Publications

 


 

Refereed Publications

2017

[6] M. Battarbee, S. Dalla, and M. S. Marsh.
Solar Energetic Particle Transport Near a Heliospheric Current
Sheet.
ApJ, 836:138, February 2017.
[ DOI | arXiv | ADS ]
[5] S. Dalla, M. S. Marsh, and M. Battarbee.
Solar Energetic Particle Drifts and the Energy Dependence of 1 AU
Charge States.
ApJ, 834:167, January 2017.
[ DOI | arXiv | ADS ]
[4] S. Dalla, M. S. Marsh, P. Zelina, and T. Laitinen.
Time dependence of Fe/O ratio within a 3D solar energetic particle
propagation model including drift.
A&A, 598:A73, February 2017.
[ DOI | arXiv | ADS ]
[3] M. H. Jones, D. Bewsher, and D. S. Brown.
Mapping the circumsolar dust ring near the orbit of Venus.
Icarus, 288:172–185, May 2017.
[ DOI | ADS ]
[2] T. Laitinen and S. Dalla.
Energetic Particle Transport across the Mean Magnetic Field: Before
Diffusion.
ApJ, 834:127, January 2017.
[ DOI | arXiv | ADS ]
[1] P. Zelina, S. Dalla, C. M. S. Cohen, and R. A. Mewaldt.
Time Evolution of Elemental Ratios in Solar Energetic Particle
Events.
ApJ, 835:71, January 2017.
[ DOI | arXiv | ADS ]

2016

[18] M. Aguilar, L. Ali Cavasonza, B. Alpat, G. Ambrosi, L. Arruda,
N. Attig, S. Aupetit, P. Azzarello, A. Bachlechner, F. Barao, and
et al.
Antiproton Flux, Antiproton-to-Proton Flux Ratio, and Properties of
Elementary Particle Fluxes in Primary Cosmic Rays Measured with the Alpha
Magnetic Spectrometer on the International Space Station.
Physical Review Letters, 117(9):091103, August 2016.
[ DOI | ADS ]
[17] M. Aguilar, L. Ali Cavasonza, G. Ambrosi, L. Arruda, N. Attig,
S. Aupetit, P. Azzarello, A. Bachlechner, F. Barao, A. Barrau, and
et al.
Precision Measurement of the Boron to Carbon Flux Ratio in Cosmic
Rays from 1.9 GV to 2.6 TV with the Alpha Magnetic Spectrometer on the
International Space Station.
Physical Review Letters, 117(23):231102, December 2016.
[ DOI | ADS ]
[16] M. J. Birch and J. K. Hargreaves.
THEMIS observations and riometry: A data comparison with a view to
proxy and prediction.
Journal of Atmospheric and Solar-Terrestrial Physics,
137:66–75, January 2016.
[ DOI | ADS ]
[15] D. J. Doran and S. Dalla.
Temporal Evolution of Solar Energetic Particle Spectra.
Sol. Phys., 291:2071–2097, August 2016.
[ DOI | ADS ]
[14] X. Fang, D. Yuan, C. Xia, T. Van Doorsselaere, and R. Keppens.
The Role of Kelvin-Helmholtz Instability for Producing Loop-top Hard
X-Ray Sources in Solar Flares.
ApJ, 833:36, December 2016.
[ DOI | ADS ]
[13] R. Hounsell, M. J. Darnley, M. F. Bode, D. J. Harman, F. Surina,
S. Starrfield, D. L. Holdsworth, D. Bewsher, P. P. Hick, B. V.
Jackson, A. Buffington, J. M. Clover, and A. W. Shafter.
Nova Light Curves From The Solar Mass Ejection Imager (SMEI) – II.
The extended catalog.
ApJ, 820:104, April 2016.
[ DOI | arXiv | ADS ]
[12] F.-R. Jiao, L.-D. Xia, Z.-H. Huang, B. Li, H. Fu, D. Yuan, and
K. Chandrashekhar.
Damping and power spectra of quasi-periodic intensity disturbances
above a solar polar coronal hole.
Research in Astronomy and Astrophysics, 16:93, June 2016.
[ DOI |
arXiv |
ADS ]
[11] T. Laitinen, A. Kopp, F. Effenberger, S. Dalla, and M. S. Marsh.
Solar energetic particle access to distant longitudes through
turbulent field-line meandering.
A&A, 591:A18, June 2016.
[ DOI |
arXiv |
ADS ]
[10] S. Mandal, N. Magyar, D. Yuan, T. Van Doorsselaere, and D. Banerjee.
Forward Modeling of Propagating Slow Waves in Coronal Loops and
Their Frequency-dependent Damping.
ApJ, 820:13, March 2016.
[ DOI |
arXiv |
ADS ]
[9] S. Mandal, D. Yuan, X. Fang, D. Banerjee, V. Pant, and T. Van
Doorsselaere.
Reflection of Propagating Slow Magneto-acoustic Waves in Hot Coronal
Loops: Multi-instrument Observations and Numerical Modeling.
ApJ, 828:72, September 2016.
[ DOI |
arXiv |
ADS ]
[8] V. Pant, R. Mazumder, D. Yuan, D. Banerjee, A. K. Srivastava, and
Y. Shen.
Simultaneous Longitudinal and Transverse Oscillations in an
Active-Region Filament.
Sol. Phys., 291:3303–3315, November 2016.
[ DOI |
arXiv |
ADS ]
[7] T. Van Doorsselaere, P. Antolin, D. Yuan, V. Reznikova, and
N. Magyar.
Forward modelling of optically thin coronal plasma with the FoMo
tool.
Frontiers in Astronomy and Space Sciences, 3:4, February 2016.
[ DOI |
ADS ]
[6] T. Van Doorsselaere, E. G. Kupriyanova, and D. Yuan.
Quasi-periodic Pulsations in Solar and Stellar Flares: An Overview
of Recent Results (Invited Review).
Sol. Phys., 291:3143–3164, November 2016.
[ DOI |
arXiv |
ADS ]
[5] D. Yuan, B. Li, and R. W. Walsh.
Secondary Fast Magnetoacoustic Waves Trapped in Randomly Structured
Plasmas.
ApJ, 828:17, September 2016.
[ DOI |
arXiv |
ADS ]
[4] D. Yuan, J. Su, F. Jiao, and R. W. Walsh.
Stochastic Transients as a Source of Quasi-periodic Processes in the
Solar Atmosphere.
ApJS, 224:30, June 2016.
[ DOI |
arXiv |
ADS ]
[3] D. Yuan and T. Van Doorsselaere.
Forward Modeling of Standing Kink Modes in Coronal Loops. I.
Synthetic Views.
ApJS, 223:23, April 2016.
[ DOI |
arXiv |
ADS ]
[2] D. Yuan and T. Van Doorsselaere.
Forward Modeling of Standing Kink Modes in Coronal Loops. II.
Applications.
ApJS, 223:24, April 2016.
[ DOI |
arXiv |
ADS ]
[1] D. Yuan and R. W. Walsh.
Abnormal oscillation modes in a waning light bridge.
A&A, 594:A101, October 2016.
[ DOI |
arXiv |
ADS ]

2015

[12] A. Afanasiev, M. Battarbee, and R. Vainio.
Self-consistent Monte Carlo simulations of proton acceleration in
coronal shocks: Effect of anisotropic pitch-angle scattering of particles.
A&A, 584:A81, December 2015.
[ DOI |
arXiv |
ADS ]
[11] M. Aguilar, D. Aisa, B. Alpat, A. Alvino, G. Ambrosi, K. Andeen,
L. Arruda, N. Attig, P. Azzarello, A. Bachlechner, and et al.
Precision Measurement of the Helium Flux in Primary Cosmic Rays of
Rigidities 1.9 GV to 3 TV with the Alpha Magnetic Spectrometer on the
International Space Station.
Physical Review Letters, 115(21):211101, November 2015.
[ DOI |
ADS ]
[10] M. Aguilar, D. Aisa, B. Alpat, A. Alvino, G. Ambrosi, K. Andeen,
L. Arruda, N. Attig, P. Azzarello, A. Bachlechner, and et al.
Precision Measurement of the Proton Flux in Primary Cosmic Rays from
Rigidity 1 GV to 1.8 TV with the Alpha Magnetic Spectrometer on the
International Space Station.
Physical Review Letters, 114(17):171103, May 2015.
[ DOI |
ADS ]
[9] S. Dalla, M. S. Marsh, and T. Laitinen.
Drift-induced Deceleration of Solar Energetic Particles.
ApJ, 808:62, July 2015.
[ DOI |
arXiv |
ADS ]
[8] M. Dierckxsens, K. Tziotziou, S. Dalla, I. Patsou, M. S. Marsh, N. B.
Crosby, O. Malandraki, and G. Tsiropoula.
Relationship between Solar Energetic Particles and Properties of
Flares and CMEs: Statistical Analysis of Solar Cycle 23 Events.
Sol. Phys., 290:841–874, March 2015.
[ DOI |
arXiv |
ADS ]
[7] X. Fang, D. Yuan, T. Van Doorsselaere, R. Keppens, and C. Xia.
Modeling of Reflective Propagating Slow-mode Wave in a Flaring
Loop.
ApJ, 813:33, November 2015.
[ DOI |
arXiv |
ADS ]
[6] L. Kocharov, T. Laitinen, R. Vainio, A. Afanasiev, K. Mursula, and
J. M. Ryan.
Solar Interacting Protons Versus Interplanetary Protons in the Core
Plus Halo Model of Diffusive Shock Acceleration and Stochastic
Re-acceleration.
ApJ, 806:80, June 2015.
[ DOI |
ADS ]
[5] T. Laitinen, K. Huttunen-Heikinmaa, E. Valtonen, and S. Dalla.
Correcting for Interplanetary Scattering in Velocity Dispersion
analysis of Solar Energetic Particles.
ApJ, 806:114, June 2015.
[ DOI |
arXiv |
ADS ]
[4] M. S. Marsh, S. Dalla, M. Dierckxsens, T. Laitinen, and N. B. Crosby.
SPARX: A modeling system for Solar Energetic Particle Radiation
Space Weather forecasting.
Space Weather, 13:386–394, June 2015.
[ DOI |
arXiv |
ADS ]
[3] D. Yuan.
Signature of high-order azimuthal MHD body modes in sunspot’s low
atmosphere.
Research in Astronomy and Astrophysics, 15:1449, September
2015.
[ DOI |
ADS ]
[2] D. Yuan, D. J. Pascoe, V. M. Nakariakov, B. Li, and R. Keppens.
Evolution of Fast Magnetoacoustic Pulses in Randomly Structured
Coronal Plasmas.
ApJ, 799:221, February 2015.
[ DOI |
arXiv |
ADS ]
[1] D. Yuan, T. Van Doorsselaere, D. Banerjee, and P. Antolin.
Forward Modeling of Standing Slow Modes in Flaring Coronal Loops.
ApJ, 807:98, July 2015.
[ DOI |
arXiv |
ADS ]

2014

[12] L. Accardo, M. Aguilar, D. Aisa, A. Alvino, G. Ambrosi, K. Andeen,
L. Arruda, N. Attig, P. Azzarello, A. Bachlechner, and et al.
High Statistics Measurement of the Positron Fraction in Primary
Cosmic Rays of 0.5-500 GeV with the Alpha Magnetic Spectrometer on the
International Space Station.
Physical Review Letters, 113(12):121101, September 2014.
[ DOI |
ADS ]
[11] M. Aguilar, D. Aisa, B. Alpat, A. Alvino, G. Ambrosi, K. Andeen,
L. Arruda, N. Attig, P. Azzarello, A. Bachlechner, and et al.
Precision Measurement of the (e++e) Flux in Primary
Cosmic Rays from 0.5 GeV to 1 TeV with the Alpha Magnetic Spectrometer on the
International Space Station.
Physical Review Letters, 113(22):221102, November 2014.
[ DOI |
ADS ]
[10] M. Aguilar, D. Aisa, A. Alvino, G. Ambrosi, K. Andeen, L. Arruda,
N. Attig, P. Azzarello, A. Bachlechner, F. Barao, and et al.
Electron and Positron Fluxes in Primary Cosmic Rays Measured with
the Alpha Magnetic Spectrometer on the International Space Station.
Physical Review Letters, 113(12):121102, September 2014.
[ DOI |
ADS ]
[9] J. K. Hargreaves, M. J. Birch, and D. S. Evans.
Variability and spatial fine structure of precipitating and trapped
medium-energy electron fluxes in the noon sector.
Journal of Geophysical Research (Space Physics),
119:1102–1120, February 2014.
[ DOI |
ADS ]
[8] D. L. Holdsworth, M. T. Rushton, D. Bewsher, F. M. Walter, S. P. S.
Eyres, R. Hounsell, and M. J. Darnley.
STEREO/HI and optical observations of the classical nova V5583
Sagittarii.
MNRAS, 438:3483–3489, March 2014.
[ DOI |
arXiv |
ADS ]
[7] K. Kobayashi, J. Cirtain, A. R. Winebarger, K. Korreck, L. Golub,
R. W. Walsh, B. De Pontieu, C. DeForest, A. Title, S. Kuzin,
S. Savage, D. Beabout, B. Beabout, W. Podgorski, D. Caldwell,
K. McCracken, M. Ordway, H. Bergner, R. Gates, S. McKillop,
P. Cheimets, S. Platt, N. Mitchell, and D. Windt.
The High-Resolution Coronal Imager (Hi-C).
Sol. Phys., 289:4393–4412, November 2014.
[ DOI |
ADS ]
[6] L. Kocharov, T. Laitinen, I. Usoskin, and R. Vainio.
Transmission and Emission of Solar Energetic Particles in
Semi-transparent Shocks.
ApJ, 787:L21, June 2014.
[ DOI |
ADS ]
[5] S. Régnier, C. E. Alexander, R. W. Walsh, A. R. Winebarger,
J. Cirtain, L. Golub, K. E. Korreck, N. Mitchell, S. Platt,
M. Weber, B. De Pontieu, A. Title, K. Kobayashi, S. Kuzin, and
C. E. DeForest.
Sparkling Extreme-ultraviolet Bright Dots Observed with Hi-C.
ApJ, 784:134, April 2014.
[ DOI |
arXiv |
ADS ]
[4] R. Vainio, A. Pönni, M. Battarbee, H. E. J. Koskinen,
A. Afanasiev, and T. Laitinen.
A semi-analytical foreshock model for energetic storm particle
events inside 1 AU.
Journal of Space Weather and Space Climate, 4(27):A08, February
2014.
[ DOI |
ADS ]
[3] Y. Wang, G. Qin, M. Zhang, and S. Dalla.
A Numerical Simulation of Solar Energetic Particle Dropouts during
Impulsive Events.
ApJ, 789:157, July 2014.
[ DOI |
arXiv |
ADS ]
[2] D. Yuan, V. M. Nakariakov, Z. Huang, B. Li, J. Su, Y. Yan, and
B. Tan.
Oscillations in a Sunspot with Light Bridges.
ApJ, 792:41, September 2014.
[ DOI |
arXiv |
ADS ]
[1] D. Yuan, R. Sych, V. E. Reznikova, and V. M. Nakariakov.
Multi-height observations of magnetoacoustic cut-off frequency in a
sunspot atmosphere.
A&A, 561:A19, January 2014.
[ DOI |
arXiv |
ADS ]

2013

[21] N. Agueda, R. Vainio, S. Dalla, D. Lario, and B. Sanahuja.
Current Sheet Regulation of Solar Near-relativistic Electron
Injection Histories.
ApJ, 765:83, March 2013.
[ DOI |
ADS ]
[20] C. E. Alexander, R. W. Walsh, S. Régnier, J. Cirtain, A. R.
Winebarger, L. Golub, K. Kobayashi, S. Platt, N. Mitchell,
K. Korreck, B. DePontieu, C. DeForest, M. Weber, A. Title, and
S. Kuzin.
Anti-parallel EUV Flows Observed along Active Region Filament
Threads with Hi-C.
ApJ, 775:L32, September 2013.
[ DOI |
arXiv |
ADS ]
[19] M. Battarbee, R. Vainio, T. Laitinen, and H. Hietala.
Injection of thermal and suprathermal seed particles into coronal
shocks of varying obliquity.
A&A, 558:A110, October 2013.
[ DOI |
arXiv |
ADS ]
[18] A. BenMoussa, S. Gissot, U. Schühle, G. Del Zanna,
F. Auchère, S. Mekaoui, A. R. Jones, D. Walton, C. J. Eyles,
G. Thuillier, D. Seaton, I. E. Dammasch, G. Cessateur, M. Meftah,
V. Andretta, D. Berghmans, D. Bewsher, D. Bolsée, L. Bradley,
D. S. Brown, P. C. Chamberlin, S. Dewitte, L. V. Didkovsky,
M. Dominique, F. G. Eparvier, T. Foujols, D. Gillotay,
B. Giordanengo, J. P. Halain, R. A. Hock, A. Irbah, C. Jeppesen,
D. L. Judge, M. Kretzschmar, D. R. McMullin, B. Nicula, W. Schmutz,
G. Ucker, S. Wieman, D. Woodraska, and T. N. Woods.
On-Orbit Degradation of Solar Instruments.
Sol. Phys., 288:389–434, November 2013.
[ DOI |
arXiv |
ADS ]
[17] M. J. Birch, J. K. Hargreaves, and B. J. I. Bromage.
Properties of auroral radio absorption patches observed in the
morning sector using imaging riometer and incoherent-scatter radar.
Journal of Atmospheric and Solar-Terrestrial Physics,
105:262–272, December 2013.
[ DOI |
ADS ]
[16] J. W. Cirtain, L. Golub, A. R. Winebarger, B. de Pontieu,
K. Kobayashi, R. L. Moore, R. W. Walsh, K. E. Korreck, M. Weber,
P. McCauley, A. Title, S. Kuzin, and C. E. Deforest.
Energy release in the solar corona from spatially resolved magnetic
braids.
Nature, 493:501–503, January 2013.
[ DOI |
ADS ]
[15] S. Dalla, M. S. Marsh, J. Kelly, and T. Laitinen.
Solar energetic particle drifts in the Parker spiral.
Journal of Geophysical Research (Space Physics),
118:5979–5985, October 2013.
[ DOI |
arXiv |
ADS ]
[14] M. H. Jones, D. Bewsher, and D. S. Brown.
Imaging of a Circumsolar Dust Ring Near the Orbit of Venus.
Science, 342:960–963, November 2013.
[ DOI |
ADS ]
[13] L. Kocharov, T. Laitinen, and R. Vainio.
The Effect of Turbulence Intermittence on the Emission of Solar
Energetic Particles by Coronal and Interplanetary Shocks.
ApJ, 778:L5, November 2013.
[ DOI |
ADS ]
[12] T. Laitinen, S. Dalla, J. Kelly, and M. Marsh.
Energetic Particle Diffusion in Critically Balanced Turbulence.
ApJ, 764:168, February 2013.
[ DOI |
arXiv |
ADS ]
[11] T. Laitinen, S. Dalla, and M. S. Marsh.
Energetic Particle Cross-field Propagation Early in a Solar Event.
ApJ, 773:L29, August 2013.
[ DOI |
arXiv |
ADS ]
[10] S. Lange, F. Spanier, M. Battarbee, R. Vainio, and T. Laitinen.
Particle scattering in turbulent plasmas with amplified wave modes.
A&A, 553:A129, May 2013.
[ DOI |
arXiv |
ADS ]
[9] D. M. Long, D. R. Williams, S. Régnier, and L. K. Harra.
Measuring the Magnetic-Field Strength of the Quiet Solar Corona
Using ”EIT Waves”.
Sol. Phys., July 2013.
[ DOI |
arXiv |
ADS ]
[8] M. S. Marsh, S. Dalla, J. Kelly, and T. Laitinen.
Drift-induced Perpendicular Transport of Solar Energetic Particles.
ApJ, 774:4, September 2013.
[ DOI |
arXiv |
ADS ]
[7] E. Paunzen, K. T. Wraight, L. Fossati, M. Netopil, G. J. White, and
D. Bewsher.
A photometric study of chemically peculiar stars with the STEREO
satellites – II. Non-magnetic chemically peculiar stars.
MNRAS, 429:119–125, February 2013.
[ DOI |
arXiv |
ADS ]
[6] G. Qin, Y. Wang, M. Zhang, and S. Dalla.
Transport of Solar Energetic Particles Accelerated by ICME Shocks:
Reproducing the Reservoir Phenomenon.
ApJ, 766:74, April 2013.
[ DOI |
ADS ]
[5] S. Régnier.
Magnetic Field Extrapolations into the Corona: Success and Future
Improvements.
Sol. Phys., August 2013.
[ DOI |
arXiv |
ADS ]
[4] P. Testa, B. De Pontieu, J. Martínez-Sykora, E. DeLuca,
V. Hansteen, J. Cirtain, A. Winebarger, L. Golub, K. Kobayashi,
K. Korreck, S. Kuzin, R. Walsh, C. DeForest, A. Title, and
M. Weber.
Observing Coronal Nanoflares in Active Region Moss.
ApJ, 770:L1, June 2013.
[ DOI |
arXiv |
ADS ]
[3] R. Vainio, E. Valtonen, B. Heber, O. E. Malandraki, A. Papaioannou,
K.-L. Klein, A. Afanasiev, N. Agueda, H. Aurass, M. Battarbee,
S. Braune, W. Dröge, U. Ganse, C. Hamadache, D. Heynderickx,
K. Huttunen-Heikinmaa, J. Kiener, P. Kilian, A. Kopp,
A. Kouloumvakos, S. Maisala, A. Mishev, R. Miteva, A. Nindos,
T. Oittinen, O. Raukunen, E. Riihonen, R. Rodríguez-Gasén,
O. Saloniemi, B. Sanahuja, R. Scherer, F. Spanier, V. Tatischeff,
K. Tziotziou, I. G. Usoskin, and N. Vilmer.
The first SEPServer event catalogue ˜68-MeV solar proton events
observed at 1 AU in 1996-2010.
Journal of Space Weather and Space Climate, 3(27):A12, March
2013.
[ DOI |
ADS ]
[2] A. R. Winebarger, R. W. Walsh, R. Moore, B. De Pontieu, V. Hansteen,
J. Cirtain, L. Golub, K. Kobayashi, K. Korreck, C. DeForest,
M. Weber, A. Title, and S. Kuzin.
Detecting Nanoflare Heating Events in Subarcsecond Inter-moss Loops
Using Hi-C.
ApJ, 771:21, July 2013.
[ DOI |
ADS ]
[1] D. Yuan, Y. Shen, Y. Liu, V. M. Nakariakov, B. Tan, and J. Huang.
Distinct propagating fast wave trains associated with flaring energy
releases.
A&A, 554:A144, June 2013.
[ DOI |
ADS ]

2012

[17] D. Bewsher, D. S. Brown, and C. J. Eyles.
Long-Term Evolution of the Photometric Calibration of the STEREO
Heliospheric Imagers: I. HI-1.
Sol. Phys., 276:491–499, February 2012.
[ DOI |
ADS ]
[16] C. Boutry, E. Buchlin, J.-C. Vial, and S. Régnier.
Flows at the Edge of an Active Region: Observation and
Interpretation.
ApJ, 752:13, June 2012.
[ DOI |
arXiv |
ADS ]
[15] N. B. Crosby, A. Veronig, E. Robbrecht, B. Vrsnak, S. Vennerstrom,
O. Malandraki, S. Dalla, L. Rodriguez, N. Srivastava, M. Hesse,
D. Odstrcil, and Comesep Consortium.
Forecasting the space weather impact: The COMESEP project.
In Q. Hu, G. Li, G. P. Zank, X. Ao, O. Verkhoglyadova, and
J. H. Adams, editors, American Institute of Physics Conference
Series
, volume 1500 of American Institute of Physics Conference
Series
, pages 159–164, November 2012.
[ DOI |
ADS ]
[14] J. Kelly, S. Dalla, and T. Laitinen.
Cross-field Transport of Solar Energetic Particles in a Large-scale
Fluctuating Magnetic Field.
ApJ, 750:47, May 2012.
[ DOI |
arXiv |
ADS ]
[13] J. Kelly, S. Dalla, and T. Laitinen.
Test-particle simulations of SEP propagation in IMF with large-scale
fluctuations.
In Q. Hu, G. Li, G. P. Zank, X. Ao, O. Verkhoglyadova, and
J. H. Adams, editors, American Institute of Physics Conference
Series
, volume 1500 of American Institute of Physics Conference
Series
, pages 109–114, November 2012.
[ DOI |
ADS ]
[12] T. Laitinen, S. Dalla, and J. Kelly.
Energetic Particle Diffusion in Structured Turbulence.
ApJ, 749:103, April 2012.
[ DOI |
arXiv |
ADS ]
[11] S. A. Matthews, D. R. Williams, K.-L. Klein, E. P. Kontar, D. M.
Smith, A. Lagg, S. Krucker, G. J. Hurford, N. Vilmer, A. L.
MacKinnon, V. V. Zharkova, L. Fletcher, I. G. Hannah, P. K.
Browning, D. E. Innes, G. Trottet, C. Foullon, V. M. Nakariakov,
L. M. Green, H. Lamoureux, C. Forsyth, D. M. Walton,
M. Mathioudakis, A. Gandorfer, V. Martinez-Pillet, O. Limousin,
E. Verwichte, S. Dalla, G. Mann, H. Aurass, and T. Neukirch.
Solar Particle Acceleration Radiation and Kinetics (SPARK). A
mission to understand the nature of particle acceleration.
Experimental Astronomy, 33:237–269, April 2012.
[ DOI |
ADS ]
[10] S. Régnier.
3D Structure of the Outer Atmosphere: Combining Models and
Observations.
In T. Sekii, T. Watanabe, and T. Sakurai, editors,
Astronomical Society of the Pacific Conference Series
, volume 454 of
Astronomical Society of the Pacific Conference Series
, page 355, August
2012.
[ arXiv |
ADS ]
[9] S. Régnier.
Magnetic Energy Storage and Current Density Distributions for
Different Force-Free Models.
Sol. Phys., 277:131–151, March 2012.
[ DOI |
arXiv |
ADS ]
[8] S. Régnier.
Thermal shielding of an emerging active region.
A&A, 544:L10, August 2012.
[ DOI |
arXiv |
ADS ]
[7] A. Stanier, P. Browning, and S. Dalla.
Solar particle acceleration at reconnecting 3D null points.
A&A, 542:A47, June 2012.
[ DOI |
arXiv |
ADS ]
[6] S. Subramanian, M. S. Madjarska, J. G. Doyle, and D. Bewsher.
What is the true nature of blinkers?
A&A, 538:A50, February 2012.
[ DOI |
arXiv |
ADS ]
[5] L. Teriaca, V. Andretta, F. Auchère, C. M. Brown, E. Buchlin,
G. Cauzzi, J. L. Culhane, W. Curdt, J. M. Davila, G. Del Zanna,
G. A. Doschek, S. Fineschi, A. Fludra, P. T. Gallagher, L. Green,
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Last Updated Wed Mar 1 10:27:23 GMT 2017

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Header Image : Simulated Nanoparticle (Marco Pinna, Joe Smerdon), Solar disk with SDO (NASA UClan SDO archive), V838 Monocerotis (NASA/STScl), NGC7424 (Gemini Observatory), M74 (NASA Hubble Space Telescope) NASA,and ESA ; and solar plume courtesy of SOHO /EIT consortium

Author: T Laitinen, Last Updated: 29 April 2016