Publications of Robert Cameron

A list of publications authored or co-authored by Robert Cameron, 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: 0000-0001-9474-8447

List of publications ordered by citations
Number of papers: 107 (refereed: 107)
No. of citations: 5262
First author papers: 29 (refereed: 29)

2026

  1. Molecular Hydrogen Controls the Temperatures of Flares on TRAPPIST-1 [1]
    Shapiro, A. I., Kostogryz, N., Seager, S., Witzke, V., de Wit, J., Vasilyev, V., Veronig, Astrid M., Robert, Cameron, Hardi, Peter & Solanki, S. K., ApJ, 998, L7

2025

  1. First Calculations of Starspot Spectra Based on 3D Radiative Magnetohydrodynamics Simulations [22]
    Smitha, H. N., Shapiro, Alexander I., Witzke, Veronika, Kostogryz, Nadiia M., Unruh, Yvonne C., Bhatia, Tanayveer S., Cameron, Robert, Seager, Sara & Solanki, Sami K., ApJ, 978, L13

2024

  1. The Sun's differential rotation is controlled by high-latitude baroclinically unstable inertial modes [11]
    Bekki, Yuto, Cameron, Robert H. & Gizon, Laurent, Science Advances, 10, eadk5643
  2. Low-latitude Magnetic Flux Emergence on Rapidly Rotating Solar-type Stars [8]
    Ișık, Emre, Solanki, Sami K., Cameron, Robert H. & Shapiro, Alexander I., ApJ, 976, 215
  3. Combined Surface Flux Transport and Helioseismic Far-Side Active Region Model (FARM) [9]
    Yang, Dan, Heinemann, Stephan G., Cameron, Robert H. & Gizon, Laurent, Solar Physics, 299, 161

2023

  1. Observationally Guided Models for the Solar Dynamo and the Role of the Surface Field [23]
    Cameron, Robert H. & Schüssler, Manfred, Space Science Reviews, 219, 60

2022

  1. Toroidal Flux Loss due to Flux Emergence Explains why Solar Cycles Rise Differently but Decay in a Similar Way [24]
    Biswas, Akash, Karak, Bidya Binay & Cameron, Robert, Physical Review Letters, 129, 241102
  2. Faculae Cancel out on the Surfaces of Active Suns [17]
    Nèmec, N.-E., Shapiro, A. I., Ișık, E., Sowmya, K., Solanki, S. K., Krivova, N. A., Cameron, R. H. & Gizon, L., ApJ, 934, L23
  3. Can 1D Radiative-equilibrium Models of Faculae Be Used for Calculating Contamination of Transmission Spectra? [23]
    Witzke, Veronika, Shapiro, Alexander I., Kostogryz, Nadiia M., Cameron, Robert, Rackham, Benjamin V., Seager, Sara, Solanki, Sami K. & Unruh, Yvonne C., ApJ, 941, L35

2021

  1. Nonequilibrium Equation of State in Stellar Atmospheres [2]
    Anusha, L. S., van Noort, M. & Cameron, R. H., ApJ, 911, 71
  2. Sunspot Simulations: Penumbra Formation and the Fluting Instability [14]
    Panja, Mayukh, Cameron, Robert H. & Solanki, Sami K., ApJ, 907, 102

2020

  1. 3D Radiative MHD Simulations of Starspots [36]
    Panja, Mayukh, Cameron, Robert & Solanki, Sami K., ApJ, 893, 113
  2. Simulations Show that Vortex Flows Could Heat the Chromosphere in Solar Plage [47]
    Yadav, Nitin, Cameron, R. H. & Solanki, S. K., ApJ, 894, L17

2019

  1. Solar activity: periodicities beyond 11 years are consistent with random forcing [36]
    Cameron, R. H. & Schüssler, M., A&A, 625, A28
  2. Starspot rotation rates versus activity cycle phase: Butterfly diagrams of Kepler stars are unlike that of the Sun [18]
    Nielsen, M. B., Gizon, L., Cameron, R. H. & Miesch, M., A&A, 622, A85
  3. Average motion of emerging solar active region polarities. I. Two phases of emergence [22]
    Schunker, H., Birch, A. C., Cameron, R. H., Braun, D. C., Gizon, L. & Burston, R. B., A&A, 625, A53

2018

  1. Chromospheric activity catalogue of 4454 cool stars. Questioning the active branch of stellar activity cycles [229]
    Boro Saikia, S., Marvin, C. J., Jeffers, S. V., Reiners, A., Cameron, R., Marsden, S. C., Petit, P., Warnecke, J. & Yadav, A. P., A&A, 616, A108
  2. Observing and modeling the poloidal and toroidal fields of the solar dynamo [29]
    Cameron, R. H., Duvall, T. L., Schüssler, M. & Schunker, H., A&A, 609, A56
  3. Origin of the hemispheric asymmetry of solar activity [59]
    Schüssler, M. & Cameron, R. H., A&A, 618, A89

2017

  1. The Global Solar Dynamo [79]
    Cameron, R. H., Dikpati, M. & Brandenburg, A., Space Science Reviews, 210, 367
  2. Understanding Solar Cycle Variability [58]
    Cameron, R. H. & Schüssler, M., ApJ, 843, 111
  3. An update of Leighton's solar dynamo model [32]
    Cameron, R. H. & Schüssler, M., A&A, 599, A52
  4. Kinematics of Magnetic Bright Features in the Solar Photosphere [16]
    Jafarzadeh, S., Solanki, S. K., Cameron, R. H., Barthol, P., Blanco Rodríguez, J., del Toro Iniesta, J. C., Gandorfer, A., Gizon, L., Hirzberger, J., Knölker, M., Martínez Pillet, V., Orozco Suárez, D., Riethmüller, T. L., Schmidt, W. & van Noort, M., ApJS, 229, 8
  5. High-frequency Oscillations in Small Magnetic Elements Observed with Sunrise/SuFI [42]
    Jafarzadeh, S., Solanki, S. K., Stangalini, M., Steiner, O., Cameron, R. H. & Danilovic, S., ApJS, 229, 10
  6. Inflows towards active regions and the modulation of the solar cycle: A parameter study [24]
    Martin-Belda, D. & Cameron, R. H., A&A, 597, A21
  7. Evolution of the Sun's non-axisymmetric toroidal field [2]
    Martin-Belda, D. & Cameron, R. H., A&A, 603, A53
  8. Evidence for photometric activity cycles in 3203 Kepler stars [68]
    Reinhold, Timo, Cameron, Robert H. & Gizon, Laurent, A&A, 603, A52
  9. The nature of solar brightness variations [69]
    Shapiro, A. I., Solanki, S. K., Krivova, N. A., Cameron, R. H., Yeo, K. L. & Schmutz, W. K., Nature Astronomy, 1, 612

2016

  1. MESA meets MURaM. Surface effects in main-sequence solar-like oscillators computed using three-dimensional radiation hydrodynamics simulations [54]
    Ball, W. H., Beeck, B., Cameron, R. H. & Gizon, L., A&A, 592, A159
  2. A low upper limit on the subsurface rise speed of solar active regions [41]
    Birch, A. C., Schunker, H., Braun, D. C., Cameron, R., Gizon, L., Lo ptien, B. & Rempel, M., Science Advances, 2, e1600557
  3. A solar-like magnetic cycle on the mature K-dwarf 61 Cygni A (HD 201091) [88]
    Boro Saikia, S., Jeffers, S. V., Morin, J., Petit, P., Folsom, C. P., Marsden, S. C., Donati, J.-F., Cameron, R., Hall, J. C., Perdelwitz, V., Reiners, A. & Vidotto, A. A., A&A, 594, A29
  4. Solar Cycle 25: Another Moderate Cycle? [85]
    Cameron, R. H., Jiang, J. & Schüssler, M., ApJ, 823, L22
  5. The turbulent diffusion of toroidal magnetic flux as inferred from properties of the sunspot butterfly diagram [44]
    Cameron, R. H. & Schüssler, M., A&A, 591, A46
  6. Observed and simulated power spectra of kinetic and magnetic energy retrieved with 2D inversions [26]
    Danilovic, S., Rempel, M., van Noort, M. & Cameron, R., A&A, 594, A103
  7. Babcock-Leighton Solar Dynamo: The Role of Downward Pumping and the Equatorward Propagation of Activity [59]
    Karak, Bidya Binay & Cameron, Robert, ApJ, 832, 94
  8. Surface flux transport simulations: Effect of inflows toward active regions and random velocities on the evolution of the Sun's large-scale magnetic field [21]
    Martin-Belda, D. & Cameron, R. H., A&A, 586, A73

2015

  1. Three-dimensional simulations of near-surface convection in main-sequence stars. IV. Effect of small-scale magnetic flux concentrations on centre-to-limb variation and spectral lines [32]
    Beeck, B., Schüssler, M., Cameron, R. H. & Reiners, A., A&A, 581, A43
  2. Three-dimensional simulations of near-surface convection in main-sequence stars. III. The structure of small-scale magnetic flux concentrations [63]
    Beeck, B., Schüssler, M., Cameron, R. H. & Reiners, A., A&A, 581, A42
  3. The crucial role of surface magnetic fields for the solar dynamo [155]
    Cameron, Robert & Schüssler, Manfred, Science, 347, 1333
  4. Simulated magnetic flows in the solar photosphere [14]
    Danilovic, S., Cameron, R. H. & Solanki, S. K., A&A, 574, A28
  5. The Cause of the Weak Solar Cycle 24 [99]
    Jiang, J., Cameron, R. H. & Schüssler, M., ApJ, 808, L28
  6. Limitations of force-free magnetic field extrapolations: Revisiting basic assumptions [33]
    Peter, H., Warnecke, J., Chitta, L. P. & Cameron, R. H., A&A, 584, A68

2014

  1. Physical causes of solar cycle amplitude variability [23]
    Cameron, R. H., Jiang, J., Schüssler, M. & Gizon, L., Journal of Geophysical Research (Space Physics), 119, 680
  2. Migration of Ca II H bright points in the internetwork [41]
    Jafarzadeh, S., Cameron, R. H., Solanki, S. K., Pietarila, A., Feller, A., Lagg, A. & Gandorfer, A., A&A, 563, A101
  3. Magnetic Flux Transport at the Solar Surface [143]
    Jiang, J., Hathaway, D. H., Cameron, R. H., Solanki, S. K., Gizon, L. & Upton, L., Space Science Reviews, 186, 491
  4. Effects of the Scatter in Sunspot Group Tilt Angles on the Large-scale Magnetic Field at the Solar Surface [128]
    Jiang, J., Cameron, R. H. & Schüssler, M., ApJ, 791, 5
  5. The Role of Subsurface Flows in Solar Surface Convection: Modeling the Spectrum of Supergranular and Larger Scale Flows [59]
    Lord, J. W., Cameron, R. H., Rast, M. P., Rempel, M. & Roudier, T., ApJ, 793, 24
  6. Interpreting the Helioseismic and Magnetic Imager (HMI) Multi-Height Velocity Measurements [27]
    Nagashima, Kaori, Löptien, Björn, Gizon, Laurent, Birch, Aaron C., Cameron, Robert, Couvidat, Sebastien, Danilovic, Sanja, Fleck, Bernhard & Stein, Robert, Solar Physics, 289, 3457

2013

  1. Three-dimensional simulations of near-surface convection in main-sequence stars. II. Properties of granulation and spectral lines [69]
    Beeck, B., Cameron, R. H., Reiners, A. & Schüssler, M., A&A, 558, A49
  2. Three-dimensional simulations of near-surface convection in main-sequence stars. I. Overall structure [70]
    Beeck, B., Cameron, R. H., Reiners, A. & Schüssler, M., A&A, 558, A48
  3. No evidence for planetary influence on solar activity [24]
    Cameron, R. H. & Schüssler, M., A&A, 557, A83
  4. Limits to solar cycle predictability: Cross-equatorial flux plumes [72]
    Cameron, R. H., Dasi-Espuig, M., Jiang, J., Ișık, E., Schmitt, D. & Schüssler, M., A&A, 557, A141
  5. On the relation between continuum brightness and magnetic field in solar active regions [18]
    Danilovic, S., Röhrbein, D., Cameron, R. H. & Schüssler, M., A&A, 550, A118
  6. Modeling solar cycles 15 to 21 using a flux transport dynamo [62]
    Jiang, J., Cameron, R. H., Schmitt, D. & Ișık, E., A&A, 553, A128
  7. Can Surface Flux Transport Account for the Weak Polar Field in Cycle 23? [30]
    Jiang, Jie, Cameron, Robert H., Schmitt, Dieter & Schüssler, Manfred, Space Science Reviews, 176, 289
  8. Helioseismology of sunspots: how sensitive are travel times to the Wilson depression and to the subsurface magnetic field? [28]
    Schunker, H., Gizon, L., Cameron, R. H. & Birch, A. C., A&A, 558, A130
  9. First evidence of interaction between longitudinal and transverse waves in solar magnetic elements [30]
    Stangalini, M., Solanki, S. K., Cameron, R. & Martínez Pillet, V., A&A, 554, A115
  10. MHD simulation of the inner-heliospheric magnetic field [22]
    Wiengarten, T., Kleimann, J., Fichtner, H., Cameron, R., Jiang, J., Kissmann, R. & Scherer, K., Journal of Geophysical Research (Space Physics), 118, 29
  11. Polar plumes' orientation and the Sun's global magnetic field [5]
    de Patoul, Judith, Inhester, Bernd & Cameron, Robert, A&A, 558, L4

2012

  1. Simulations of the solar near-surface layers with the CO5BOLD, MURaM, and Stagger codes [107]
    Beeck, B., Collet, R., Steffen, M., Asplund, M., Cameron, R. H., Freytag, B., Hayek, W., Ludwig, H.-G. & Schüssler, M., A&A, 539, A121
  2. Waves as the Source of Apparent Twisting Motions in Sunspot Penumbrae [12]
    Bharti, L., Cameron, R. H., Rempel, M., Hirzberger, J. & Solanki, S. K., ApJ, 752, 128
  3. Are the strengths of solar cycles determined by converging flows towards the activity belts? [72]
    Cameron, R. H. & Schüssler, M., A&A, 548, A57
  4. Surface flux evolution constraints for flux transport dynamos [51]
    Cameron, R. H., Schmitt, D., Jiang, J. & Ișık, E., A&A, 542, A127
  5. Magnetohydrodynamics of the Weakly Ionized Solar Photosphere [56]
    Cheung, Mark C. M. & Cameron, Robert H., ApJ, 750, 6
  6. Break up of returning plasma after the 7 June 2011 filament eruption by Rayleigh-Taylor instabilities [55]
    Innes, D. E., Cameron, R. H., Fletcher, L., Inhester, B. & Solanki, S. K., A&A, 540, L10
  7. Vortices, shocks, and heating in the solar photosphere: effect of a magnetic field [70]
    Moll, R., Cameron, R. H. & Schüssler, M., A&A, 541, A68

2011

  1. Decay of a simulated mixed-polarity magnetic field in the solar surface layers [39]
    Cameron, R., Vögler, A. & Schüssler, M., A&A, 533, A86
  2. Constructing Semi-Empirical Sunspot Models for Helioseismology [40]
    Cameron, R. H., Gizon, L., Schunker, H. & Pietarila, A., Solar Physics, 268, 293
  3. 3D Numerical Simulations of f-Mode Propagation Through Magnetic Flux Tubes [11]
    Daiffallah, K., Abdelatif, T., Bendib, A., Cameron, R. & Gizon, L., Solar Physics, 268, 309
  4. EUV jets, type III radio bursts and sunspot waves investigated using SDO/AIA observations [42]
    Innes, D. E., Cameron, R. H. & Solanki, S. K., A&A, 531, L13
  5. The solar magnetic field since 1700. I. Characteristics of sunspot group emergence and reconstruction of the butterfly diagram [114]
    Jiang, J., Cameron, R. H., Schmitt, D. & Schüssler, M., A&A, 528, A82
  6. The solar magnetic field since 1700. II. Physical reconstruction of total, polar and open flux [63]
    Jiang, J., Cameron, R. H., Schmitt, D. & Schüssler, M., A&A, 528, A83
  7. Vortices in simulations of solar surface convection [79]
    Moll, R., Cameron, R. H. & Schüssler, M., A&A, 533, A126
  8. Universality of the Small-scale Dynamo Mechanism [41]
    Moll, R., Pietarila Graham, J., Pratt, J., Cameron, R. H., Müller, W.-C. & Schüssler, M., ApJ, 736, 36
  9. Transport of Magnetic Flux from the Canopy to the Internetwork [11]
    Pietarila, A., Cameron, R. H., Danilovic, S. & Solanki, S. K., ApJ, 729, 136
  10. Is there a non-monotonic relation between photospheric brightness and magnetic field strength in solar plage regions? [21]
    Röhrbein, D., Cameron, R. & Schüssler, M., A&A, 532, A140
  11. Constructing and Characterising Solar Structure Models for Computational Helioseismology [25]
    Schunker, H., Cameron, R. H., Gizon, L. & Moradi, H., Solar Physics, 271, 1

2010

  1. Changes of the Solar Meridional Velocity Profile During Cycle 23 Explained by Flows Toward the Activity Belts [42]
    Cameron, R. H. & Schüssler, M., ApJ, 720, 1030
  2. Surface Flux Transport Modeling for Solar Cycles 15-21: Effects of Cycle-Dependent Tilt Angles of Sunspot Groups [141]
    Cameron, R. H., Jiang, J., Schmitt, D. & Schüssler, M., ApJ, 719, 264
  3. Sunspot group tilt angles and the strength of the solar cycle [215]
    Dasi-Espuig, M., Solanki, S. K., Krivova, N. A., Cameron, R. & Peñuela, T., A&A, 518, A7
  4. Modeling the Sun's Open Magnetic Flux and the Heliospheric Current Sheet [50]
    Jiang, J., Cameron, R., Schmitt, D. & Schüssler, M., ApJ, 709, 301
  5. The Effect of Activity-related Meridional Flow Modulation on the Strength of the Solar Polar Magnetic Field [74]
    Jiang, J., Ișik, E., Cameron, R. H., Schmitt, D. & Schüssler, M., ApJ, 717, 597
  6. Mesogranular structure in a hydrodynamical simulation [18]
    Matloch, Ł., Cameron, R., Shelyag, S., Schmitt, D. & Schüssler, M., A&A, 519, A52
  7. Modeling the Subsurface Structure of Sunspots [101]
    Moradi, H., Baldner, C., Birch, A. C., Braun, D. C., Cameron, R. H., Duvall, T. L., Gizon, L., Haber, D., Hanasoge, S. M., Hindman, B. W., Jackiewicz, J., Khomenko, E., Komm, R., Rajaguru, P., Rempel, M., Roth, M., Schlichenmaier, R., Schunker, H., Spruit, H. C., Strassmeier, K. G., Thompson, M. J. & Zharkov, S., Solar Physics, 267, 1
  8. Turbulent Small-Scale Dynamo Action in Solar Surface Simulations [104]
    Pietarila Graham, Jonathan, Cameron, Robert & Schüssler, Manfred, ApJ, 714, 1606
  9. Expansion of magnetic flux concentrations: a comparison of Hinode SOT data and models [17]
    Pietarila, A., Cameron, R. & Solanki, S. K., A&A, 518, A50
  10. Saturation and time dependence of geodynamo models [18]
    Schrinner, M., Schmitt, D., Cameron, R. & Hoyng, P., Geophysical Journal International, 182, 675

2009

  1. Surface-Focused Seismic Holography of Sunspots: II. Expectations from Numerical Simulations Using Sound-Speed Perturbations [23]
    Birch, A. C., Braun, D. C., Hanasoge, S. M. & Cameron, R., Solar Physics, 254, 17
  2. Solar surface magnetoconvection simulations: A brief review of solar dermatology [2]
    Cameron, Robert, Science in China: Physics, Mechanics and Astronomy, 52, 1665
  3. Helioseismology of Sunspots: A Case Study of NOAA Region 9787 [111]
    Gizon, L., Schunker, H., Baldner, C. S., Basu, S., Birch, A. C., Bogart, R. S., Braun, D. C., Cameron, R., Duvall, T. L., Hanasoge, S. M., Jackiewicz, J., Roth, M., Stahn, T., Thompson, M. J. & Zharkov, S., Space Science Reviews, 144, 249
  4. Countercell Meridional Flow and Latitudinal Distribution of the Solar Polar Magnetic Field [28]
    Jiang, J., Cameron, R., Schmitt, D. & Schüssler, M., ApJ, 693, L96
  5. Modelling of solar mesogranulation [13]
    Matloch, L., Cameron, R., Schmitt, D. & Schüssler, M., A&A, 504, 1041
  6. Penumbral Structure and Outflows in Simulated Sunspots [187]
    Rempel, M., Schüssler, M., Cameron, R. H. & Knölker, M., Science, 325, 171

2008

  1. Helioseismology of Sunspots: Confronting Observations with Three-Dimensional MHD Simulations of Wave Propagation [92]
    Cameron, R., Gizon, L. & Duvall, T. L., Jr., Solar Physics, 251, 291
  2. A Robust Correlation between Growth Rate and Amplitude of Solar Cycles: Consequences for Prediction Methods [60]
    Cameron, R. & Schüssler, M., ApJ, 685, 1291

2007

  1. Solar Cycle Prediction Using Precursors and Flux Transport Models [144]
    Cameron, R. & Schüssler, M., ApJ, 659, 801
  2. SLiM: a code for the simulation of wave propagation through an inhomogeneous, magnetised solar atmosphere [36]
    Cameron, R., Gizon, L. & Daiffallah, K., Astronomische Nachrichten, 328, 313
  3. Radiative magnetohydrodynamic simulations of solar pores [59]
    Cameron, R., Schüssler, M., Vögler, A. & Zakharov, V., A&A, 474, 261

2006

  1. High field strength modified ABC and rotor dynamos [6]
    Cameron, Robert & Galloway, David, MNRAS, 367, 1163
  2. Saturation properties of the Archontis dynamo [18]
    Cameron, Robert & Galloway, David, MNRAS, 365, 735

2005

  1. The structure of small-scale magnetic flux tubes [11]
    Cameron, Robert & Galloway, David, MNRAS, 358, 1025

2004

  1. Distribution of Faraday Rotation Measure in Jets from Active Galactic Nuclei. II. Prediction from Our Sweeping Magnetic Twist Model for the Wiggled Parts of Active Galactic Nucleus Jets and Tails [11]
    Kigure, Hiromitsu, Uchida, Yutaka, Nakamura, Masanori, Hirose, Shigenobu & Cameron, Robert, ApJ, 608, 119
  2. Distribution of Faraday Rotation Measure in Jets from Active Galactic Nuclei. I. Predictions from our Sweeping Magnetic Twist Model [9]
    Uchida, Yutaka, Kigure, Hiromitsu, Hirose, Shigenobu, Nakamura, Masanori & Cameron, Robert, ApJ, 600, 88

2002

  1. Properties of the quiet-Sun magnetic fields as revealed by the spectrovideomagnetograph [2]
    Zirin, H. & Cameron, R., Nuovo Cimento C Geophysics Space Physics C, 025, 557

2001

  1. Investigation of Coronal Mass Ejections I. Loop-type with Arcade Flare between the Fixed Legs, and Bubble-type Due to Flare Blast Waves [6]
    Uchida, Y., Tanaka, T., Hata, M. & Cameron, R., Publications of the Astronomical Society of Australia, 18, 345

1999

  1. Tangential Field Changes in the Great Flare of 1990 May 24 [48]
    Cameron, Robert & Sammis, Ian, ApJ, 525, L61

1998

  1. A new estimate of the solar meridional flow [22]
    Cameron, R. & Hopkins, A., Solar Physics, 183, 263

Created on Wed Apr 22 04:33:36 2026.