HELCATS publications,
talks, posters
[Last updated November 2020]
Papers that report on something
that is specifically a HELCATS task or activity, or exploitation of the
facilities provided by the HELCATS project. In addition, papers that report on research
produced by the HELCATS team, where HELCATS support has been acknowledged. Note
that, in addition, many other papers will make use of the HELCATS facilities to
acquire and examine information relevant to STEREO/HI data without reference to
HELCATS and these cannot be listed.
2020 – [12]
CME arrival
prediction using ensemble modeling based on
heliospheric imaging observations
Amerstorfer, T., Hinterreiter, J., Reiss, M.A., Möstl,
C., Davies, J.A.,
Bailey, R.L., Weiss, A.J., Dumbovič,
M., Bauer, M., Amerstorfer, U.V., Harrison, R.A.
2020, Space Weather doi: 10.1029/2020SW002553
Prediction of Dst during solar minimum using In
situ measurements at L5
Bailey, R. L., Möstl, C., Reiss, M. A., Weiss, A. J., Amerstorfer, U. V.,
Amerstorfer, T., Hinterreiter, J., Magnes, W., Leonhardt, R.
2020, Space Weather 18, e2019SW002424, doi: 10.1029/2019SW002424
CMEs in the
heliosphere: III. A Statistical Analysis
of the Kinematic Properties Derived from Stereoscopic Geometrical Modelling
Techniques Applied to CMEs Detected in the Heliosphere from 2008 to 2014 by
STEREO/HI-1
Barnes,
D., Davies, J.A., Harrison, R.A., Byrne, J., Perry, C.J., Bothmer,
V., Eastwood, J., Gallagher, P., Kilpua, E., Möstl, C., Rodriguez, L., Rouillard, A., Odstrcil, D.
2020, Solar Phys. In press/accepted
Predicting the time of
arrival of coronal mass ejections at Earth from heliospheric imaging
observations
Braga, C.R.,
Vourlidas, A., Stenborg, G., Dal Lago, A., de Mendonca, R.R.S., Echer, E.
2020, J. Geophys. Res. Space
Physics 125, doi:
10.1029/2020JA027885
Comparing the
properties of ICME-induced Forbush Decreases at Earth
and Mars
Freiherr von Forstner, J.L., Guo,
J., Wimmer-Schweingruber, R.F., Dumbovi,
M., Janvier, M., Démoulin, P., Veronig,
A., Temmer, M., Papaioannou,
A., Dasso, S., Hassler, D.M., Zeitlin, C.J..
2020, J. Geophys.
Res. Space Phys. 125, e2019JA027662, doi: 10.1029/2019JA027662
The high helium
abundance and charge states of the interplanetary CME and its material source
on the Sun
Fu, H., Harrison, R.A.,
Davies, J.A., Xia, L., Zhu, X., Li, B., Huang, Z., Barnes, D.,
2020, Astrophys. J. Lett. 900, L18, doi:
10.3847/2041-8213/abb083
Differences between
CME arrival time and speed prediction based on STEREO-A and STEREO-B
heliospheric imager observations
Hinterreiter, J., Amerstorfer, T.,
Reiss, M.A., Möstl,C., Temmer, M., Bauer, M., Amerstorfer, U.V., Bailey, R.L., Weiss, A.J., Davies, J.A., Barnard, L.A., Owens, M.J.,
2020, Space Weather,
submitted
Sun-to-Earth
observations and characteristics of isolated Earth-impacting interplanetary
coronal mass ejections during 2008-2014
Maricic, D., Vrnsnak, B., Veronig,
A.M., Dumbovic, M., Sterc,
F., Rosa, D., Karlica, M., Hrzina,
D., Romstajn, I.
2020, Solar Phys. 295, 91, doi: 10.1007/s11207-020-01658-4
Prediction of the in
situ coronal mass ejection rate for solar cycle 25: implications for Parker
Solar Probe in situ observations
Möstl, C., Weiss, A.J., Bailey, R.L., Reiss, M.A., Amerstorfer, U.V., Amerstorfer, T., Hinterreiter, J., Bauer,
M., McIntosh, S.W., Lugaz, N., Stansby, D.
2020, Astrophys. J., in press, arxiv.org/abs/2007.14743
Kinematics of coronal
mass ejections in the LASCO field of view
Ravishankar, A., Michalek, Yashiro, S.
2020, Astron. Astrophys.
639, A68, doi:
10.1051/0004-6361/202037834
Space Weather Monitor
at the L5 Point: A Case Study of a CME Observed with STEREO B
Rodriguez, L., Scolini, C., Mierla, M., Zhukov,
A.N., West,
M.J.
2020, Space Weather 18, e2020SW002533, doi:
10.1029/2020SW002533
Models and data
analysis tools for the Solar Orbiter mission
Rouillard, A.P.,
Pinto, R.F., Vourlidas, A., et al.,
2020, Astron. Astrophys.
642, A2, doi:
10.1051/0004-6361/201935305
2019 – [8]
CMEs in the
heliosphere: II. A statistical analysis
of the kinematic properties derived from single-spacecraft geometrical
modelling techniques applied to CMEs detected in the heliosphere from 2007 to
2017 by STEREO/HI
Barnes,
D., Davies, J.A., Harrison, R.A., Byrne, J., Perry, C.J., Bothmer,
V., Eastwood, J., Gallagher, P., Kilpua, E., Möstl, C., Rodriguez, L., Rouillard, A., Odstrcil, D.
2019,
Solar Phys. 294, 57, doi:
10.1007/s11207-019-1444-4
Tracking and validating
ICMEs propagating toward Mars using STEREO Heliospheric Imagers combined with Forbush Decreases detected by MSL/RAD
Freiherr von Forstner, J.L., Guo, J., Wimmer-Schweingruber, R.F., Temmer, M., Dumbovi, M., Veronig, A., Möstl, C., Hassler,
D.M., Zeitlin, C.J., Ehresmann,
B.
2019, Space Weather 17, 586, doi: 10.1029/2018SW002138
Self‐similarity
of ICME flux ropes: Observations by radially aligned spacecraft in the inner
heliosphere
Good, S. W., Kilpua, E.K.J., LaMoury, A.T., Forsyth, R.J.,
Eastwood, J.P., Moestl, C.,
2019, J. Geophys. Res., Space Phys. 124, doi: 10.1029/2019JA026475
Multipoint
observations of the June 2012 interacting interplanetary flux ropes
Kilpua, E.K.J., Good, S.W., Palmerio, E., Asvestari, E., Lumme, E., Ala-Lahti, M., Kalliokoski,
M.M.H., Morosan, D.E., Pomoell,
J., Price, D.J., Magdalenić,
J., Poedts, S., Futaana, Y.
2019, Frontiers in Aston. Space Sci. doi: 10.3389/fspas.2019.00050
Statistical
survey of coronal mass ejections and interplanetary Type II bursts
Krupar, V., Magdalenić, J., Eastwood, J.P., Gopalswamy, N., Kruparova, O., Szabo, A., Němec,
F.
2019,
Astrophys. J. 882, 92, doi: 10.3847/1538-4357/ab3345
Combined
geometrical modelling and white-light mass determination of coronal mass
ejections
Pluta, A., Mrotzek, N., Vourlidas, A., Bothmer, V., Savani, N.
2019,
Astron. Astrophys.
623, A139, doi:
10.1051/0004-6361/201833829
Observation-based
modelling of magnetised coronal mass ejections with EUHFORIA
Scolini, C., Rodriguez, L., Mierla, M., Pomoell, J., Poedts, S.
2019,
Astron. Astrophys.
626, A122, doi:
10.1051/0004-6361/201935053
Predicting
the geoeffective properties of coronal mass
ejections: current status, open issues and path forward
Vourlidas,
A., Patsourakos, S., Savani,
N.P.
2019,
Phil. Trans. Roy. Soc. A 377,
20180096, doi: 10.1098/rsta.2018.0096
2018
– [7]
Virtual planetary space weather services offered by the Europlanet H2020 Research Infrastructure
André, N., Grande, M., Achilleos, N., Barthélémy, N., Bouchemit, M., Benson, K., Blelly, P.-L., Budnik, E., Caussarieu, S., Cecconi, B., Cook, T., Génot, V., Guio, P., Goutenoir, A., Grison, B., Hueso, R., Indurain, M., Jones, G.H., et al.
2018, Planet. Space Sci. 150, 50, doi: 10.1016/j.pss.2017.04.020
Automated coronal hole identification via multi-thermal intensity segmentation
Garton, T.M., Gallagher, P.T., Murray, S.A.
2018, J. Space Weather Space Climate 8, A02, doi: 10.1051/swsc/2017039
Science data visualization in planetary and heliospheric contexts with 3DView
Génota, V., Beigbeder, L., Popescu, D., Dufourg, N., Gangloff, M., Bouchemit, M., Caussarieu, S., Toniutti, J.-P., Durand, J., Modolo, R., André, N., Cecconi, B., Jacquey, C., Pitout, F., Rouillard, A., Pinto, R., Erard, S., Jourdan, N., Budnik, E.
2018, Planet. Space Sci. 150, 111, doi: 10.1016/j.pss.2017.07.007
Correlation of ICME Magnetic Fields at Radially
Aligned Spacecraft
Good, S.W., Forsyth, R.J., Eastwood, J.P., Möstl, C.
2018, Solar Phys. 293, 52, doi: 10.1007/s11207-018-1264-y
CMEs in the heliosphere: I. A statistical analysis of the observational properties of CMEs detected in the heliosphere from 2007 to 2017 by STEREO/HI-1
Harrison, R.A., Davies, J.A., Barnes, D., Byrne, J., Perry, C.J., Bothmer, V., Eastwood, J., Gallagher, P., Kilpua, E., Möstl, C., Rodriguez, L., Rouillard, A., Odstrcil, D.
2018, Solar Phys. 293, 77, doi: 10.1007/s11207-018-1297-2
Connecting Coronal Mass Ejections to their Solar Active Region Sources: Combining results from the HECATS and FLARECAST projects
Murray, S. A., Guerra, J.A., Zucca, P., Park, S.-H., Carley, E.P., Gallagher, P. T., Vilmer, N., Bothmer, V.
2018, Solar Phys. 293, 60, doi: 10.1007/s11207-018-1287-4
Coronal magnetic structure of Earthbound CMEs and in-situ comparison
Palmerio, E., Kilpua, E.K.J., Mostl, C., Bothmer, V., James, A.W., Green, L.M., Isavnin, A., Davies, J.A., Harrison, R.A.
2018, Space Weather. 16, 442, doi: 10.1002/2017SW001767
2017 – [13]
Testing the current paradigm for space weather prediction with heliospheric imagers
Barnard, L.A., de Koning, C.A., Scott, C.J., Owens, M.J., Wilkinson, J., Davies, J.A.
2017, Space Weather 15, 6, doi: 10.1002/2017SW001609
The 3D structure of coronal mass ejections and its implications for space weather forecasts
Bothmer, V., Mrotzek, N.
2017, Solar Phys. 292, 157, doi: 10.1007/s11207-017-1171-7
Modeling observations of solar coronal mass ejections with
heliospheric imagers verified with the Heliophysics
System Observatory
Möstl, C., A. Isavnin, P. D. Boakes, E. K. J. Kilpua, J. A.
Davies, R. A. Harrison, D. Barnes, V. Krupar, J. P.
Eastwood, S. W. Good, R. J. Forsyth, V. Bothmer, M. A. Reiss, T. Amerstorfer,
R. M. Winslow, B. J. Anderson, L. C. Philpott, L. Rodriguez, A. P. Rouillard,
P. Gallagher, T. Nieves-Chinchilla, T. L. Zhang
2017, Space
Weather 15, 955, doi: 10.1002/2017SW001614
The application of heliospheric imaging to
space weather operations: Lessons learnt from published studies
Harrison, R.A., Davies, J.A., Biesecker, D., Gibbs, M
2017, Space
Weather 15, 985, doi: 10.1002/2017SW001633
Automated detection of coronal mass ejections in three-dimensions using multi-viewpoint observations
Hutton, J., Morgan, H.,
2017, Astron. Astrophys. 599, A68, doi: 10.1051/0004-6361/201629516
Importance of CME Radial Expansion on the Ability of Slow CMEs to Drive Shocks
Lugaz, N., Farrugia, C.F., Winslow, R.M., Small, C.R., Manion, T., Savani, N.P.
2017, Astrophys. J. 848, 75, doi: 10.3847/1538-4357/aa8ef9
Modelling observations of solar coronal mass ejections with heliospheric imagers verified with the Heliophysics System Observatory
Möstl, C., A. Isavnin, P. D. Boakes, E. K. J. Kilpua, J. A. Davies, R. A. Harrison, D. Barnes, V. Krupar, J. P. Eastwood, S. W. Good, R. J. Forsyth, V. Bothmer, M. A. Reiss, T. Amerstorfer, R. M. Winslow, B. J. Anderson, L. C. Philpott, L. Rodriguez, A. P. Rouillard, P. Gallagher and T. L. Zhang
2017, Space Weather 15 doi: 10.1002/2017SW001614
Determining the Intrinsic CME Flux Rope
Type Using Remote-sensing Solar Disk Observations
Palmerio, E., Kilpua, E. K. J., James,
A. W., Green, L. M., Pomoell, J., Isavnin,
A., & Valori, G.,
2017, Solar
Physics, 292, 39, doi:10.1007/s11207-017-1063-x
A multiple flux-tube solar wind model,
Pinto, R.F., Rouillard, A.P.
2017, Astrophys. J. 838, 89 doi: 10.3847/1538-4357/aa6398
The magnetic connectivity of coronal shocks from behind-the-limb flares to visible solar surface during gamma-ray events
Plotnikov, I., Rouillard, A.P., Share, G.H.
2017, Astron. Astrophys. 608, 43, doi: 10.1051/0004-6361/201730804
A propagation tool to connect
remote-sensing observations with in-situ measurements of heliospheric
structures
Rouillard, A. P.; Lavraud,
B.; Genot, V.; Bouchemit,
M.; Dufourg, N.; Plotnikov,
I.; Pinto, R. F.; Sanchez-Diaz, E.; Lavarra, M.; Penou, M.; Jacquey, C.; Andre, N.; Caussarieu,
S.; Toniutti, J.-P.; Popescu,
D.; Buchlin, E.; Caminade,
S.; Alingery, P.; Davies, J. A.; Odstrcil,
D.; Mays, L.
2017, Planet.
Space Sci. 147, 61, doi:
10.1016/j.pss.2017.07.001
Observational Evidence for the Associated Formation
of Blobs and Raining Inflows in the Solar Corona
Sanchez-Diaz, E., Rouillard, A. P., Davies,
J. A., Lavraud, B., Sheeley,
N.R., Pinto, R.F., Kilpua, E., Plotnikov,
I., Genot, V.
2017, Astrophys. J Lett. 835, L7 doi:
10.3847/2041-8213/835/1/L7
The temporal and spatial scales of density structures released in the slow solar wind during solar activity maximum
Sanchez-Diaz, E., Rouillard, A.P., Davies, J.A., Lavraud, B., Pinto, R.F., Kilpua, E.
2017, Astrophys. J. 851, 32, doi: 10.3847/1538-4357/aa98e2
2016
– [16]
Erratum: ``ElEvoHI:
A Novel CME Prediction Tool for Heliospheric Imaging Combining an Elliptical
Front with Drag-based Model Fitting'' (ApJ, 824, 2,
131)
Amerstorfer, T.; Möstl,
C.; Isavnin, A.; Davies, J. A.; Kubicka,
M.; Amerstorfer, U. V.; Harrison, R. A.
2016, Astrophys. J. 831, 210, doi:
10.3847/0004-637X/831/2/210
Interplanetary Coronal Mass Ejections observed by MESSENGER and Venus Express
Good, S.W., Forsyth, R.J.
2016, Solar Phys. 291, 239 doi: 10.1007/s11207-015-0828-3
Sun-to-Earth Characteristics of the 2012 July 12 Coronal Mass Ejection and Associated Geo-effectiveness
Hu, H., Liu, Y. D., Wang, R., Möstl, C., & Yang, Z.,
2016, Astrophys. J. 829, 97 doi:
10.3847/0004-637X/829/2/97
FRiED: A Novel Three-dimensional Model of Coronal Mass Ejections
Isavnin, A.,
2016, Astrophys. J. 833,
267 doi:10.3847/1538-4357/833/2/267
An Analysis of Interplanetary Solar Radio Emissions Associated with a Coronal Mass Ejection
Krupar, V., Eastwood, J.P., Kruparova, O., Santolik, O., Soucek, J., Magdalenić, J., Vourlidas, A., Maksimovic, M., Bonnin, X., Bothmer, V., Mrotzek, N., Pluta, A., Barnes, D., Davies, J.A., Martínez Oliveros, J.C., Bale, S.D.
2016, Astrophys. J. Lett. 823, L5 doi:10.3847/2041-8205/823/1/L5
Prediction of Geomagnetic Storm Strength from Inner Heliospheric In Situ Observations
Kubicka, M., Möstl, C., Rollett, T., Boakes, P.D., Feng, L., Eastwood, J.P., Törmänen, O.,
2016, Astrophys. J. 833, 255 doi:10.3847/1538-4357/833/2/255
Automated Detection Of Coronal Mass Ejections In STEREO Heliospheric Imager Data
Pant, V., Willems, S., Rodriguez, L., Mierla, M., Banerjee, D., Davies, J.
2016, Astrophys. J. 833, 80 doi: 10.3847/1538-4357/833/1/80
Thermal and non-thermal emission from reconnecting twisted coronal loops
Pinto, R.F., Gordovskyy, M., Browing, P.K., Vilmer, N.
2016, Astron. Astrophys. 585, A159, 14 doi: 10.1051/0004-6361/201526633
Flux-tube geometry and solar wind speed during an activity cycle
Pinto, R.F., Brun, A.S., Rouillard, A.P.
2016, Astron. Astrophys. 592, A65 doi: 10.1051/0004-6361/201628599
Long-term tracking of corotating density structures using Heliospheric Imaging
Plotnikov, I., Rouillard, A.P., Davies, J.A., Bothmer, V., Eastwood, J.P., Gallagher, P., Harrison, R.A., Kilpua, E., Möstl, C., Perry, C., Rodriguez, L.
2016, Solar Phys. 291, 1853 doi: 10.1007/s11207-016-0935-9
ElEvoHI: a novel CME prediction tool for heliospheric imaging combining an elliptical front with drag-based model fitting
Rollett, T., Möstl, C., Isavnin, A., Davies, J. A., Kubicka, M., Amerstorfer, U. V., Harrison, R. A,
2016, Astrophys. J. 824, 131 doi:10.3847/0004-637X/824/2/131
3-D views of the expanding CME: from the Sun to 1AU
Rouillard, A.P.
2016, Highlights of Astronomy, Volume 16, 106 doi: 10.1017/S174392131400475X
Deriving the Properties of Coronal Pressure Fronts in 3D: Application to the 2012 May 17 Ground Level Enhancement
Rouillard, A.P., Plotnikov, I., Pinto, R.F., Tirole, M., Lavarra, M., Zucca, P., Vainio, R., Tylka, A.J., Vourlidas, A., De Rosa, M.L., Linker, J., Warmuth, A., Mann, G., Cohen, C.M.S., Mewaldt, R.A.
2016, Astrophys. J. 833, 45 doi: 10.3847/1538-4357/833/1/45
Coronal mass ejection-related particle acceleration regions during a simple eruptive event,
Salas-Matamoros, C. Klein, K.-L., Rouillard, A.P.
2016, Astron. Astrophys. 590, A135 doi: 10.1051/0004-6361/201528015
The very slow solar wind: properties, origin and variability
Sanchez-Diaz, E., Rouillard, A.P., Lavraud B., Segura, K., Tao, C., Pinto, R., Sheeley, N. R., Plotnikov, I.,
2016, J. Geophys. Res: Space Phys. 121, 4, 2830 doi: 10.1002/2016JA022433
Comparison of magnetic properties in a magnetic cloud and its solar source on April 11-14 2013
Vemareddy, P., C. Möstl, T. Rollett, W. Mishra, C. Farrugia, and M. Leitner,
2016, Astrophys. J. 828, 12 doi: 10.3847/0004-637X/828/1/12
2015
– [6]
Radial Evolution of a Magnetic Cloud: MESSENGER, STEREO, and Venus Express Observations
Good, S. W., Forsyth, R. J., Raines, J. M., Gershman, D. J., Slavin, J. A., Zurbuchen, T. H.,
2015, Astrophys. J. 807, 177 doi: 10.1088/0004-637X/807/2/177
Propagation of the 2014 January 7 CME and Resulting Geomagnetic Non-Event
Mays, M. L., Thompson, B. J., Jian, L. K., Colaninno, R. C., Odstrcil, D., Mostl, C., Temmer, M., Savani, N. P., Taktakishvili, A., MacNeice, P. J., Zheng, Y.
2015, Astrophys. J. 812, 145 doi: 10.1088/0004-637X/812/2/145
Investigating Alfvénic wave propagation in coronal open-field regions
Morton, R.J., Tomczyk, S., Pinto, R.
2015, Nature Communications 6, 7813 doi: 10.1083/ncomms8813
Strong coronal channelling and
interplanetary evolution of a solar storm up to Earth and Mars
Möstl, C., Rollett, T., Frahm, R.A., Liu, Y.D., Long, D.M., Colaninno, R.C., Reiss, M.A., Temmer, M.,
Farrugia, C.J., Posner, A., Dumbović, M., Janvier, M., Démoulin, P., Boakes, P.,
Devos, A., Kraaikamp, E., Mays, M.L., Vršnak, B.
2015, Nature Communications 6, 7135 doi: 10.1038/ncomms8135
Soft X-ray emission in kink-unstable coronal loops
Pinto, R. F.; Vilmer, N.; Brun, A. S.
2015, Astron. Astrophys. 576, A37, 16 doi: /10.1051/0004-6361/201323358
Statistical study of magnetic cloud erosion by magnetic reconnection
Ruffenach A., B. Lavraud, C. J. Farrugia, P. Demoulin, S. Dasso, M. J. Owens, J.-A. Sauvaud, A. P. Rouillard, A. Lynnyk, C. Foullon, N. P. Savani, J. G. Luhmann and A. B. Galvin
2015, J. Geophys. Res., Space Physics, 120, 43 doi: 10.1002/2014JA020628
2014 – [3]
HELCATS - Heliospheric Cataloguing, Analysis and Techniques Service
EU Space Research, Into Space report
2014, ISBN 978-92-79-34024-6, doi 10.2769/88565, page 113
Connecting Speeds, Directions and Arrival
Times of 22 Coronal Mass Ejections from the Sun to 1 AU
Möstl, C., Amla, K., Hall, J. R.,
Liewer, P. C., De Jong, E. M., Colaninno, R. C., Veronig, A. M., Rollett, T., Temmer, M., Peinhart, V., Davies,
J. A., Lugaz, N., Liu, Y. D., Farrugia, C. J., Luhmann, J. G., Vrsnak, B.,
Harrison, R. A., & Galvin, A. B.,
2014, Astrophys. J. 787, 119. doi:10.1088/0004-637X/787/2/119
Combined Multipoint Remote and in situ Observations
of the Asymmetric Evolution of a Fast Solar Coronal Mass Ejection
Rollett T., C. Mostl, M. Temmer, R. A. Frahm, J. A. Davies, A. M. Veronig, B. Vrsnak, U. V. Amerstorfer, C. J. Farrugia, T. Zic, and T. L. Zhang,
2014, Astrophys, J. 790, L6, doi:10.1088/2041-8205/790/1/L6
HELCATS talks and posters
[Presented during the lifetime of the
HELCATS project]
talks:
Seventh
Solar Information Processing Workshop, La Roche-en-Ardenne, Belgium, August 18-21, 2014
[C. Möstl, invited talk, ‘‘Combining Heliospheric Imaging and in-situ observations to constrain CME evolution’]
Forecasts and Warnings of Extreme Storms at
the Sun, IRF & MSB, 1 June 2015, Lund, Sweden
[V. Bothmer, Forecasts of
solar storms causing geomagnetic storms based on the CME field structure, other
solar conditions and HELCAT]
Solar Variability and its Heliospheric Effects, 2-6 November 2015, Athens, Greece
[V. Bothmer, Forecasting the Magnetic Field Configuration of CMEs]
12th
European Space Weather Week, Ostend, Belgium – 23-27 November 2015
[R. Harrison et al., presentation on HELCATS overview and highlights in session on Recent Advances in Space Weather Science]
[Rodriguez, S. Willems, V. Pant, M. Mierla, A. Devos. (oral), Automatic detection of CMEs in STEREO-HI data]
European
Geosciences Union General Assembly, Vienna, Austria – 12-17 April 2016
[E. Sanchez-Diaz et a., presentation ‘Properties of the very slow solar wind’]
[P. Boakes et al., presentation ‘HELCATS Prediction of planetary CME arrival times’]
[N. Mrotzek et al., presentation ‘Deriving CME Kinematics from Multipoint Space Observations’]
[M. M. Bisi et al., presentation ‘Observations of Heliospheric Faraday Rotation (FR) and Interplanetary Scintillation (IPS): Steps Towards Investigating Bz Propagation Between the Sun and the Earth’]
[C. Möstl, invited talk, ’A new view of solar coronal mass ejections with the Heliospheric System Observatory (Arne Richter Award for Outstanding Young Scientists Lecture)’]
[M. L. Mays, D. Odstrcil, J. Luhmann, H. Bain, Y. Li, N. Schwadron, M. Gorby, B. Thompson, L. Jian, C. Möstl, A. Rouillard, J. Davies, M. Temmer, L. Rastaetter, A. Taktakishvili, P. MacNeice, and M. Kuznetsova, ‘ENLIL Global Heliospheric Modeling as a Context For Multipoint Observations’]
[T. Rollett, C. Möstl, A. Isavnin, M. Kubicka, U. Amerstorfer, J. Davies, and R. Harrison,, ‘ElEvoHI—Improving CME arrival predictions using heliospheric imaging’]
Solar
Orbiter SWT-18, April 13, 2016, Alcala, Spain
[V. Krupar, oral ‘Tracking CME-driven shocks using radio measurements’]
First VarSITI General Symposium, June 6-10, 2016, Bulgaria
[R. Harrison et al., HELCATS -
Heliospheric Cataloguing, Analysis and Techniques Service]
[D. Barnes et l., A Catalogue of geometrically-modeled coronal mass ejections observed by the STEREO heliospheric imagers
[V. Bothmer et al., Deriving/cataloguing CME kinematics from modelling multipoint observations]
[I. Plotnikov et al., Long-term tracking of corotating density structures using heliospheric imaging. Catalogue update]
[R.F. Pinto et al., Simulating and cataloguing the background solar wind from 1 to 21 solar radii]
CESRA
2016: Solar radio physics from the chromosphere to near Earth, 13-17 Jun 2016
Orleans, France
[V. Krupar et al., oral, ‘Radio triangulation of solar radio emissions: STEREO/Waves measurements’]
poster ‘HELCATS: Radio Burst Measurements’]
[J. Magdalenic et al., oral, ‘Triangulation of the continuum-like radio emission in a CME-CME interaction event’]
Kiepenheuer Institut für Sonnenphysik, Kolloquium, 24 June 2016, Freiburg, Germany
[V. Bothmer, Coronal Mass Ejections in Three Dimensions – Physics and Space Weather Forecast]
Irish
National Astronomy Meeting, 2016 September 9, Dublin, Ireland
[Murray, S. A., et al. (oral), ‘HELCATS: Connecting Coronal Mass Ejections to their Solar Region Sources’]
XIVth Hvar Astrophysical Colloquium,
Croatia, 2016 September, Hvar, Croatia
[C. Möst,
invited talk, ‘Solar Coronal Mass ejection catalogues observed with the Heliophysics System Observatory’ ]
RADECS 2016, 19-23 September 2016, Bremen, Germany
[V. Bothmer, The Sun and Space Weather in 3D - From Research to Operations]
13th European Space Weather Week, Ostend, Belgium – 14-18 November 2016
[R.A.
Harrison, ‘Highlights and results from the FP7
HELCATS (Heliospheric Cataloguing, Analysis and Techniques Service) project’]
JRC,
Space Weather and Critical Infrastructures Summit, 29-30 November, 2016, Ispra, Italy
[V. Bothmer, Developments in the EU - FP7 and
H2020]
American
Geophysical Union Fall Meeting, San Francisco, California, USA - 12-16 December
2016
[E. Palmerio et al., oral ‘Prediction of in-situ magnetic structure of flux ropes from coronal observations’]
posters:
Seventh
Solar Information PRocessing Workshop, La Roche-en-Ardenne, Belgium, August
18-21, 2014
[R. Harrison et al., poster ‘HELCATS: Heliospheric Cataloguing, Analysis and techniques Service]
American Geosciences Union Fall Meeting, December 2014
[M. Bisi et al., poster ‘The HELCATS Project: Characterising the Evolution of Coronal Mass Ejections Observed During Solar Cycle 24’]
European
Geosciences Union General Assembly, Vienna, Austria, April 2015
[C. Möstl et al., poster, ‘Strong coronal deflection of a CME and its interplanetary evolution to Earth and Mars’]
[P. Boakes, C. Möstl et al., poster, ‘HELCATS Prediction of Planetary CME arrival times’]
[Rollett, Möstl et al. ‘Combined Multipoint Remote and In Situ Observations of the Asymmetric Evolution of a Fast Coronal Mass Ejection’]
HELCATS Annual Open Meeting, May 2015
[J. Eastwood et al., poster, ‘Assessing the complementary nature of radio measurements’]
[J. Magdalenic et al., poster, ‘Tracking the CME-driven shock wave on 2012 March 5 and radio triangulation of associated radio emission’]
[M. Bisi et al., poster, ‘Ongoing radio space-weather science studies using the LOw Frequency ARray (LOFAR)’]
National
Astronomy Meeting, Llandudno, Wales, July 2015
[R. Harrison et al., poster ‘HELCATS: Heliospheric Cataloguing, Analysis and techniques Service]
[J. P. Eastwood et al., poster ‘Radio signatures of coronal mass ejections in the STEREO era; initial results from the HELCATS project’]
First Joint Solar Probe Plus-Solar Orbiter Workshop, September 2-4, 2015, Florence, Italy
[V. Krupar et al., poster ’The 2013 November 29 coronal mass ejection and its radio signatures’]
12th European Space Weather Week, Ostend, Belgium – November 2015
[J. Magdalenic et al., poster, ‘Radio triangulation of the radio signatures of a CME-CME interaction’]
American Geophysical Union, Fall Meeting 2015, San Francisco, USA
[V. Krupar et al., poster SH53B-2498, ‘Radio Triangulation of Type II Bursts Associated with a CME - CME Interaction’]
[M. M. Bisi et al., poster SH21B-2399, ‘Observations of Heliospheric Faraday Rotation (FR) and Interplanetary Scintillation (IPS) with the LOw Frequency ARray (LOFAR): Steps Towards Improving Space-Weather Forecasting Capabilities’]
[Rollett, Möstl et al. ‘A new observation-based fitting method assuming an elliptical CME frontal shape and a variable speed’]
[Kubicka, Möstl et al. ‘Prediction of Geomagnetic Storm Strength from Inner Heliospheric In Situ Observations’]
[Möstl, Boakes et al. ‘First Results on Visualization and Verification of the STEREO Heliospheric Imager CME Catalogue with In Situ Data from the Heliophysics System Observatory. San Francisco’]
European
Geosciences Union General Assembly, Vienna, Austria – 12-17 April 2016
[R. Harrison et al. - HELCATS overview poster (Session ST1.8 on Progress in Space Sciences Fostered by the European Commission)]
[Rodriguez, S. Willems, V. Pant, M. Mierla, A. Devos, S. Housteaux (solicited poster)
Automatic detection of CMEs in STEREO-HI data for the FP7 HELCATs project]
[M. Kubicka, C. Möstl, T. Rollett, P. Boakes, Li Feng, and J. Eastwood, poster,
Prediction of the Dst index with magnetic field observations in the inner heliosphere]
First
VarSITI General Symposium, June 6-10, 2016, Bulgaria
[V. Krupar et al., poster ‘Preliminary catalogue of radio burst measurements’]
[R.F. Pinto et al., poster, ‘Solar wind speed and flux-tube geometry’]
[A. Pluta et al., ‘Forecasting CME arrival times in 3D - The DDC tool’]
[A.P. Rouillard et al., ‘Using the HELCATS catalogue to study the connectivity of probes to coronal shocks’]
[A.P. Rouillard et al., ‘CDPP , GFI and HELCATS teams, Interactive tools to access the HELCATS catalogues’]
AOGS,
July 31-August 5, 2016, Beijing, China
[V. Krupar et al., poster ‘HELCATS: Radio Burst Measurements’]
13th European Space Weather Week, Ostend, Belgium – 14-18 November 2016
[R. Pinto et al., poster, ‘Simulating, cataloguing and forecasting the background solar wind conditions’]
[D. Barnes
et al., poster, ‘A Catalogue of
Geometrically-Modelled Coronal Mass Ejections Observed by the STEREO
Heliospheric Imagers’]
[N. Mrotzek et al., poster, ‘An Aerodynamic Drag Analysis of CMEs from In-Situ Measurements and Multipoint Spacecraft Observations’]
[M. M. Bisi et al., poster, ‘Combining Observations of
Interplanetary Scintillation and Heliospheric Visible-Light Imaging for
Space-Weather Purposes as part of the EU FP7 HELCATS Project: CMEs and SIRs’]
[V. Krupar et al., poster,
‘HELCATS: Catalogue of slow drifting radio emissons
observed by STEREO/Waves’]
[V. Krupar et al., poster,
‘Radio signatures of the shock waves and their association with coronal
structures seen by the SWAP and coronagraph observations’]
American Geophysical Union, Fall Meeting 2016, San Francisco, USA
[V. Krupar et al., poster
SH11C-2246, ‘HELCATS: Statistical results on interplanetary type II bursts
observed by STEREO/Waves’]
[M. M. Bisi et al., poster PA41A-2135 ‘The Worldwide
Interplanetary Scintillation (IPS) Stations (WIPSS) Network in support of
Space-Weather Science and Forecasting’]
European
Geosciences Union General Assembly, Vienna, Austria – 23-28 April 2017
[Rodriguez, S. Willems, V. Pant, M. Mierla, A. Devos, S. Housteaux ( poster)
Automatic detection of CMEs in STEREO-HI data for the FP7 HELCATs project]
[N. Mrotzek et al., poster, ‘A Multi-Model Approach to the Analysis of the Kinematics of CMEs Based on Multi-point Space Observations’]
[M. M. Bisi
et al., poster, ‘EU HELCATS Project WP7: Combining Observations of
Interplanetary Scintillation (IPS) and Heliospheric Visible-Light Imaging of
CMEs and SIRs for Space-Weather Purposes’]
[M. M. Bisi
et al., poster, ‘Observations and Analyses of Heliospheric Faraday Rotation of
a Coronal Mass Ejection (CME) Using the LOw Frequency
ARray (LOFAR) and Space-Based Imaging Techniques’]
[M. M. Bisi et al., poster, ‘The Worldwide Interplanetary Scintillation (IPS) Stations (WIPSS) Network in support of Space-Weather Science and Forecasting’]
[J. Magdalenic et al., poster, ‘The February 15 2011 CME-CME interaction and possibly associated radio emission’]
[V. Krupar et al.,
poster, ‘Radio triangulation of solar radio emissions associated with the 2012
July 23 CME’]
[J. Eastwood et al., poster, ‘Cataloguing radio emission associated with coronal mass ejections: results from the HELCATS project’]
[C. Möstl, A. Isavnin, E. K. J. Kilpua, V. Bothmer, N. Mrotzek, P. Boakes, L. Rodriguez, V. Krupar, J. Eastwood, J. Davies, R. Harrison, D. Barnes, R. Winslow, and the HELCATS team, poster, ‘Modeling of coronal mass ejections with the STEREO heliospheric imagers verified with in situ observations by the Heliophysics System Observatory’
[C. Möstl, T. Amerstorfer, A. Isavnin, E. Kilpua, R. Winslow, P. Boakes, M. Kubicka, J. Donnerer, and E. Palmerio, poster, ‘Forward modeling of solar storm magnetic cores in the inner heliosphere’]
[T. Amerstorfer, C. Möstl, P. Hess, M. L. Mays, M. Temmer, Testing ElEvoHI on a multi-point in situ detected Coronal Mass Ejection]
AOGS,
2017
[M. M. Bisi et al., poster, ‘The EU HELCATS Project, WP7, Task 7.1: Combining Observations of Interplanetary Scintillation (IPS) and Heliospheric Visible-Light Imaging of CMEs and SIRs’]