudakis, Mihalis, Mackay, Duncan H., Doyle, John G., Christian, Damian J., Keenan, Francis P. & Erdélyi, Robertus, ApJ, 857, 28
10. Quasi-biennial oscillations in the cross-correlation of properties of macrospicules [11]
    Kiss, T. S., Gyenge, N. & Erdélyi, R., Advances in Space Research, 61, 611
11. On Quasi-biennial Oscillations in Chromospheric Macrospicules and Their Potential Relation to the Global Solar Magnetic Field [15]
    Kiss, T. S. & Erdélyi, R., ApJ, 857, 113
12. An application of the weighted horizontal magnetic gradient to solar compact and eruptive events [6]
    Korsós, M. B., Ruderman, Michael S. & Erdélyi, R., Advances in Space Research, 61, 595
13. On the Evolution of Pre-Flare Patterns of a 3-Dimensional Model of AR 11429 [2]
    Korsós, M. B., Poedts, S., Gyenge, N., Georgoulis, M. K., Yu, S., Bisoi, S. K., Yan, Y., Ruderman, M. S. & Erdélyi, R., Space Weather of the Heliosphere: Processes and Forecasts (Editors: Foullon, Claire & Malandraki, Olga E.), IAU Symposium, 335, p. 294
14. Applying the Weighted Horizontal Magnetic Gradient Method to a Simulated Flaring Active Region [12]
    Korsós, M. B., Chatterjee, P. & Erdélyi, R., ApJ, 857, 103
15. Varying driver velocity fields in photospheric MHD wave simulations [6]
    Leonard, A. J., Mumford, S. J., Fedun, V. & Erdélyi, R., MNRAS, 480, 2839
16. Observing Kelvin-Helmholtz instability in solar blowout jet [49]
    Li, Xiaohong, Zhang, Jun, Yang, Shuhong, Hou, Yijun & Erdélyi, Robert, Scientific Reports, 8, 8136
17. Untwisting Jets Related to Magnetic Flux Cancellation [13]
    Liu, Jiajia, Erdélyi, Robert, Wang, Yuming & Liu, Rui, ApJ, 852, 10
18. A New Tool for CME Arrival Time Prediction using Machine Learning Algorithms: CAT-PUMA [69]
    Liu, Jiajia, Ye, Yudong, Shen, Chenglong, Wang, Yuming & Erdélyi, Robert, ApJ, 855, 109
19. Studies of Isolated and Non-isolated Photospheric Bright Points in an Active Region Observed by the New Vacuum Solar Telescope [38]
    Liu, Yanxiao, Xiang, Yongyuan, Erdélyi, Robertus, Liu, Zhong, Li, Dong, Ning, Zongjun, Bi, Yi, Wu, Ning & Lin, Jun, ApJ, 856, 17
20. Dissipative instabilities in a partially ionised prominence plasma slab. II. The effect of compressibility [8]
    Mather, J. F., Ballai, I. & Erdélyi, R., A&A, 610, A56
21. Fundamental (f) oscillations in a magnetically coupled solar interior-atmosphere system - An analytical approach [2]
    Pintér, Balázs & Erdélyi, R., Advances in Space Research, 61, 759
22. Propagation of leaky surface waves on contact magnetohydrodynamic discontinuities in incompressible plasmas [3]
    Ruderman, M. S., Vickers, E., Ballai, I. & Erdelyi, R., Physics of Plasmas, 25, 122107
23. Evolution of Complex 3D Motions in Spicules [16]
    Sharma, Rahul, Verth, Gary & Erdélyi, Robertus, ApJ, 853, 61
24. Propagation of Surface Magnetohydrodynamic Waves in Asymmetric Multilayered Plasma [9]
    Shukhobodskaia, Daria & Erdélyi, Róbert, ApJ, 868, 128
25. Resonant damping of kink oscillations of thin cooling and expanding coronal magnetic loops [10]
    Shukhobodskiy, A. A., Ruderman, M. S. & Erdélyi, R., A&A, 619, A173
26. Magnetic Shocks and Substructures Excited by Torsional Alfvén Wave Interactions in Merging Expanding Flux Tubes [24]
    Snow, B., Fedun, V., Gent, F. A., Verth, G. & Erdélyi, R., ApJ, 857, 125
27. Propagating Spectropolarimetric Disturbances in a Large Sunspot [28]
    Stangalini, M., Jafarzadeh, S., Ermolli, I., Erdélyi, R., Jess, D. B., Keys, P. H., Giorgi, F., Murabito, M., Berrilli, F. & Del Moro, D., ApJ, 869, 110
28. Period Increase and Amplitude Distribution of Kink Oscillation of Coronal Loop [31]
    Su, W., Guo, Y., Erdélyi, R., Ning, Z. J., Ding, M. D., Cheng, X. & Tan, B. L., Scientific Reports, 8, 4471
29. Propagation of Leaky MHD Waves at Discontinuities with Tilted Magnetic Field [5]
    Vickers, E., Ballai, I. & Erdélyi, R., Solar Physics, 293, 139
30. Detailed analysis of dynamic evolution of three Active Regions at the photospheric level before flare and CME occurrence [9]
    Ye, Yudong, Korsós, M. B. & Erdélyi, R., Advances in Space Research, 61, 673
31. Magneto-acoustic Waves in a Magnetic Slab Embedded in an Asymmetric Magnetic Environment: The Effects of Asymmetry [25]
    Zsámberger, Noémi Kinga, Allcock, Matthew & Erdélyi, Róbert, ApJ, 853, 136

2017

1. Magnetohydrodynamic Waves in an Asymmetric Magnetic Slab [29]
   Allcock, Matthew & Erdélyi, Robert, Solar Physics, 292, 35
2. Effects of Steady Flow on Magnetoacoustic-Gravity Surface Waves: I. The Weak Field Case [0]
   Erdélyi, R. & Mather, J. F., Solar Physics, 292, 26
3. Active Longitude and Coronal Mass Ejection Occurrences [24]
   Gyenge, N., Singh, T., Kiss, T. S., Srivastava, A. K. & Erdélyi, R., ApJ, 838, 18
4. Simple Statistical Probabilistic Forecasts of the Winter NAO [32]
   Hall, Richard J., Scaife, Adam A., Hanna, Edward, Jones, Julie M. & Erdélyi, Robert, Weather and Forecasting, 32, 1585
5. Drivers and potential predictability of summer time North Atlantic polar front jet variability [36]
   Hall, Richard J., Jones, Julie M., Hanna, Edward, Scaife, Adam A. & Erdélyi, Róbert, Climate Dynamics, 48, 3869
6. An Inside Look at Sunspot Oscillations with Higher Azimuthal Wavenumbers [47]
   Jess, David B., Van Doorsselaere, Tom, Verth, Gary, Fedun, Viktor, Krishna Prasad, S., Erdélyi, Robert, Keys, Peter H., Grant, Samuel D. T., Uitenbroek, Han & Christian, Damian J., ApJ, 842, 59
7. Systematic Variations of Macrospicule Properties Observed by SDO/AIA over Half a Decade [31]
   Kiss, T. S., Gyenge, N. & Erdélyi, R., ApJ, 835, 47
8. The Frequency-dependent Damping of Slow Magnetoacoustic Waves in a Sunspot Umbral Atmosphere [29]
   Krishna Prasad, S., Jess, D. B., Van Doorsselaere, T., Verth, G., Morton, R. J., Fedun, V., Erdélyi, R. & Christian, D. J., ApJ, 847, 5
9. The Atlanto-Pacific multidecade oscillation and its imprint on the global temperature record [5]
   Nagy, Melinda, Petrovay, Kristóf & Erdélyi, Robert, Climate Dynamics, 48, 1883
10. IRIS Burst Spectra Co-spatial to a Quiet-Sun Ellerman-like Brightening [40]
    Nelson, C. J., Freij, N., Reid, A., Oliver, R., Mathioudakis, M. & Erdélyi, R., ApJ, 845, 16
11. Kink oscillations of cooling coronal loops with variable cross-section [18]
    Ruderman, M. S., Shukhobodskiy, A. A. & Erdélyi, R., A&A, 602, A50
12. Dynamic Behavior of Spicules Inferred from Perpendicular Velocity Components [13]
    Sharma, Rahul, Verth, Gary & Erdélyi, Robertus, ApJ, 840, 96
13. Polarized Kink Waves in Magnetic Elements: Evidence for Chromospheric Helical Waves [30]
    Stangalini, M., Giannattasio, F., Erdélyi, R., Jafarzadeh, S., Consolini, G., Criscuoli, S., Ermolli, I., Guglielmino, S. L. & Zuccarello, F., ApJ, 840, 19
14. Sunspot Light Walls Suppressed by Nearby Brightenings [15]
    Yang, Shuhong, Zhang, Jun, Erdélyi, Robertus, Hou, Yijun, Li, Xiaohong & Yan, Limei, ApJ, 843, L15

2016

1. Propagation of Long-Wavelength Nonlinear Slow Sausage Waves in Stratified Magnetic Flux Tubes [2]
   Barbulescu, M. & Erdélyi, R., Solar Physics, 291, 1369
2. On the Properties of Slow MHD Sausage Waves within Small-scale Photospheric Magnetic Structures [39]
   Freij, N., Dorotovič, I., Morton, R. J., Ruderman, M. S., Karlovský, V. & Erdélyi, R., ApJ, 817, 44
3. Buoyancy-driven Magnetohydrodynamic Waves [9]
   Hague, A. & Erdélyi, R., ApJ, 828, 88
4. Three-dimensional finite-difference time-domain modelling of photonic crystal surface-emitting lasers [0]
   Ivanov, Pavlo, Taylor, Richard J. E., Li, Guangrui, Childs, David T. D., Khamas, Salam, Sarma, Jayanta, Erdelyi, Robertus & Hogg, Richard A., Novel In-Plane Semiconductor Lasers XV (Editors: Belyanin, Alexey A. & Smowton, Peter M.), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 9767, p. 976721
5. On the State of a Solar Active Region Before Flares and CMEs [15]
   Korsós, M. B. & Erdélyi, R., ApJ, 823, 153
6. On the Magnetic and Energy Characteristics of Recurrent Homologous Jets from An Emerging Flux [40]
   Liu, Jiajia, Wang, Yuming, Erdélyi, Robertus, Liu, Rui, McIntosh, Scott W., Gou, Tingyu, Chen, Jun, Liu, Kai, Liu, Lijuan & Pan, Zonghao, ApJ, 833, 150
7. Magneto-Acoustic Waves in a Gravitationally Stratified Magnetized Plasma: Eigen-Solutions and their Applications to the Solar Atmosphere [11]
   Mather, J. F. & Erdélyi, R., ApJ, 822, 116
8. The European Solar Telescope (EST) [16]
   Matthews, Sarah A., Collados, Manuel, Mathioudakis, Mihalis & Erdelyi, Robertus, Ground-based and Airborne Instrumentation for Astronomy VI (Editors: Evans, Christopher J., Simard, Luc & Takami, Hideki), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 9908, p. 990809
9. On the relationship between magnetic cancellation and UV burst formation [25]
   Nelson, C. J., Doyle, J. G. & Erdélyi, R., MNRAS, 463, 2190
10. Contacting ZnO Individual Crystal Facets by Direct Write Lithography [0]
    Petkov, Nikolay, Volk, János, Erdélyi, Róbert, Lukács, István Endre, Nagata, Takahiro, Sturm, Chris & Grundmann, M., ACS Applied Materials & Interfaces, 8, 23891
11. Linear MHD Wave Propagation in Time-Dependent Flux Tube. III. Leaky Waves in Zero-Beta Plasma [0]
    Williamson, A. & Erdélyi, R., Solar Physics, 291, 175
12. Enhancement of a Sunspot Light Wall with External Disturbances [27]
    Yang, Shuhong, Zhang, Jun & Erdélyi, Robert, ApJ, 833, L18

2015

1. On the Statistics of Macrospicules [24]
   Bennett, S. M. & Erdélyi, R., ApJ, 808, 135
2. Axisymmetric Modes in Magnetic Flux Tubes with Internal and External Magnetic Twist [20]
   Giagkiozis, I., Fedun, V., Erdélyi, R. & Verth, G., ApJ, 810, 53
3. Wave Damping Observed in Upwardly Propagating Sausage-mode Oscillations Contained within a Magnetic Pore [72]
   Grant, S. D. T., Jess, D. B., Moreels, M. G., Morton, R. J., Christian, D. J., Giagkiozis, I., Verth, G., Fedun, V., Keys, P. H., Van Doorsselaere, T. & Erdélyi, R., ApJ, 806, 132
4. A Fast MHD Code for Gravitationally Stratified Media using Graphical Processing Units: SMAUG [5]
   Griffiths, M. K., Fedun, V. & Erdélyi, R., Journal of Astrophysics and Astronomy, 36, 197
5. Magnetohydrodynamic Seismology of a Coronal Loop System by the First Two Modes of Standing Kink Waves [48]
   Guo, Y., Erdélyi, R., Srivastava, A. K., Hao, Q., Cheng, X., Chen, P. F., Ding, M. D. & Dwivedi, B. N., ApJ, 799, 151
6. Non-homogeneous Behaviour of the Spatial Distribution of Macrospicules [5]
   Gyenge, N., Bennett, S. & Erdélyi, R., Journal of Astrophysics and Astronomy, 36, 103
7. Drivers of North Atlantic Polar Front jet stream variability [99]
   Hall, Richard, Erdélyi, Róbert, Hanna, Edward, Jones, Julie M. & Scaife, Adam A., International Journal of Climatology, 35, 1697
8. 3D FDTD modelling of photonic crystal surface emitting lasers [0]
   Ivanov, P., Taylor, R. J. E., Li, G., Childs, D. T. D., Khamas, S., Sarma, J., Hogg, R. A. & Erdelyi, R., 2015 6th International Conference on Computers and Devices for Communication (CODEC), p. 34
9. On Flare Predictability Based on Sunspot Group Evolution [37]
   Korsós, M. B., Ludmány, A., Erdélyi, R. & Baranyi, T., ApJ, 802, L21
10. The Dynamics of Rapid Redshifted and Blueshifted Excursions in the Solar Hα Line [66]
    Kuridze, D., Henriques, V., Mathioudakis, M., Erdélyi, R., Zaqarashvili, T. V., Shelyag, S., Keys, P. H. & Keenan, F. P., ApJ, 802, 26
11. Morphological and electrical properties of self-assembled iron silicide nanoparticles on Si(0 0 1) and Si(1 1 1) substrates [0]
    Molnár, G., Dózsa, L., Erdélyi, R., Vértesy, Z. & Osváth, Z., Applied Surface Science, 357, 573
12. Observations and mode identification of sausage waves in a magnetic pore [34]
    Moreels, M. G., Freij, N., Erdélyi, R., Van Doorsselaere, T. & Verth, G., A&A, 579, A73
13. Photospheric logarithmic velocity spirals as MHD wave generation mechanisms [23]
    Mumford, S. J. & Erdélyi, R., MNRAS, 449, 1679
14. Generation of Magnetohydrodynamic Waves in Low Solar Atmospheric Flux Tubes by Photospheric Motions [53]
    Mumford, S. J., Fedun, V. & Erdélyi, R., ApJ, 799, 6
15. Small-scale Structuring of Ellerman Bombs at the Solar Limb [59]
    Nelson, C. J., Scullion, E. M., Doyle, J. G., Freij, N. & Erdélyi, R., ApJ, 798, 19
16. Enhanced pressure response in ZnO nanorods due to spontaneous polarization charge [0]
    Seifikar, Masoud, O'Reilly, Eoin P., Christian, Bjorn P., Lebedev, Vadim, Volk, Janos, Erdelyi, Robert, Lukacs, Istvan Endre, Dauksevicius, Rolanas & Gaidys, Rimvydas, 2015 IEEE 15th International Conference on Nanotechnology (IEEE-NANO), p. 301
17. Band-Gap Deformation Potential and Elasticity Limit of Semiconductor Free-Standing Nanorods Characterized in Situ by Scanning Electron Microscope–Cathodoluminescence Nanospectroscopy [5]
    Watanabe, Kentaro, Nagata, Takahiro, Wakayama, Yutaka, Sekiguchi, Takashi, Erdélyi, Róbert & Volk, János, ACS Nano, 9, 2989
18. Semicircular-like Secondary Flare Ribbons Associated with a Failed Eruption [9]
    Zheng, R., Korsós, M. B. & Erdélyi, R., ApJ, 809, 45

2014

1. Longitudinal Magnetohydrodynamics Oscillations in Dissipative, Cooling Coronal Loops [20]
   Al-Ghafri, K. S., Ruderman, M. S., Williamson, A. & Erdélyi, R., ApJ, 786, 36
2. Signature of the North Atlantic Oscillation on British solar radiation availability and PV potential: The winter zonal seesaw [13]
   Colantuono, Giuseppe, Wang, Yimin, Hanna, Edward & Erdélyi, Robert, Solar Energy, 107, 210
3. Standing sausage waves in photospheric magnetic waveguides [34]
   Dorotovič, I., Erdélyi, R., Freij, N., Karlovský, V. & Márquez, I., A&A, 563, A12
4. Effects of Stratification and Flows on P ₁/ P ₂ Ratios and Anti-node Shifts Within Closed Loop Structures [15]
   Erdélyi, R., Hague, A. & Nelson, C. J., Solar Physics, 289, 167
5. Three-dimensional SOlar RAdiation Model (SORAM) and its application to 3-D urban planning [46]
   Erdélyi, Róbert, Wang, Yimin, Guo, Weisi, Hanna, Edward & Colantuono, Giuseppe, Solar Energy, 101, 63
6. The Detection of Upwardly Propagating Waves Channeling Energy from the Chromosphere to the Low Corona [33]
   Freij, N., Scullion, E. M., Nelson, C. J., Mumford, S., Wedemeyer, S. & Erdélyi, R., ApJ, 791, 61
7. Magnetohydrostatic Equilibrium. II. Three-dimensional Multiple Open Magnetic Flux Tubes in the Stratified Solar Atmosphere [9]
   Gent, F. A., Fedun, V. & Erdélyi, R., ApJ, 789, 42
8. State Transition Induced by Self-Steepening and Self Phase-Modulation [14]
   He, Jing-Song, Xu, Shu-Wei, S. Ruderman, M. & Erdélyi, R., Chinese Physics Letters, 31, 010502
9. Few-cycle optical rogue waves: Complex modified Korteweg-de Vries equation [110]
   He, Jingsong, Wang, Lihong, Li, Linjing, Porsezian, K. & Erdélyi, R., Physical Review E, 89, 062917
10. The Generation and Damping of Propagating MHD Kink Waves in the Solar Atmosphere [54]
    Morton, R. J., Verth, G., Hillier, A. & Erdélyi, R., ApJ, 784, 29
11. Resonant Damping of Propagating Kink Waves in Time-Dependent Magnetic Flux Tube. I. Zero Plasma-pmb{\upbeta} [4]
    Williamson, A. & Erdélyi, R., Solar Physics, 289, 4105
12. Linear MHD Wave Propagation in Time-Dependent Flux Tube. II. Finite Plasma Beta [3]
    Williamson, A. & Erdélyi, R., Solar Physics, 289, 1193
13. Linear MHD Wave Propagation in Time-Dependent Flux Tube. I. Zero Plasma-β [5]
    Williamson, A. & Erdélyi, R., Solar Physics, 289, 899
14. Coronal wave associated with a non-radial filament eruption observed by the Solar Dynamics Observatory [7]
    Zheng, R., Jiang, Y., Yang, J. & Erdélyi, R., MNRAS, 444, 1119

2013

1. Effect of Variable Background on an Oscillating Hot Coronal Loop [19]
   Al-Ghafri, K. S. & Erdélyi, R., Solar Physics, 283, 413
2. Effect of stratification on the frequency of bounded Rossby modes over a non-flat bottom [0]
   Colantuono, Giuseppe, Erdélyi, Robert & Ruderman, Michael S., Geophysical and Astrophysical Fluid Dynamics, 107, 541
3. Ray-Optics Modelling of Rectangular and Cylindrical 2-Layer Solar Concentrators [15]
   Colantuono, Giuseppe, Buckley, Alastair & Erdélyi, Robert, Journal of Lightwave Technology, 31, 1033
4. Magnetohydrostatic equilibrium - I. Three-dimensional open magnetic flux tube in the stratified solar atmosphere [24]
   Gent, F. A., Fedun, V., Mumford, S. J. & Erdélyi, R., MNRAS, 435, 689
5. Characteristics of Transverse Waves in Chromospheric Mottles [49]
   Kuridze, D., Verth, G., Mathioudakis, M., Erdélyi, R., Jess, D. B., Morton, R. J., Christian, D. J. & Keenan, F. P., ApJ, 779, 82
6. Alfvén Waves in the Solar Atmosphere. From Theory to Observations [160]
   Mathioudakis, M., Jess, D. B. & Erdélyi, R., Space Science Reviews, 175, 1
7. Evidence for the Photospheric Excitation of Incompressible Chromospheric Waves [87]
   Morton, R. J., Verth, G., Fedun, V., Shelyag, S. & Erdélyi, R., ApJ, 768, 17
8. Statistical Analysis of Small Ellerman Bomb Events [49]
   Nelson, C. J., Doyle, J. G., Erdélyi, R., Huang, Z., Madjarska, M. S., Mathioudakis, M., Mumford, S. J. & Reardon, K., Solar Physics, 283, 307
9. Ellerman Bombs—Evidence for Magnetic Reconnection in the Lower Solar Atmosphere [65]
   Nelson, C. J., Shelyag, S., Mathioudakis, M., Doyle, J. G., Madjarska, M. S., Uitenbroek, H. & Erdélyi, R., ApJ, 779, 125
10. Observational Evidence of Sausage-pinch Instability in Solar Corona by SDO/AIA [18]
    Srivastava, A. K., Erdélyi, R., Tripathi, Durgesh, Fedun, V., Joshi, N. C. & Kayshap, P., ApJ, 765, L42
11. Photospheric high-frequency acoustic power excess in sunspot umbra: signature of magneto-acoustic modes [5]
    Zharkov, S., Shelyag, S., Fedun, V., Erdélyi, R. & Thompson, M. J., Annales Geophysicae, 31, 1357

2012

1. Mechanical characterization of epitaxially grown zinc oxide nanorods [1]
   Erdélyi, R., Halász, V., Szabó, Z., Lukács, I. E. & Volk, J., Physica E Low-Dimensional Systems and Nanostructures, 44, 1050
2. In-situ mechanical characterization of wurtzite InAs nanowires [9]
   Erdélyi, Róbert, Hannibal Madsen, Morten, Sáfrán, György, Hajnal, Zoltán, Endre Lukács, István, Fülöp, Gergő, Csonka, Szabolcs, Nygård, Jesper & Volk, János, Solid State Communications, 152, 1829
3. Integrated horizontal ZnO nanowires for sensor applications [0]
   Khanh, N. Q., Lukacs, I., Kurunczi, S., Safran, Gy., Szabo, Z., Volk, J., Kubina, K. & Erdelyi, R., 2012 IEEE Sensors, p. 185
4. Effect of nanosphere monolayer on the morphology of ZnO nanowires grown by hydrothermal method [3]
   Khánh, N. Q., Lukács, I., Sáfrán, Gy., Erdélyi, R., Fülöp, E., Deák, A. & Volk, J., Materials Letters, 79, 242
5. Transverse Oscillations in Chromospheric Mottles [76]
   Kuridze, D., Morton, R. J., Erdélyi, R., Dorrian, G. D., Mathioudakis, M., Jess, D. B. & Keenan, F. P., ApJ, 750, 51
6. Longitudinal Oscillations in Density Stratified and Expanding Solar Waveguides [27]
   Luna-Cardozo, M., Verth, G. & Erdélyi, R., ApJ, 748, 110
7. Magneto-seismology of solar atmospheric loops by means of longitudinal oscillations [1]
   Luna-Cardozo, M., Verth, G. & Erdélyi, R., Comparative Magnetic Minima: Characterizing Quiet Times in the Sun and Stars (Editors: Mandrini, Cristina H. & Webb, David F.), IAU Symposium, 286, p. 437
8. Generation of Quasi-periodic Waves and Flows in the Solar Atmosphere by Oscillatory Reconnection [68]
   McLaughlin, J. A., Verth, G., Fedun, V. & Erdélyi, R., ApJ, 749, 30
9. Determination of Sub-resolution Structure of a Jet by Solar Magnetoseismology [30]
   Morton, R. J., Verth, G., McLaughlin, J. A. & Erdélyi, R., ApJ, 744, 5
10. Observations of quasi-periodic phenomena associated with a large blowout solar jet [37]
    Morton, R. J., Srivastava, A. K. & Erdélyi, R., A&A, 542, A70
11. Observations of ubiquitous compressive waves in the Sun's chromosphere [164]
    Morton, Richard J., Verth, Gary, Jess, David B., Kuridze, David, Ruderman, Michael S., Mathioudakis, Mihalis & Erdélyi, Robertus, Nature Communications, 3, 1315
12. Multiwavelength Observations of Supersonic Plasma Blob Triggered by Reconnection-Generated Velocity Pulse in AR10808 [6]
    Srivastava, A. K., Erdélyi, R., Murawski, K. & Kumar, Pankaj, Solar Physics, 281, 729
13. Three-dimensional Simulations of Magnetohydrodynamic Waves in Magnetized Solar Atmosphere [61]
    Vigeesh, G., Fedun, V., Hasan, S. S. & Erdélyi, R., ApJ, 755, 18
14. Engineered ZnO nanowire arrays using different nanopatterning techniques [0]
    Volk, János, Szabó, Zoltán, Erdélyi, Róbert & Khánh, Nguyen Q., Oxide-based Materials and Devices III (Editors: Teherani, Ferechteh H., Look, David C. & Rogers, David J.), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 8263, p. 82631L
15. Magnetic tornadoes as energy channels into the solar corona [325]
    Wedemeyer-Böhm, Sven, Scullion, Eamon, Steiner, Oskar, Rouppe van der Voort, Luc, de La Cruz Rodriguez, Jaime, Fedun, Viktor & Erdélyi, Robert, Nature, 486, 505

2011

1. Could periodic patterns in human mortality be sensitive to solar activity? [12]
   Díaz-Sandoval, R., Erdélyi, R. & Maheswaran, R., Annales Geophysicae, 29, 1113
2. Damping of Longitudinal Magneto-Acoustic Oscillations in Slowly Varying Coronal Plasma [19]
   Erdélyi, R., Al-Ghafri, K. S. & Morton, R. J., Solar Physics, 272, 73
3. Magnetohydrodynamic Waves and Seismology of the Solar Atmosphere [19]
   Erdélyi, Robertus & Goossens, Marcel, Space Science Reviews, 158, 167
4. Investigations into the Impact of the Template Layer on ZnO Nanowire Arrays Made Using Low Temperature Wet Chemical Growth [8]
   Erdélyi, Róbert, Nagata, Takahiro, Rogers, David J., Teherani, Ferechteh H., Horváth, Zsolt E., Lábadi, Zoltán, Baji, Zsófia, Wakayama, Yutaka & Volk, János, Crystal Growth and Design, 11, 2515
5. Frequency Filtering of Torsional Alfvén Waves by Chromospheric Magnetic Field [55]
   Fedun, V., Verth, G., Jess, D. B. & Erdélyi, R., ApJ, 740, L46
6. MHD waves generated by high-frequency photospheric vortex motions [75]
   Fedun, V., Shelyag, S., Verth, G., Mathioudakis, M. & Erdélyi, R., Annales Geophysicae, 29, 1029
7. Numerical Modeling of Footpoint-driven Magneto-acoustic Wave Propagation in a Localized Solar Flux Tube [91]
   Fedun, V., Shelyag, S. & Erdélyi, R., ApJ, 727, 17
8. Resonant MHD Waves in the Solar Atmosphere [213]
   Goossens, Marcel, Erdélyi, Robert & Ruderman, Michael S., Space Science Reviews, 158, 289
9. Multiwavelength Observations of a Failed Flux Rope in the Eruption and Associated M-Class Flare from NOAA AR 11045 [32]
   Kumar, Pankaj, Srivastava, Ablishek K., Filippov, B., Erdélyi, R. & Uddin, Wahab, Solar Physics, 272, 301
10. Torsional Alfvén waves: magneto-seismology in static and dynamic coronal plasmas [19]
    Morton, R. J., Ruderman, M. S. & Erdélyi, R., A&A, 534, A27
11. Observations of Sausage Modes in Magnetic Pores [86]
    Morton, R. J., Erdélyi, R., Jess, D. B. & Mathioudakis, M., ApJ, 729, L18
12. Effects of Magnetic Fields in the Solar Atmosphere on Global Oscillations [10]
    Pintér, Balázs & Erdélyi, Robert, Space Science Reviews, 158, 471
13. The Response of A Three-dimensional Solar Atmosphere to Wave-driven Jets [21]
    Scullion, E., Erdélyi, R., Fedun, V. & Doyle, J. G., ApJ, 743, 14
14. Photospheric magnetic vortex structures [45]
    Shelyag, S., Fedun, V., Keenan, F. P., Erdélyi, R. & Mathioudakis, M., Annales Geophysicae, 29, 883
15. Highly ordered three-dimensional ZnO nanorods for novel photonic devices [0]
    Szabó, Zoltán, Erdélyi, Róbert, Makai, János, Balázs, János & Volk, János, Physica Status Solidi C Current Topics, 8, 2895
16. Observational Signatures of Impulsively Heated Coronal Loops: Power-Law Distribution of Energies [7]
    Taroyan, Y., Erdélyi, R. & Bradshaw, S. J., Solar Physics, 269, 295

2010

1. Magneto-Acoustic Waves in Compressible Magnetically Twisted Flux Tubes [58]
   Erdélyi, Robert & Fedun, Viktor, Solar Physics, 263, 63
2. Evidence of Solar Flare Triggering Due to Loop-loop Interaction Caused by Footpoint Shear Motion [30]
   Kumar, Pankaj, Srivastava, A. K., Somov, B. V., Manoharan, P. K., Erdélyi, R. & Uddin, Wahab, ApJ, 723, 1651
3. Propagating magneto-hydrodynamic waves in a cooling homogenous coronal plasma [35]
   Morton, R. J., Hood, A. W. & Erdélyi, R., A&A, 512, A23
4. Application of the theory of damping of kink oscillations by radiative cooling of coronal loop plasma [33]
   Morton, R. J. & Erdélyi, R., A&A, 519, A43
5. An analytic interface dynamo over a shear layer of finite depth [3]
   Petrovay, K., Kerekes, A. & Erdélyi, R., Geophysical and Astrophysical Fluid Dynamics, 104, 619
6. Waves in the Transition Region [1]
   Scullion, E., Erdélyi, R. & Doyle, J. G., Magnetic Coupling between the Interior and Atmosphere of the Sun (Editors: Hasan, S. S. & Rutten, R. J.), Astrophysics and Space Science Proceedings, 19, p. 426
7. MHD Wave Heating Diagnostics [1]
   Taroyan, Y. & Erdélyi, R., Magnetic Coupling between the Interior and Atmosphere of the Sun (Editors: Hasan, S. S. & Rutten, R. J.), Astrophysics and Space Science Proceedings, 19, p. 287
8. Magnetoseismology: Eigenmodes of Torsional Alfvén Waves in Stratified Solar Waveguides [48]
   Verth, G., Erdélyi, R. & Goossens, M., ApJ, 714, 1637

2009

1. Coronal Seismology by Means of Kink Oscillation Overtones [188]
   Andries, J., van Doorsselaere, T., Roberts, B., Verth, G., Verwichte, E. & Erdélyi, R., Space Science Reviews, 149, 3
2. Magnetohydrodynamic waves in a compressible magnetic flux tube with elliptical cross-section [41]
   Erdélyi, R. & Morton, R. J., A&A, 494, 295
3. Oscillatory Response of the 3D Solar Atmosphere to the Leakage of Photospheric Motion [38]
   Fedun, Viktor, Erdélyi, Robert & Shelyag, Sergiy, Solar Physics, 258, 219
4. Alfvén Waves in the Lower Solar Atmosphere [397]
   Jess, David B., Mathioudakis, Mihalis, Erdélyi, Robert, Crockett, Philip J., Keenan, Francis P. & Christian, Damian J., Science, 323, 1582
5. Transverse Oscillations of a Cooling Coronal Loop [74]
   Morton, R. J. & Erdélyi, R., ApJ, 707, 750
6. The effect of elliptic shape on the period ratio P₁/P₂ of emerging coronal loops [27]
   Morton, R. J. & Erdélyi, R., A&A, 502, 315
7. Foreword [17]
   Nakariakov, V. M. & Erdélyi, R., Space Science Reviews, 149, 1
8. Transverse Oscillations of Coronal Loops [157]
   Ruderman, Michael S. & Erdélyi, Robert, Space Science Reviews, 149, 199
9. Jets in Polar Coronal Holes [26]
   Scullion, E., Popescu, M. D., Banerjee, D., Doyle, J. G. & Erdélyi, R., ApJ, 704, 1385
10. Acoustic wave propagation in the solar sub-photosphere with localised magnetic field concentration: effect of magnetic tension [42]
    Shelyag, S., Zharkov, S., Fedun, V., Erdélyi, R. & Thompson, M. J., A&A, 501, 735
11. Heating Diagnostics with MHD Waves [81]
    Taroyan, Y. & Erdélyi, R., Space Science Reviews, 149, 229
12. Highly Uniform Epitaxial ZnO Nanorod Arrays for Nanopiezotronics [33]
    Volk, J., Nagata, T., Erdélyi, R., Bársony, I., Tóth, A. L., Lukács, I. E., Czigány, Zs., Tomimoto, H., Shingaya, Y. & Chikyow, T., Nanoscale Research Letters, 4, 699
13. Oscillations and Waves in Solar Spicules [166]
    Zaqarashvili, T. V. & Erdélyi, R., Space Science Reviews, 149, 355

2008

1. Radiative damping of standing acoustic waves in solar coronal loops [19]
   Bradshaw, S. J. & Erdélyi, R., A&A, 483, 301
2. Kink oscillations in magnetic tubes with twisted annulus [34]
   Carter, B. K. & Erdélyi, R., A&A, 481, 239
3. Identification of linear slow sausage waves in magnetic pores [38]
   Dorotovič, I., Erdélyi, R. & Karlovský, V., Waves & Oscillations in the Solar Atmosphere: Heating and Magneto-Seismology (Editors: Erdélyi, Robert & Mendoza-Briceno, César A.), IAU Symposium, 247, p. 351
4. Dissipation of Longitudinal Oscillations in Stratified Nonisothermal Hot Coronal Loops [20]
   Erdélyi, R., Luna-Cardozo, M. & Mendoza-Briceño, C. A., Solar Physics, 252, 305
5. Hinode EUV spectroscopic observations of coronal oscillations [101]
   Erdélyi, R. & Taroyan, Y., A&A, 489, L49
6. Wave propagation in steady stratified one-dimensional cylindrical waveguides [5]
   Erdélyi, R. & Hargreaves, J., A&A, 483, 285
7. Generation of short-lived large-amplitude magnetohydrodynamic pulses by dispersive focusing [32]
   Fedun, V., Ruderman, M. S. & Erdélyi, R., Physics Letters A, 372, 6107
8. Solar feature tracking in both spatial and temporal domains [0]
   Jess, D. B., Mathioudakis, M., Erdélyi, R., Verth, G., McAteer, R. T. J. & Keenan, F. P., Waves & Oscillations in the Solar Atmosphere: Heating and Magneto-Seismology (Editors: Erdélyi, Robert & Mendoza-Briceno, César A.), IAU Symposium, 247, p. 288
9. Discovery of Spatial Periodicities in a Coronal Loop Using Automated Edge-Tracking Algorithms [13]
   Jess, D. B., Mathioudakis, M., Erdélyi, R., Verth, G., McAteer, R. T. J. & Keenan, F. P., ApJ, 680, 1523
10. A Novel Approach to the Solar Interior-Atmosphere Eigenvalue Problem [4]
    Kerekes, A., Erdélyi, R. & Mole, N., ApJ, 683, 527
11. Effects of Random Flows on the Solar f Mode: II. Horizontal and Vertical Flow [3]
    Kerekes, Andrea, Erdélyi, Róbert & Mole, Nils, Solar Physics, 251, 469
12. Damping of non-isothermal hot coronal loops oscillations [3]
    Luna-Cardozo, M., Erdélyi, R. & Mendoza-Briceño, César A., Waves & Oscillations in the Solar Atmosphere: Heating and Magneto-Seismology (Editors: Erdélyi, Robert & Mendoza-Briceno, César A.), IAU Symposium, 247, p. 316
13. Effects of Random Flows on the Solar f Mode: I. Horizontal Flow [5]
    Mole, Nils, Kerekes, Andrea & Erdélyi, Robert, Solar Physics, 251, 453
14. Transverse Oscillations of Longitudinally Stratified Coronal Loops with Variable Cross Section [107]
    Ruderman, M. S., Verth, G. & Erdélyi, R., ApJ, 686, 694
15. Magnetohydrodynamic code for gravitationally-stratified media [40]
    Shelyag, S., Fedun, V. & Erdélyi, R., A&A, 486, 655
16. Global Acoustic Resonance in a Stratified Solar Atmosphere [21]
    Taroyan, Y. & Erdélyi, R., Solar Physics, 251, 523
17. Resonant acoustic waves in a stratified atmosphere [1]
    Taroyan, Y. & Erdélyi, R., Waves & Oscillations in the Solar Atmosphere: Heating and Magneto-Seismology (Editors: Erdélyi, Robert & Mendoza-Briceno, César A.), IAU Symposium, 247, p. 86
18. Effect of longitudinal magnetic and density inhomogeneity on transversal coronal loop oscillations [129]
    Verth, G. & Erdélyi, R., A&A, 486, 1015
19. Refined Magnetoseismological Technique for the Solar Corona [70]
    Verth, G., Erdélyi, R. & Jess, D. B., ApJ, 687, L45

2007

1. Present and Future Observing Trends in Atmospheric Magnetoseismology [214]
   Banerjee, D., Erdélyi, R., Oliver, R. & O'Shea, E., Solar Physics, 246, 3
2. Sausage and kink oscillations in incompressible annular magnetic cylinders [28]
   Carter, B. K. & Erdélyi, R., A&A, 475, 323
3. Leakage of photospheric acoustic waves into non-magnetic solar atmosphere [46]
   Erdélyi, R., Malins, C., Tóth, G. & de Pontieu, B., A&A, 467, 1299
4. Are There Alfvén Waves in the Solar Atmosphere? [156]
   Erdélyi, R. & Fedun, V., Science, 318, 1572
5. Heating of the solar and stellar coronae: a review [69]
   Erdélyi, R. & Ballai, I., Astronomische Nachrichten, 328, 726
6. Magnetohydrodynamic Waves [3]
   Erdélyi, R., Kodai School on Solar Physics (Editors: Hasan, S. S. & Banerjee, D.), American Institute of Physics Conference Series, 919, p. 122
7. Leakage of photospheric motions into the magnetic solar atmosphere: new prospects of magneto-seismology [8]
   Erdélyi, R., Pintér, B. & Malins, C., Astronomische Nachrichten, 328, 305
8. The effect of density stratification on the amplitude profile of transversal coronal loop oscillations [88]
   Erdélyi, R. & Verth, G., A&A, 462, 743
9. Linear MHD Sausage Waves in Compressible Magnetically Twisted Flux Tubes [58]
   Erdélyi, Robert & Fedun, Viktor, Solar Physics, 246, 101
10. Direct Propagation of Photospheric Acoustic p Modes into Nonmagnetic Solar Atmosphere [19]
    Malins, C. & Erdélyi, R., Solar Physics, 246, 41
11. The Effect of Abnormal Granulation on Acoustic Wave Travel Times and Mode Frequencies [7]
    Petrovay, K., Erdélyi, R. & Thompson, M. J., Solar Physics, 240, 197
12. Global oscillations in a magnetic solar model. II. Oblique propagation [13]
    Pintér, B., Erdélyi, R. & Goossens, M., A&A, 466, 377
13. Forward modelling of sub-photospheric flows for time-distance helioseismology [15]
    Shelyag, S., Erdélyi, R. & Thompson, M. J., A&A, 469, 1101
14. Forward Modeling of Hot Loop Oscillations Observed by SUMER and SXT [52]
    Taroyan, Y., Erdélyi, R., Wang, T. J. & Bradshaw, S. J., ApJ, 659, L173
15. Analysis of power spectra of Doppler shift time series as a diagnostic tool for quiescent coronal loops [12]
    Taroyan, Y., Erdélyi, R., Doyle, J. G. & Bradshaw, S. J., A&A, 462, 331
16. Spatial magneto-seismology: effect of density stratification on the first harmonic amplitude profile of transversal coronal loop oscillations [70]
    Verth, G., Van Doorsselaere, T., Erdélyi, R. & Goossens, M., A&A, 475, 341

2006

1. Wave propagation in incompressible MHD wave guides: the twisted magnetic Annulus [49]
   Erdélyi, R. & Carter, B. K., A&A, 455, 361
2. Sausage MHD Waves in Incompressible Flux Tubes with Twisted Magnetic Fields [67]
   Erdélyi, Robert & Fedun, Viktor, Solar Physics, 238, 41
3. Magnetic coupling of waves and oscillations in the lower solar atmosphere: can the tail wag the dog? [69]
   Erdélyi, Robert, Philosophical Transactions of the Royal Society of London Series A, 364, 351
4. Introduction [4]
   Erdélyi, Robert, Philosophical Transactions of the Royal Society of London Series A, 364, 289
5. MHD waves in magnetically twisted solar atmospheric flux tubes [0]
   Erdélyi, Robert & Fedun, Viktor, Solar Activity and its Magnetic Origin (Editors: Bothmer, Volker & Hady, Ahmed Abdel), IAU Symposium, 233, p. 134
6. Intermittent Coronal Loop Oscillations by Random Energy Releases [21]
   Mendoza-Briceño, César A. & Erdélyi, Robert, ApJ, 648, 722
7. Forward Modeling of Acoustic Wave Propagation in the Quiet Solar Subphotosphere [23]
   Shelyag, S., Erdélyi, R. & Thompson, M. J., ApJ, 651, 576
8. Absolute and convective instabilities of parallel propagating circularly polarized Alfvén waves: numerical results [8]
   Simpson, D., Ruderman, M. S. & Erdélyi, R., A&A, 452, 641
9. Seismology of quiescent coronal loops [0]
   Taroyan, Y. & Erdélyi, R., Solar Activity and its Magnetic Origin (Editors: Bothmer, Volker & Hady, Ahmed Abdel), IAU Symposium, 233, p. 191
10. Magnetohelioseismology [17]
    Thompson, Michael J., Philosophical Transactions of the Royal Society of London Series A, 364, 297
11. The nature of moss and lower atmospheric seismology [50]
    de Pontieu, B. & Erdélyi, R., Philosophical Transactions of the Royal Society of London Series A, 364, 383

2005

1. On the Nature of Coronal EIT Waves [73]
   Ballai, I., Erdélyi, R. & Pintér, B., ApJ, 633, L145
2. How to Channel Photospheric Oscillations into the Corona [179]
   De Pontieu, B., Erdélyi, R. & De Moortel, I., ApJ, 624, L61
3. Influence of random magnetic field on solar global oscillations: The incompressible f-mode [19]
   Erdélyi, R., Kerekes, A. & Mole, N., A&A, 431, 1083
4. Catastrophic Cooling of Impulsively Heated Coronal Loops [50]
   Mendoza-Briceño, César A., Sigalotti, Leonardo Di G. & Erdélyi, Robert, ApJ, 624, 1080
5. Footpoint excitation of standing acoustic waves in coronal loops [70]
   Taroyan, Y., Erdélyi, R., Doyle, J. G. & Bradshaw, S. J., A&A, 438, 713

2004

1. Solar chromospheric spicules from the leakage of photospheric oscillations and flows [429]
   De Pontieu, Bart, Erdélyi, Robert & James, Stewart P., Nature, 430, 536
2. Can ion-neutral damping help to form spicules?. II. Random driver [26]
   Erdélyi, R. & James, S. P., A&A, 427, 1055
3. Meeting report: Core to corona: UKSP 2004 [0]
   Fletcher, Lyndsay & Erdelyi, Robert, Astronomy and Geophysics, 45, 3.33
4. The Effects of Stratification on Oscillating Coronal Loops [91]
   Mendoza-Briceño, César A., Erdélyi, Robert & Sigalotti, Leonardo Di G., ApJ, 605, 493
5. Hall-magnetohydrodynamic surface waves in solar wind flow-structures [5]
   Miteva, Rossitsa, Zhelyazkov, Ivan & Erdélyi, Robert, New Journal of Physics, 6, 14
6. Kelvin-Helmholtz absolute and convective instabilities of, and signalling in, an inviscid fluid-viscous fluid configuration [15]
   Ruderman, Michael S., Brevdo, Leonid & Erdéelyi, Róobert, Proceedings of the Royal Society of London Series A, 460, 847
7. Absolute and convective instabilities in open shear layers. II. Magnetohydrodynamic equilibrium [6]
   Terra-Homem, M. & Erdélyi, R., A&A, 413, 7

2003

1. Correlations on Arcsecond Scales between Chromospheric and Transition Region Emission in Active Regions [70]
   De Pontieu, B., Tarbell, T. & Erdélyi, R., ApJ, 590, 502
2. Intensity Oscillations in the Upper Transition Region above Active Region Plage [109]
   De Pontieu, B., Erdélyi, R. & de Wijn, A. G., ApJ, 595, L63
3. On resonantly excited MHD waves in the magnetotail [12]
   ErdéLyi, R. & Taroyan, Y., Journal of Geophysical Research (Space Physics), 108, 1043
4. MHD resonant flow instability in the magnetotail [2]
   Erdélyi, R. & Taroyan, Y., Solar Wind Ten (Editors: Velli, Marco, Bruno, Roberto, Malara, Francesco & Bucci, B.), American Institute of Physics Conference Series, 679, p. 355
5. Can ion-neutral damping help to form spicules? [44]
   James, S. P., Erdélyi, R. & De Pontieu, B., A&A, 406, 715
6. Impulsive heating in coronal loops [5]
   Mendoza-Briceño, César A., Sigalotti, Leonardo Di G. & Erdélyi, Robert, Advances in Space Research, 32, 995
7. Surface wave propagation in steady ideal Hall-magnetohydrodynamic magnetic slabs [10]
   Miteva, Rossitsa, Zhelyazkov, Ivan & Erdélyi, Robert, Physics of Plasmas, 10, 4463
8. Steady state excitation of field line resonances by global waveguide modes in the magnetosphere [7]
   Taroyan, Y. & ErdéLyi, R., Journal of Geophysical Research (Space Physics), 108, 1301
9. Resonant surface waves and instabilities in finite β plasmas [14]
   Taroyan, Y. & Erdélyi, R., Physics of Plasmas, 10, 266
10. Absolute and convective instabilities in open shear layers. I. Hydrodynamic equilibrium [9]
    Terra-Homem, M. & Erdélyi, R., A&A, 403, 425
11. Linear and non-linear MHD wave propagation in steady-state magnetic cylinders [65]
    Terra-Homem, M., Erdélyi, R. & Ballai, I., Solar Physics, 217, 199

2002

1. Linear and nonlinear wave propagation in rarefied plasmas [11]
   Ballai, I., Erdélyi, R., Voitenko, Y. & Goossens, M., Physics of Plasmas, 9, 2593
2. Ducted compressional waves in the magnetosphere in the double-polytropic approximation [5]
   Ballai, I., Erdélyi, R. & Roberts, B., Annales Geophysicae, 20, 1553
3. Spicule formation by ion-neutral damping [36]
   James, S. P. & Erdélyi, R., A&A, 393, L11
4. What is the real nature of blinkers? [8]
   Marik, D. & Erdélyi, R., A&A, 393, L73
5. Coronal Loop Heating by Random Energy Releases [33]
   Mendoza-Briceño, César A., Erdélyi, Robert & Di G. Sigalotti, Leonardo, ApJ, 579, L49
6. Resonant and Kelvin-Helmholtz instabilities on the magnetopause [24]
   Taroyan, Y. & Erdélyi, R., Physics of Plasmas, 9, 3121

2001

1. Fast MHD oscillations in prominence fine structures [53]
   Díaz, A. J., Oliver, R., Erdélyi, R. & Ballester, J. L., A&A, 379, 1083
2. Nonlinear resonant absorption of fast magnetoacoustic waves due to coupling into slow continua in the solar atmosphere [9]
   Erdélyi, R., Ballai, I. & Goossens, M., A&A, 368, 662
3. Rotational splitting of helioseismic modes influenced by a magnetic atmosphere [7]
   Pintér, B., New, R. & Erdélyi, R., A&A, 378, L1
4. Damping of helioseismic modes in steady state [12]
   Pintér, B., Erdélyi, R. & New, R., A&A, 372, L17
5. Modelling of solar explosive events in 2D environments. III. Observable consequences [34]
   Roussev, I., Doyle, J. G., Galsgaard, K. & Erdélyi, R., A&A, 380, 719
6. Modelling of explosive events in the solar transition region in a 2D environment. II. Various MHD experiments [22]
   Roussev, I., Galsgaard, K., Erdélyi, R. & Doyle, J. G., A&A, 375, 228
7. Modelling of explosive events in the solar transition region in a 2D environment. I. General reconnection jet dynamics [55]
   Roussev, I., Galsgaard, K., Erdélyi, R. & Doyle, J. G., A&A, 370, 298

2000

1. Nonlinear theory of non-axisymmetric resonant slow waves in straight magnetic flux tubes [4]
   Ballai, I., Erdélyi, R. & Goossens, M., Journal of Plasma Physics, 64, 579
2. Linear and nonlinear resonant interaction of sound waves in dissipative layers [5]
   Ballai, I., Erdélyi, R. & Goossens, M., Journal of Plasma Physics, 64, 235
3. Slow surface wave damping in plasmas with anisotropic viscosity and thermal conductivity [26]
   Ruderman, M. S., Oliver, R., Erdélyi, R., Ballester, J. L. & Goossens, M., A&A, 354, 261

1999

1. Resonant Absorption of Nonlinear Slow MHD Waves in Isotropic Steady Plasmas - II. Application: Resonant Acoustic Waves [14]
   Erdélyi, Róbert & Ballai, István, Solar Physics, 186, 67
2. Explosive events in the solar atmosphere [40]
   Pérez, M. E., Doyle, J. G., Erdélyi, R. & Sarro, L. M., A&A, 342, 279
3. Modelling explosive events in the solar atmosphere [47]
   Sarro, L. M., Erdélyi, R., Doyle, J. G. & Pérez, M. E., A&A, 351, 721
4. New insight into transition region dynamics via SUMER observations and numerical modelling [39]
   Teriaca, L., Doyle, J. G., Erdélyi, R. & Sarro, L. M., A&A, 352, L99

1998

1. Interaction of sound waves with slow dissipative layers in anisotropic plasmas in the approximation of weak nonlinearity [15]
   Ballai, I., Erdélyi, R. & Ruderman, M. S., Physics of Plasmas, 5, 2264
2. Nonlinear theory of slow dissipative layers in anisotropic plasmas [30]
   Ballai, I., Ruderman, M. S. & Erdélyi, R., Physics of Plasmas, 5, 252
3. Resonant Absorption of Nonlinear Slow MHD Waves in Isotropic Steady Plasmas - I. Theory [15]
   Ballai, István & Erdélyi, Róbert, Solar Physics, 180, 65
4. Center-to-limb line width measurements of solar chromospheric, transition region and coronal lines [61]
   Erdelyi, R., Doyle, J. G., Perez, M. E. & Wilhelm, K., A&A, 337, 287
5. Resonant Absorption of Alfvén Waves in Steady Coronal Loops [18]
   Erdélyi, Róbert, Solar Physics, 180, 213
6. Resonant flow instability of MHD surface waves [36]
   Tirry, W. J., Cadez, V. M., Erdelyi, R. & Goossens, M., A&A, 332, 786

1997

1. Absorption of magnetosonic waves in presence of resonant slow waves in the solar atmosphere. [20]
   Cadez, V. M., Csik, A., Erdelyi, R. & Goossens, M., A&A, 326, 1241
2. Effect of Flow on Resonant Absorption of Slow MHD Waves in Coronal Arcades [4]
   Csík, Árpád, Erdélyi, Róbert & Čadež, Vladimir M., Solar Physics, 172, 61
3. Nonthermal Velocities in the Solar Transition Zone and Corona [32]
   Doyle, J. G., O'Shea, E., Erdélyi, R., Dere, K. P., Socker, D. G. & Keenan, F. P., Solar Physics, 173, 243
4. Analytical Solutions for Cusp Resonance in Dissipative MHD [37]
   ERDÉLYI, RÓBERT, Solar Physics, 171, 49

1996

1. Effects of flow on resonant absorption of MHD waves in viscous MHD. [42]
   Erdelyi, R. & Goossens, M., A&A, 313, 664
2. The Linear Spectrum of Twisted Magnetic Flux Tubes in Viscous MHD [3]
   Pintér, B., Erdélyi, R. & Goossens, M., Astrophysical Letters and Communications, 34, 169
3. Dissipative instability of the MHD tangential discontinuity in magnetized plasmas with anisotropic viscosity and thermal conductivity [35]
   Ruderman, M. S., Verwichte, E., Erdélyi, R. & Goossens, M., Journal of Plasma Physics, 56, 285

1995

1. Resonant absorption of Alfven waves in coronal loops in visco-resistive MHD. [70]
   Erdelyi, R. & Goossens, M., A&A, 294, 575
2. Analytic solutions for resonant Alfvén waves in 1D magnetic flux tubes in dissipative stationary MHD [32]
   Erdélyi, Róbert, Goossens, Marcel & Ruderman, Michael S., Solar Physics, 161, 123
3. A simple numerical scheme for the computation of resonant Alfvén waves [13]
   Stenuit, Hilde, Erdélyi, Róbert & Goossens, Marcel, Solar Physics, 161, 139

1994

1. Viscous computations of resonant absorption of MHD waves in flux tubes by fem [28]
   Erdelyi, R. & Goossens, M., Astrophysics and Space Science, 213, 273