Your search keyword '"Kraaikamp, Emil"' showing total 30 results

1. Evolution of dynamic fibrils from the cooler chromosphere to the hotter corona

Author

Mandal, Sudip, Peter, Hardi, Chitta, Lakshmi Pradeep, Solanki, Sami K., Cuadrado, Regina Aznar, Schühle, Udo, Teriaca, Luca, Sykora, Juan Martínez, Berghmans, David, Auchère, Frédéric, Parenti, Susanna, Zhukov, Andrei N., Buchlin, Éric, Verbeeck, Cis, Kraaikamp, Emil, Rodriguez, Luciano, Long, David M., Barczynski, Krzysztof, Pelouze, Gabriel, and Smith, Philip J.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Physics - Plasma Physics, Physics - Space Physics

Abstract

Dynamic fibrils (DFs) are commonly observed chromospheric features in solar active regions. Recent observations from the Extreme Ultraviolet Imager (EUI) aboard the Solar Orbiter have revealed unambiguous signatures of DFs at the coronal base, in extreme ultraviolet (EUV) emission. However, it remains unclear if the DFs detected in the EUV are linked to their chromospheric counterparts. Simultaneous detection of DFs from chromospheric to coronal temperatures could provide important information on their thermal structuring and evolution through the solar atmosphere. In this paper, we address this question by using coordinated EUV observations from the Atmospheric Imaging Assembly (AIA), Interface Region Imaging Spectrograph (IRIS), and EUI to establish a one-to-one correspondence between chromospheric and transition region DFs (observed by IRIS) with their coronal counterparts (observed by EUI and AIA). Our analysis confirms a close correspondence between DFs observed at different atmospheric layers, and reveals that DFs can reach temperatures of about 1.5 million Kelvin, typical of the coronal base in active regions. Furthermore, intensity evolution of these DFs, as measured by tracking them over time, reveals a shock-driven scenario in which plasma piles up near the tips of these DFs and, subsequently, these tips appear as bright blobs in coronal images. These findings provide information on the thermal structuring of DFs and their evolution and impact through the solar atmosphere., Comment: Accepted for publication in A&A Letters. Animation files are available https://drive.google.com/drive/folders/17-fqQz_P2T18llJ1jB6MJISMRvT5063F?usp=sharing

Published

2023

2. Slow Solar Wind Connection Science during Solar Orbiter's First Close Perihelion Passage

Author

Yardley, Stephanie L., Owen, Christopher J., Long, David M., Baker, Deborah, Brooks, David H., Polito, Vanessa, Green, Lucie M., Matthews, Sarah, Owens, Mathew, Lockwood, Mike, Stansby, David, James, Alexander W., Valori, Gherado, Giunta, Alessandra, Janvier, Miho, Ngampoopun, Nawin, Mihailescu, Teodora, To, Andy S. H., van Driel-Gesztelyi, Lidia, Demoulin, Pascal, D'Amicis, Raffaella, French, Ryan J., Suen, Gabriel H. H., Roulliard, Alexis P., Pinto, Rui F., Reville, Victor, Watson, Christopher J., Walsh, Andrew P., De Groof, Anik, Williams, David R., Zouganelis, Ioannis, Muller, Daniel, Berghmans, David, Auchere, Frederic, Harra, Louise, Scheuhle, Udo, Barczynski, Krysztof, Buchlin, Eric, Cuadrado, Regina Aznar, Kraaikamp, Emil, Mandal, Sudip, Parenti, Susanna, Peter, Hardi, Rodriguez, Luciano, Schwanitz, Conrad, Smith, Phil, Teriaca, Luca, Verbeeck, Cis, Zhukov, Andrei N., De Pontieu, Bart, Horbury, Tim, Solanki, Sami K., Iniesta, Jose Carlos del Toro, Woch, Joachim, Gandorfer, Achim, Hirzberger, Johann, Suarez, David Orozco, Appourchaux, Thierry, Calchetti, Daniele, Sinjan, Jonas, Kahil, Fatima, Albert, Kinga, Volkmer, Reiner, Carlsson, Mats, Fludra, Andrzej, Hassler, Don, Caldwell, Martin, Fredvik, Terje, Grundy, Tim, Guest, Steve, Haberreiter, Margit, Leeks, Sarah, Pelouze, Gabriel, Plowman, Joseph, Schmutz, Werner, Sidher, Sunil, Thompson, William T., Louarn, Philippe, and Federov, Andrei

Subjects

Astrophysics - Solar and Stellar Astrophysics, Physics - Space Physics

Abstract

The Slow Solar Wind Connection Solar Orbiter Observing Plan (Slow Wind SOOP) was developed to utilise the extensive suite of remote sensing and in situ instruments on board the ESA/NASA Solar Orbiter mission to answer significant outstanding questions regarding the origin and formation of the slow solar wind. The Slow Wind SOOP was designed to link remote sensing and in situ measurements of slow wind originating at open-closed field boundaries. The SOOP ran just prior to Solar Orbiter's first close perihelion passage during two remote sensing windows (RSW1 and RSW2) between 2022 March 3-6 and 2022 March 17-22, while Solar Orbiter was at a heliocentric distance of 0.55-0.51 and 0.38-0.34 au from the Sun, respectively. Coordinated observation campaigns were also conducted by Hinode and IRIS. The magnetic connectivity tool was used, along with low latency in situ data, and full-disk remote sensing observations, to guide the target pointing of Solar Orbiter. Solar Orbiter targeted an active region complex during RSW1, the boundary of a coronal hole, and the periphery of a decayed active region during RSW2. Post-observation analysis using the magnetic connectivity tool along with in situ measurements from MAG and SWA/PAS, show that slow solar wind, with velocities between 210 and 600 km/s, arrived at the spacecraft originating from two out of the three of the target regions. The Slow Wind SOOP, despite presenting many challenges, was very successful, providing a blueprint for planning future observation campaigns that rely on the magnetic connectivity of Solar Orbiter., Comment: 24 pages, 10 figures

Published

2023

3. Slow solar wind sources. High-resolution observations with a quadrature view

Author

Barczynski, Krzysztof, Harra, Louise, Schwanitz, Conrad, Janitzek, Nils, Berghmans, David, Auchère, Frédéric, Cuadrado, Regina Aznar, Buchlin, Éric, Kraaikamp, Emil, Long, David M., Mandal, Sudip, Parenti, Susanna, Peter, Hardi, Rodriguez, Luciano, Schühle, Udo, Smith, Phil, Teriaca, Luca, Verbeeck, Cis, and Zhukov, Andrei N.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Physics - Space Physics

Abstract

The origin of the slow solar wind is still an open issue. One possibility that has been suggested is that upflows at the edge of an active region can contribute to the slow solar wind. We aim to explain how the plasma upflows are generated, which mechanisms are responsible for them, and what the upflow region topology looks like. We investigated an upflow region using imaging data with the unprecedented temporal (3s) and spatial (2 pixels = 236km) resolution that were obtained on 30 March 2022 with the 174{\AA} of the Extreme-Ultraviolet Imager (EUI)/High Resolution Imager (HRI) on board Solar Orbiter. During this time, the EUI and Earth-orbiting satellites (Solar Dynamics Observatory, Hinode, and the Interface Region Imaging Spectrograph, IRIS) were located in quadrature (92 degrees), which provides a stereoscopic view with high resolution. We used the Hinode/EIS (Fe XII) spectroscopic data to find coronal upflow regions in the active region. The IRIS slit-jaw imager provides a high-resolution view of the transition region and chromosphere. For the first time, we have data that provide a quadrature view of a coronal upflow region with high spatial resolution. We found extended loops rooted in a coronal upflow region. Plasma upflows at the footpoints of extended loops determined spectroscopically through the Doppler shift are similar to the apparent upward motions seen through imaging in quadrature. The dynamics of small-scale structures in the upflow region can be used to identify two mechanisms of the plasma upflow: Mechanism I is reconnection of the hot coronal loops with open magnetic field lines in the solar corona, and mechanism II is reconnection of the small chromospheric loops with open magnetic field lines in the chromosphere or transition region. We identified the locations in which mechanisms I and II work., Comment: 10 pages, 6 figures, accepted for publication in A&A; manuscript is a part of Astronomy & Astrophysics special issue: Solar Orbiter First Results (Nominal Mission Phase)

Published

2023

4. Signatures of dynamic fibrils at the coronal base: Observations from Solar Orbiter/EUI

Author

Mandal, Sudip, Peter, Hardi, Chitta, Lakshmi Pradeep, Cuadrado, Regina A., Schühle, Udo, Teriaca, Luca, Solanki, Sami K., Harra, Louise, Berghmans, David, Auchère, Frédéric, Parenti, Susanna, Zhukov, Andrei N., Buchlin, Éric, Verbeeck, Cis, Kraaikamp, Emil, Rodriguez, Luciano, Long, David M., Schwanitz, Conrad, Barczynski, Krzysztof, Pelouze, Gabriel, Smith, Philip J., Liu, Wei, and Cheung, Mark C.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The solar chromosphere hosts a wide variety of transients, including dynamic fibrils (DFs) that are characterised as elongated, jet-like features seen in active regions, often through H$\alpha$ diagnostics. So far, these features have been difficult to identify in coronal images primarily due to their small size and the lower spatial resolution of the current EUV imagers. Here we present the first unambiguous signatures of DFs in coronal EUV data using high-resolution images from the Extreme Ultraviolet Imager (EUI) on board Solar Orbiter. Using the data acquired with the 174~{\AA} High Resolution Imager (HRI$_{EUV}$) of EUI, we find many bright dot-like features (of size 0.3-0.5 Mm) that move up and down (often repeatedly) in the core of an active region. In a space-time map, these features produce parabolic tracks akin to the chromospheric observations of DFs. Properties such as their speeds (14 km~s$^{-1}$), lifetime (332~s), deceleration (82 m~s$^{-2}$) and lengths (1293~km) are also reminiscent of the chromospheric DFs. The EUI data strongly suggest that these EUV bright dots are basically the hot tips (of the cooler chromospheric DFs) that could not be identified unambiguously before because of a lack of spatial resolution., Comment: Accepted for publication in A&A Letters. Event movie can be downloaded from https://drive.google.com/file/d/1o_4jHA5JbyQtrpUBtB3ItE_s3HjF6ncc/view?usp=sharing

Published

2022

5. What drives decayless kink oscillations in active region coronal loops on the Sun?

Author

Mandal, Sudip, Chitta, Lakshmi P., Antolin, Patrick, Peter, Hardi, Solanki, Sami K., Auchère, Frédéric, Berghmans, David, Zhukov, Andrei N., Teriaca, Luca, Cuadrado, Regina A., Schühle, Udo, Parenti, Susanna, Buchlin, Éric, Harra, Louise, Verbeeck, Cis, Kraaikamp, Emil, Long, David M., Rodriguez, Luciano, Pelouze, Gabriel, Schwanitz, Conrad, Barczynski, Krzysztof, and Smith, Phil J.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We study here the phenomena of decayless kink oscillations in a system of active region (AR) coronal loops. Using high resolution observations from two different instruments, namely the Extreme Ultraviolet Imager (EUI) on board Solar Orbiter and the Atmospheric Imaging Assembly (AIA) on board the Solar Dynamics Observatory, we follow these AR loops for an hour each on three consecutive days. Our results show significantly more resolved decayless waves in the higher-resolution EUI data compared with the AIA data. Furthermore, the same system of loops exhibits many of these decayless oscillations on Day-2, while on Day-3, we detect very few oscillations and on Day-1, we find none at all. Analysis of photospheric magnetic field data reveals that at most times, these loops were rooted in sunspots, where supergranular flows are generally absent. This suggests that supergranular flows, which are often invoked as drivers of decayless waves, are not necessarily driving such oscillations in our observations. Similarly, our findings also cast doubt on other possible drivers of these waves, such as a transient driver or mode conversion of longitudinal waves near the loop footpoints. In conclusion, through our analysis we find that none of the commonly suspected sources proposed to drive decayless oscillations in active region loops seems to be operating in this event and hence, the search for that elusive wave driver needs to continue., Comment: Accepted for publication in A&A Letters. Event movies can be downloaded from https://drive.google.com/drive/folders/1IFH17oBwJuz2U5zR4Ds_Y4oU5ZQCaVbR?usp=sharing

Published

2022

6. Observation of Magnetic Switchback in the Solar Corona

Author

Telloni, Daniele, Zank, Gary P., Stangalini, Marco, Downs, Cooper, Liang, Haoming, Nakanotani, Masaru, Andretta, Vincenzo, Antonucci, Ester, Sorriso-Valvo, Luca, Adhikari, Laxman, Zhao, Lingling, Marino, Raffaele, Susino, Roberto, Grimani, Catia, Fabi, Michele, D'Amicis, Raffaella, Perrone, Denise, Bruno, Roberto, Carbone, Francesco, Mancuso, Salvatore, Romoli, Marco, Da Deppo, Vania, Fineschi, Silvano, Heinzel, Petr, Moses, John D., Naletto, Giampiero, Nicolini, Gianalfredo, Spadaro, Daniele, Teriaca, Luca, Frassati, Federica, Jerse, Giovanna, Landini, Federico, Pancrazzi, Maurizio, Russano, Giuliana, Sasso, Clementina, Berghmans, David, Auchère, Frédéric, Cuadrado, Regina Aznar, Chitta, Lakshmi P., Harra, Louise, Kraaikamp, Emil, Long, David M., Mandal, Sudip, Parenti, Susanna, Pelouze, Gabriel, Peter, Hardi, Rodriguez, Luciano, Schühle, Udo, Schwanitz, Conrad, Smith, Phil J., Verbeeck, Cis, and Zhukov, Andrei N.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Switchbacks are sudden, large radial deflections of the solar wind magnetic field, widely revealed in interplanetary space by the Parker Solar Probe. The switchbacks' formation mechanism and sources are still unresolved, although candidate mechanisms include Alfv\'enic turbulence, shear-driven Kelvin-Helmholtz instabilities, interchange reconnection, and geometrical effects related to the Parker spiral. This Letter presents observations from the Metis coronagraph onboard Solar Orbiter of a single large propagating S-shaped vortex, interpreted as first evidence of a switchback in the solar corona. It originated above an active region with the related loop system bounded by open-field regions to the East and West. Observations, modeling, and theory provide strong arguments in favor of the interchange reconnection origin of switchbacks. Metis measurements suggest that the initiation of the switchback may also be an indicator of the origin of slow solar wind.

Published

2022

7. Three Eruptions Observed by Remote Sensing Instruments Onboard Solar Orbiter

Author

Mierla, Marilena, Cremades, Hebe, Andretta, Vincenzo, Chifu, Iulia, Zhukov, Andrei N., Susino, Roberto, Auchère, Frédéric, Vourlidas, Angelos, Talpeanu, Dana-Camelia, Rodriguez, Luciano, Janssens, Jan, Nicula, Bogdan, Aznar Cuadrado, Regina, Berghmans, David, Bemporad, Alessandro, D’Huys, Elke, Dolla, Laurent, Gissot, Samuel, Jerse, Giovanna, Kraaikamp, Emil, Long, David M., Mampaey, Benjamin, Möstl, Christian, Pagano, Paolo, Parenti, Susanna, West, Matthew J., Podladchikova, Olena, Romoli, Marco, Sasso, Clementina, Stegen, Koen, Teriaca, Luca, Thompson, William, Verbeeck, Cis, and Davies, Emma

Published

2023

8. Strong coronal channelling and interplanetary evolution of a solar storm up to Earth and Mars

Author

Möstl, Christian, Rollett, Tanja, Frahm, Rudy A., Liu, Ying D., Long, David M., Colaninno, Robin C., Reiss, Martin A., Temmer, Manuela, Farrugia, Charles J., Posner, Arik, Dumbović, Mateja, Janvier, Miho, Démoulin, Pascal, Boakes, Peter, Devos, Andy, Kraaikamp, Emil, Mays, Mona L., and Vrsnak, Bojan

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The severe geomagnetic effects of solar storms or coronal mass ejections (CMEs) are to a large degree determined by their propagation direction with respect to Earth. There is a lack of understanding of the processes that determine their non-radial propagation. Here we present a synthesis of data from seven different space missions of a fast CME, which originated in an active region near the disk centre and, hence, a significant geomagnetic impact was forecasted. However, the CME is demonstrated to be channelled during eruption into a direction + 37+/-10 degree (longitude) away from its source region, leading only to minimal geomagnetic effects. In situ observations near Earth and Mars confirm the channelled CME motion, and are consistent with an ellipse shape of the CME-driven shock provided by the new Ellipse Evolution model, presented here. The results enhance our understanding of CME propagation and shape, which can help to improve space weather forecasts., Comment: 6 figures, published in Nature Communications as open access

Published

2015

9. A Space Weather Mission Concept: Observatories of the Solar Corona and Active Regions (OSCAR)

Author

Strugarek, Antoine, Janitzek, Nils, Lee, Arrow, Löschl, Philipp, Seifert, Bernhard, Hoilijoki, Sanni, Kraaikamp, Emil, Mrigakshi, Alankrita Isha, Philippe, Thomas, Spina, Sheila, Bröse, Malte, Massahi, Sonny, O'Halloran, Liam, Blanco, Victor Pereira, Stausland, Christoffer, Escoubet, Philippe, and Kargl, Günter

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Space Physics

Abstract

Coronal Mass Ejections (CMEs) and Corotating Interaction Regions (CIRs) are major sources of magnetic storms on Earth and are therefore considered to be the most dangerous space weather events. The Observatories of Solar Corona and Active Regions (OSCAR) mission is designed to identify the 3D structure of coronal loops and to study the trigger mechanisms of CMEs in solar Active Regions (ARs) as well as their evolution and propagation processes in the inner heliosphere. It also aims to provide monitoring and forecasting of geo-effective CMEs and CIRs. OSCAR would contribute to significant advancements in the field of solar physics, improvements of the current CME prediction models, and provide data for reliable space weather forecasting. These objectives are achieved by utilising two spacecraft with identical instrumentation, located at a heliocentric orbital distance of 1~AU from the Sun. The spacecraft will be separated by an angle of 68$^{\circ}$ to provide optimum stereoscopic view of the solar corona. We study the feasibility of such a mission and propose a preliminary design for OSCAR., Comment: 28 pages, 7 figures, 6 tables, accepted for publication in Space Weather and Space Climate

Published

2014

10. Evolution of dynamic fibrils from the cooler chromosphere to the hotter corona

Author

Mandal, Sudip, primary, Peter, Hardi, additional, Chitta, Lakshmi Pradeep, additional, Solanki, Sami K., additional, Aznar Cuadrado, Regina, additional, Schühle, Udo, additional, Teriaca, Luca, additional, Martínez-Sykora, Juan, additional, Berghmans, David, additional, Auchère, Frédéric, additional, Parenti, Susanna, additional, Zhukov, Andrei N., additional, Buchlin, Éric, additional, Verbeeck, Cis, additional, Kraaikamp, Emil, additional, Rodriguez, Luciano, additional, Long, David M., additional, Barczynski, Krzysztof, additional, Pelouze, Gabriel, additional, and Smith, Philip J., additional

Published

2023

11. Slow Solar Wind Connection Science during Solar Orbiter’s First Close Perihelion Passage

Author

Yardley, Stephanie L., primary, Owen, Christopher J., additional, Long, David M., additional, Baker, Deborah, additional, Brooks, David H., additional, Polito, Vanessa, additional, Green, Lucie M., additional, Matthews, Sarah, additional, Owens, Mathew, additional, Lockwood, Mike, additional, Stansby, David, additional, James, Alexander W., additional, Valori, Gherardo, additional, Giunta, Alessandra, additional, Janvier, Miho, additional, Ngampoopun, Nawin, additional, Mihailescu, Teodora, additional, To, Andy S. H., additional, van Driel-Gesztelyi, Lidia, additional, Démoulin, Pascal, additional, D’Amicis, Raffaella, additional, French, Ryan J., additional, Suen, Gabriel H. H., additional, Rouillard, Alexis P., additional, Pinto, Rui F., additional, Réville, Victor, additional, Watson, Christopher J., additional, Walsh, Andrew P., additional, De Groof, Anik, additional, Williams, David R., additional, Zouganelis, Ioannis, additional, Müller, Daniel, additional, Berghmans, David, additional, Auchère, Frédéric, additional, Harra, Louise, additional, Schuehle, Udo, additional, Barczynski, Krysztof, additional, Buchlin, Éric, additional, Cuadrado, Regina Aznar, additional, Kraaikamp, Emil, additional, Mandal, Sudip, additional, Parenti, Susanna, additional, Peter, Hardi, additional, Rodriguez, Luciano, additional, Schwanitz, Conrad, additional, Smith, Phil, additional, Teriaca, Luca, additional, Verbeeck, Cis, additional, Zhukov, Andrei N., additional, De Pontieu, Bart, additional, Horbury, Tim, additional, Solanki, Sami K., additional, del Toro Iniesta, Jose Carlos, additional, Woch, Joachim, additional, Gandorfer, Achim, additional, Hirzberger, Johann, additional, Súarez, David Orozco, additional, Appourchaux, Thierry, additional, Calchetti, Daniele, additional, Sinjan, Jonas, additional, Kahil, Fatima, additional, Albert, Kinga, additional, Volkmer, Reiner, additional, Carlsson, Mats, additional, Fludra, Andrzej, additional, Hassler, Don, additional, Caldwell, Martin, additional, Fredvik, Terje, additional, Grundy, Tim, additional, Guest, Steve, additional, Haberreiter, Margit, additional, Leeks, Sarah, additional, Pelouze, Gabriel, additional, Plowman, Joseph, additional, Schmutz, Werner, additional, Sidher, Sunil, additional, Thompson, William T., additional, Louarn, Philippe, additional, and Federov, Andrei, additional

Published

2023

12. Small-scale EUV features as the drivers of coronal upflows in the quiet Sun

Author

Schwanitz, Conrad, primary, Harra, Louise, additional, Mandrini, Cristina H., additional, Sterling, Alphonse C., additional, Raouafi, Nour E., additional, Mac Cormack, Cecilia, additional, Berghmans, David, additional, Auchère, Frédéric, additional, Barczynski, Krzysztof, additional, Aznar Cuadrado, Regina, additional, Buchlin, Éric, additional, Kraaikamp, Emil, additional, Long, David M., additional, Parenti, Susanna, additional, Peter, Hardi, additional, Rodriguez, Luciano, additional, Schühle, Udo, additional, Smith, Phil, additional, Teriaca, Luca, additional, Verbeeck, Cis, additional, and Zhukov, Andrei N., additional

Published

2023

13. The source of unusual coronal upflows with photospheric abundance in a solar active region

Author

Harra, Louise, Mandrini, Cristina, Brooks, David, Barczynski, Krzysztof, Mac Cormack, Cecilia, Cristiani, Germán, Mandal, Sudip, Sterling, Alphonse C., Martinez Pillet, Valentin, Janitzek, Nils, Schühle, Udo, Berghmans, David, Auchère, Frédéric, Aznar Cuadrado, Regina, Buchlin, Éric, Kraaikamp, Emil, Long, David, Parenti, Susanna, Peter, Hardi, Rodriguez, Luciano, Smith, Phil, Teriaca, Luca, Verbeeck, Cis, and Zhukov, Andrei N.

Subjects

Sun: general, sunspots, solar wind, general, solar wind [Sun]

Abstract

Context. Upflows in the corona are of importance, as they may contribute to the solar wind. There has been considerable interest in upflows from active regions (ARs). The coronal upflows that are seen at the edges of active regions have coronal elemental composition and can contribute to the slow solar wind. The sources of the upflows have been challenging to determine because they may be multiple, and the spatial resolution of previous observations is not yet high enough. Aims. In this article, we analyse coronal upflows in AR 12960 that are unusually close to the sunspot umbra. We analyse their properties, and we attempt to determine if it is possible that they feed into the slow solar wind. Methods. We analysed the activity in the upflow region in detail using a combination of Solar Orbiter EUV images at high spatial and temporal resolution, Hinode/EUV Imaging Spectrometer data, and observations from instruments on board the Solar Dynamics Observatory. This combined dataset was acquired during the first Solar Orbiter perihelion of the science phase, which provided a spatial resolution of 356 km for two pixels. Doppler velocity, density, and plasma composition determinations, as well as coronal magnetic field modelling, were carried out to understand the source of the upflows. Results. We observed small magnetic fragments, called moving magnetic features (MMFs), moving away from the sunspot in the active region. Specifically, they moved towards the sunspot from the edge of the penumbra where a small positive polarity connects to the umbra via small-scale and very dynamic coronal loops. At this location, small dark grains are evident and flow along penumbral filaments in continuum images. The magnetic field modelling showed small low-lying loops anchored close to the umbral magnetic field. The high-resolution data of the Solar Orbiter EUV Imagers showed the dynamics of these small loops, which last on time scales of only minutes. The edges of these small loops are the location of the coronal upflow that has photospheric abundance., Astronomy & Astrophysics, 675, ISSN:0004-6361, ISSN:1432-0746

Published

2023

14. Signatures of dynamic fibrils at the coronal base: Observations from Solar Orbiter/EUI

Author

Mandal, Sudip, primary, Peter, Hardi, additional, Chitta, Lakshmi Pradeep, additional, Cuadrado, Regina Aznar, additional, Schühle, Udo, additional, Teriaca, Luca, additional, Solanki, Sami K., additional, Harra, Louise, additional, Berghmans, David, additional, Auchère, Frédéric, additional, Parenti, Susanna, additional, Zhukov, Andrei N., additional, Buchlin, Éric, additional, Verbeeck, Cis, additional, Kraaikamp, Emil, additional, Rodriguez, Luciano, additional, Long, David M., additional, Schwanitz, Conrad, additional, Barczynski, Krzysztof, additional, Pelouze, Gabriel, additional, Smith, Philip J., additional, Liu, Wei, additional, and Cheung, Mark C., additional

Published

2023

15. Beyond the disk: EUV coronagraphic observations of the Extreme Ultraviolet Imager on board Solar Orbiter

Author

Auchère, Frédéric, Berghmans, David, Dumesnil, Cydalise, Halain, Jean P., Mercier, Raymond, Rochus, Pierre, Delmotte, Franck, François, Serge, Hermans, Aline, Hervier, Véronique, Kraaikamp, Emil, Meltchakov, Evgueni, Morinaud, Gilles, Philippon, Anne, Smith, Phil J., Stegen, Koen, Verbeeck, Cis, Zhang, Xueyan, Andretta, Vincenzo, Abbo, Lucia, and Harra, Louise

Subjects

conduction, Sun: corona, Sun: coronal mass ejections (CMEs), corona, Sun: UV radiation, conduction [Sun]

Abstract

Context. Most observations of the solar corona beyond 2 R consist of broadband visible light imagery carried out with coronagraphs. The associated diagnostics mainly consist of kinematics and derivations of the electron number density. While the measurement of the properties of emission lines can provide crucial additional diagnostics of the coronal plasma (temperatures, velocities, abundances, etc.), these types of observations are comparatively rare. In visible wavelengths, observations at these heights are limited to total eclipses. In the ultraviolet (UV) to extreme UV (EUV) range, very few additional observations have been achieved since the pioneering results of the Ultraviolet Coronagraph Spectrometer (UVCS). Aims. One of the objectives of the Full Sun Imager (FSI) channel of the Extreme Ultraviolet Imager (EUI) on board the Solar Orbiter mission has been to provide very wide field-of-view EUV diagnostics of the morphology and dynamics of the solar atmosphere in temperature regimes that are typical of the lower transition region and of the corona. Methods. FSI carries out observations in two narrowbands of the EUV spectrum centered on 17.4 nm and 30.4 nm that are dominated, respectively, by lines of FeIX/X (formed in the corona around 1 MK) and by the resonance line of HeII (formed around 80 kK in the lower transition region). Unlike previous EUV imagers, FSI includes a moveable occulting disk that can be inserted in the optical path to reduce the amount of instrumental stray light to a minimum. Results. FSI detects signals at 17.4 nm up to the edge of its field of view (7 R), which is about twice further than was previously possible. Operation at 30.4 nm are for the moment compromised by an as-yet unidentified source of stray light. Comparisons with observations by the LASCO and Metis coronagraphs confirm the presence of morphological similarities and differences between the broadband visible light and EUV emissions, as documented on the basis of prior eclipse and space-based observations. Conclusions. The very-wide-field observations of FSI out to about 3 and 7 R, without and with the occulting disk, respectively, are paving the way for future dedicated instruments., Astronomy & Astrophysics, 674, ISSN:0004-6361, ISSN:1432-0746

Published

2023

16. What drives decayless kink oscillations in active-region coronal loops on the Sun?

Author

Mandal, Sudip, primary, Chitta, Lakshmi Pradeep, additional, Antolin, Patrick, additional, Peter, Hardi, additional, Solanki, Sami K., additional, Auchère, Frédéric, additional, Berghmans, David, additional, Zhukov, Andrei N., additional, Teriaca, Luca, additional, Cuadrado, Regina A., additional, Schühle, Udo, additional, Parenti, Susanna, additional, Buchlin, Éric, additional, Harra, Louise, additional, Verbeeck, Cis, additional, Kraaikamp, Emil, additional, Long, David M., additional, Rodriguez, Luciano, additional, Pelouze, Gabriel, additional, Schwanitz, Conrad, additional, Barczynski, Krzysztof, additional, and Smith, Phil J., additional

Published

2022

17. Observation of a Magnetic Switchback in the Solar Corona

Author

Telloni, Daniele, primary, Zank, Gary P., additional, Stangalini, Marco, additional, Downs, Cooper, additional, Liang, Haoming, additional, Nakanotani, Masaru, additional, Andretta, Vincenzo, additional, Antonucci, Ester, additional, Sorriso-Valvo, Luca, additional, Adhikari, Laxman, additional, Zhao, Lingling, additional, Marino, Raffaele, additional, Susino, Roberto, additional, Grimani, Catia, additional, Fabi, Michele, additional, D’Amicis, Raffaella, additional, Perrone, Denise, additional, Bruno, Roberto, additional, Carbone, Francesco, additional, Mancuso, Salvatore, additional, Romoli, Marco, additional, Deppo, Vania Da, additional, Fineschi, Silvano, additional, Heinzel, Petr, additional, Moses, John D., additional, Naletto, Giampiero, additional, Nicolini, Gianalfredo, additional, Spadaro, Daniele, additional, Teriaca, Luca, additional, Frassati, Federica, additional, Jerse, Giovanna, additional, Landini, Federico, additional, Pancrazzi, Maurizio, additional, Russano, Giuliana, additional, Sasso, Clementina, additional, Biondo, Ruggero, additional, Burtovoi, Aleksandr, additional, Capuano, Giuseppe E., additional, Casini, Chiara, additional, Casti, Marta, additional, Chioetto, Paolo, additional, Leo, Yara De, additional, Giarrusso, Marina, additional, Liberatore, Alessandro, additional, Berghmans, David, additional, Auchère, Frédéric, additional, Cuadrado, Regina Aznar, additional, Chitta, Lakshmi P., additional, Harra, Louise, additional, Kraaikamp, Emil, additional, Long, David M., additional, Mandal, Sudip, additional, Parenti, Susanna, additional, Pelouze, Gabriel, additional, Peter, Hardi, additional, Rodriguez, Luciano, additional, Schühle, Udo, additional, Schwanitz, Conrad, additional, Smith, Phil J., additional, Verbeeck, Cis, additional, and Zhukov, Andrei N., additional

Published

2022

18. A space weather mission concept: observatories of the solar corona and active regions (oscar) – Erratum

Author

Strugarek Antoine, Janitzek Nils, Lee Arrow, Löschl Philipp, Seifert Bernhard, Hoilijoki Sanni, Kraaikamp Emil, Isha Mrigakshi Alankrita, Philippe Thomas, Spina Sheila, Bröse Malte, Massahi Sonny, O’Halloran Liam, Pereira Blanco Victor, Stausland Christoffer, Escoubet Philippe, and Kargl Günter

Subjects

Meteorology. Climatology, QC851-999

Abstract

In this erratum we acknowledge EASCO as one of the inspirational mission concepts that helped the development of our original mission concept OSCAR.

Published

2017

19. Observation of a Magnetic Switchback in the Solar Corona

Author

Telloni, Daniele, Zank, Gary P., Stangalini, Marco, Downs, Cooper, Liang, Haoming, Nakanotani, Masaru, Andretta, Vincenzo, Antonucci, Ester, Sorriso-Valvo, Luca, Adhikari, Laxman, Zhao, Lingling, Marino, Raffaele, Susino, Roberto, Grimani, Catia, Fabi, Michele, D'Amicis, Raffaella, Perrone, Denise, Bruno, Roberto, Carbone, Francesco, Mancuso, Salvatore, Romoli, Marco, Da Deppo, Vania, Fineschi, Silvano, Heinzel, Petr, Moses, John D., Naletto, Giampiero, Nicolini, Gianalfredo, Spadaro, Daniele, Teriaca, Luca, Frassati, Federica, Jerse, Giovanna, Landini, Federico, Pancrazzi, Maurizio, Russano, Giuliana, Sasso, Clementina, Biondo, Ruggero, Burtovoi, Aleksandr, Capuano, Giuseppe E., Casini, Chiara, Casti, Marta, Chioetto, Paolo, De Leo, Yara, Giarrusso, Marina, Liberatore, Alessandro, Berghmans, David, Auchere, Frederic, Cuadrado, Regina Aznar, Chitta, Lakshmi P., Harra, Louise, Kraaikamp, Emil, Long, David M., Mandal, Sudip, Parenti, Susanna, Pelouze, Gabriel, Peter, Hardi, Rodriguez, Luciano, Schühle, Udo, Schwanitz, Conrad, Smith, Phil J., Verbeeck, Cis, Zhukov, Andrei N., Telloni, Daniele, Zank, Gary P., Stangalini, Marco, Downs, Cooper, Liang, Haoming, Nakanotani, Masaru, Andretta, Vincenzo, Antonucci, Ester, Sorriso-Valvo, Luca, Adhikari, Laxman, Zhao, Lingling, Marino, Raffaele, Susino, Roberto, Grimani, Catia, Fabi, Michele, D'Amicis, Raffaella, Perrone, Denise, Bruno, Roberto, Carbone, Francesco, Mancuso, Salvatore, Romoli, Marco, Da Deppo, Vania, Fineschi, Silvano, Heinzel, Petr, Moses, John D., Naletto, Giampiero, Nicolini, Gianalfredo, Spadaro, Daniele, Teriaca, Luca, Frassati, Federica, Jerse, Giovanna, Landini, Federico, Pancrazzi, Maurizio, Russano, Giuliana, Sasso, Clementina, Biondo, Ruggero, Burtovoi, Aleksandr, Capuano, Giuseppe E., Casini, Chiara, Casti, Marta, Chioetto, Paolo, De Leo, Yara, Giarrusso, Marina, Liberatore, Alessandro, Berghmans, David, Auchere, Frederic, Cuadrado, Regina Aznar, Chitta, Lakshmi P., Harra, Louise, Kraaikamp, Emil, Long, David M., Mandal, Sudip, Parenti, Susanna, Pelouze, Gabriel, Peter, Hardi, Rodriguez, Luciano, Schühle, Udo, Schwanitz, Conrad, Smith, Phil J., Verbeeck, Cis, and Zhukov, Andrei N.

Abstract

Switchbacks are sudden, large radial deflections of the solar wind magnetic field, widely revealed in interplanetary space by the Parker Solar Probe. The switchbacks' formation mechanism and sources are still unresolved, although candidate mechanisms include Alfvenic turbulence, shear-driven Kelvin-Helmholtz instabilities, interchange reconnection, and geometrical effects related to the Parker spiral. This Letter presents observations from the Metis coronagraph on board a Solar Orbiter of a single large propagating S-shaped vortex, interpreted as the first evidence of a switchback in the solar corona. It originated above an active region with the related loop system bounded by open-field regions to the east and west. Observations, modeling, and theory provide strong arguments in favor of the interchange reconnection origin of switchbacks. Metis measurements suggest that the initiation of the switchback may also be an indicator of the origin of slow solar wind.

Published

2022

20. Planetary processing with Autostakkert! 2: this freeware takes the drudgery out of stacking planetary videos

Author

Kraaikamp, Emil

Subjects

Image processing -- Computer programs, Image processing software, Astronomy, Autostakkert! 2 (Image processing software) -- Product/service Evaluations

Abstract

The long-established technique of lucky imaging is unquestionably the best and easiest way to record high-resolution photos of the Sun, Moon, and planets. Using high-speed digital cameras, amateurs record thousands [...]

Published

2016

21. A Space Weather mission concept: Observatories of the Solar Corona and Active Regions (OSCAR)

Author

Strugarek Antoine, Janitzek Nils, Lee Arrow, Löschl Philipp, Seifert Bernhard, Hoilijoki Sanni, Kraaikamp Emil, Mrigakshi Alankrita Isha, Philippe Thomas, Spina Sheila, Bröse Malte, Massahi Sonny, O’Halloran Liam, Blanco Victor Pereira, Stausland Christoffer, Escoubet Philippe, and Kargl Günter

Subjects

Missions, Corona, Active region, Interplanetary Coronal Mass Ejection (CME), Corotating Interaction Regions (CIR), Meteorology. Climatology, QC851-999

Abstract

Coronal Mass Ejections (CMEs) and Corotating Interaction Regions (CIRs) are major sources of magnetic storms on Earth and are therefore considered to be the most dangerous space weather events. The Observatories of Solar Corona and Active Regions (OSCAR) mission is designed to identify the 3D structure of coronal loops and to study the trigger mechanisms of CMEs in solar Active Regions (ARs) as well as their evolution and propagation processes in the inner heliosphere. It also aims to provide monitoring and forecasting of geo-effective CMEs and CIRs. OSCAR would contribute to significant advancements in the field of solar physics, improvements of the current CME prediction models, and provide data for reliable space weather forecasting. These objectives are achieved by utilising two spacecraft with identical instrumentation, located at a heliocentric orbital distance of 1 AU from the Sun. The spacecraft will be separated by an angle of 68° to provide optimum stereoscopic view of the solar corona. We study the feasibility of such a mission and propose a preliminary design for OSCAR.

Published

2015

22. Solar Demon – an approach to detecting flares, dimmings, and EUV waves on SDO/AIA images

Author

Kraaikamp Emil and Verbeeck Cis

Subjects

Event detection, Flares, Dimmings, EUV waves, Meteorology. Climatology, QC851-999

Abstract

Flares, dimmings, and extreme ultraviolet (EUV) waves are three types of eruptive phenomena on the Sun, which are main drivers of space weather. Fast and reliable detection of these phenomena helps augment space weather predictions. In the current paper, we introduce Solar Demon, the first software that detects all three phenomena, using a modular design to exploit synergies. While Solar Demon runs in near real-time on SDO/AIA synoptic quick-look images to provide fast detections of flares, dimmings, and EUV waves for space weather purposes, it also processes new Atmospheric Imaging Assembly (AIA) synoptic science images on a regular basis to build dedicated science quality catalogs. An overview of Solar Demon is given, with a focus on the algorithms for EUV wave detection and characterization. Several first results, such as flare and dimming butterfly diagrams for the rising part of Solar Cycle 24, are presented. The main advantages, challenges, and future prospects for Solar Demon are outlined in the Section 5.

Published

2015

23. A new type of cloud discovered from Earth in the upper Martian atmosphere

Author

Lilensten, Jean, primary, Dauvergne, Jean-Luc, additional, Pellier, Christophe, additional, Delcroix, Marc, additional, Beaudoin, Emmanuel, additional, Vincendon, Mathieu, additional, Kraaikamp, Emil, additional, Bertrand, Guillaume, additional, Foster, Clyde, additional, Go, Christopher, additional, Kardasis, Μanos, additional, Pace, Alexei, additional, Peach, Damian, additional, Wesley, Anthony, additional, Samara, Evangelia, additional, Poedts, Stefaan, additional, and Colas, Francois, additional

Published

2021

24. Solar Flare Distributions: Lognormal Instead of Power Law?

Author

Verbeeck, Cis, primary, Kraaikamp, Emil, additional, Ryan, Daniel F., additional, and Podladchikova, Olena, additional

Published

2019

25. Erratum: A space weather mission concept: Observatories of the solar corona and active regions (oscar) (Journal of Space Weather and Space Climate (2015) 5 (A4) DOI: 10.1051/swsc/2015003)

Author

Strugarek, Antoine, Janitzek, Nils, Lee, Arrow, Loeschl, Philipp, Seifert, Bernhard, Hoilijoki, Sanni, Kraaikamp, Emil, Mrigakshi, Alankrita Isha, Philippe, Thomas, Spina, Sheila, Broese, Malte, Massahi, Sonny, O’Halloran, Liam, Pereira Blanco, Victor, Stausland, Christoffer, Escoubet, Philippe, and Kargl, Günter

Abstract

In this erratum we acknowledge EASCO as one of the inspirational mission concepts that helped the development of our original mission concept OSCAR. It was brought to our attention that our original paper failed to acknowledge the mission concept EASCO, which was originally laid out in Gopalswamy et al. (2011). At the time we developed OSCAR, EASCO was one of the inspirational mission concepts on which we built our new and original concept of twin satellites leading and trailing the Earth with a separation angle of 68°. The omission of EASCO in our original paper was unintentional, and we wanted to acknowledge this important previous work in the present erratum.

Published

2017

26. A Space Weather mission concept: Observatories of the Solar Corona and Active Regions (OSCAR)

Author

Strugarek, Antoine, Janitzek, Nils, Lee, Arrow, Loeschl, Philipp, Seifert, Bernhard, Hoilijoki, Sanni, Kraaikamp, Emil, Mrigakshi, Alankrita Isha, Philippe, Thomas, Spina, Sheila, Broese, Malte, Massahi, Sonny, Strugarek, Antoine, Janitzek, Nils, Lee, Arrow, Loeschl, Philipp, Seifert, Bernhard, Hoilijoki, Sanni, Kraaikamp, Emil, Mrigakshi, Alankrita Isha, Philippe, Thomas, Spina, Sheila, Broese, Malte, and Massahi, Sonny

Abstract

Coronal Mass Ejections (CMEs) and Corotating Interaction Regions (CIRs) are major sources of magnetic storms on Earth and are therefore considered to be the most dangerous space weather events. The Observatories of Solar Corona and Active Regions (OSCAR) mission is designed to identify the 3D structure of coronal loops and to study the trigger mechanisms of CMEs in solar Active Regions (ARs) as well as their evolution and propagation processes in the inner heliosphere. It also aims to provide monitoring and forecasting of geo-effective CMEs and CIRs. OSCAR would contribute to significant advancements in the field of solar physics, improvements of the current CME prediction models, and provide data for reliable space weather forecasting. These objectives are achieved by utilising two spacecraft with identical instrumentation, located at a heliocentric orbital distance of 1 AU from the Sun. The spacecraft will be separated by an angle of 68 degrees to provide optimum stereoscopic view of the solar corona. We study the feasibility of such a mission and propose a preliminary design for OSCAR.

Published

2015

27. The COMESEP Space Weather Alert System

Author

Rodriguez, Luciano, Devos, Andy, Bourgoignie, Bram, Kraaikamp, Emil, Nicula, Bogdan, Bonte, Katrien, Verbeeck, Cis, Crosby, Norma, Dierckxsens, Mark, Calders, Stijn, Kruglanski, Michel, Veronig, Astrid, Rotter, Thomas, Temmer, Manuela, Vršnak, Bojan, Dumbović, Mateja, Žic, Tomislav, Čalogović, Jasa, Vennerstrom, Susanne, Kristoffer, Leer, Malandraki, Olga, Tziotziou, Kostas, Patsou, Ioanna, Lygeros, Nikos, Dalla, Silvia, Marsh, Mike, and Robbrecht, Eva

Subjects

space weather, coronal mass ejections, solar flares, geomagnetic storms, solar energetic particles

Abstract

COMESEP is a new European space weather alert system. It consists of several interconnected tools that work together to analyse data and automatically provide alerts for geomagnetic storms and SEP radiation storms. The system is triggered by different solar phenomena, such as CMEs, solar flares and coronal holes. After the automatic detection in solar data of any of these transients, the different modules of the system communicate in order to exchange information. For example, an automatic CME detection (by CACTus) triggers the drag‐based model of CME propagation in order to calculate arrival times to Earth. A database of model runs of a test particle SEP model is consulted to generate an SEP radiation forecast. Overall the system produces a series of coherent alerts that are then displayed online. In this talk the different tools and the general functioning of the system will be presented. This work has received funding from the European Commission FP7 Project COMESEP (263252).

Published

2013

28. Strong coronal channelling and interplanetary evolution of a solar storm up to Earth and Mars

Author

Möstl, Christian, primary, Rollett, Tanja, additional, Frahm, Rudy A., additional, Liu, Ying D., additional, Long, David M., additional, Colaninno, Robin C., additional, Reiss, Martin A., additional, Temmer, Manuela, additional, Farrugia, Charles J., additional, Posner, Arik, additional, Dumbović, Mateja, additional, Janvier, Miho, additional, Démoulin, Pascal, additional, Boakes, Peter, additional, Devos, Andy, additional, Kraaikamp, Emil, additional, Mays, Mona L., additional, and Vršnak, Bojan, additional

Published

2015

29. The churning photosphere

Author

Kraaikamp, Emil

Subjects

Sun-spots -- Observations, Solar photosphere -- Observations, Astronomy

Abstract

This extremely high-resolution view of a sunspot complex last April 23rd reveals solar granules where superheated hydrogen gas rises to the top of the photosphere. Details: Meade Starfinder 10-inch Newtonian [...]

Published

2011

30. Strong coronal deflection of a CME and its interplanetary evolution to Earth and Mars

Author

Christian Möstl, Rollett, Tanja, Frahm, Rudy A., Liu, Ying D., Long, David M., Colaninno, Robin C., Reiss, Martin A., Temmer, Manuela, Farrugia, Charles J., Posner, Arik, Dumbovic, Mateja, Janvier, Miho, Demoulin, Pascal, Boakes, Peter, Devos, Andy, Kraaikamp, Emil, Mays, Mona L., and Vrsnak, Bojan