Your search keyword '"Knölker, M."' showing total 203 results

1. The Visible Spectro-Polarimeter of the Daniel K. Inouye Solar Telescope

Author

de Wijn, A. G., Casini, R., Carlile, A., Lecinski, A. R., Sewell, S., Zmarzly, P., Eigenbrot, A. D., Beck, C., Wöger, F., and Knölker, M.

Subjects

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

Abstract

The Daniel K. Inouye Solar Telescope (DKIST) Visible Spectro-Polarimeter (ViSP) is a traditional slit-scanning spectrograph, with the ability to observe solar regions up to a $120\times78~\mathrm{arcsec}^2$ area. The design implements dual-beam polarimetry, a polychromatic polarization modulator, a high-dispersion echelle grating, and three spectral channels that can be automatically positioned. A defining feature of the instrument is its capability to tune anywhere within the 380-900~nm range of the solar spectrum, allowing for a virtually infinite number of combinations of three wavelengths to be observed simultaneously. This enables the ViSP user to pursue well-established spectro-polarimetric studies of the magnetic structure and plasma dynamics of the solar atmosphere, as well as completely novel investigations of the solar spectrum. Within the suite of first-generation instruments at the DKIST, ViSP is the only wavelength-versatile spectro-polarimeter available to the scientific community. It was specifically designed to be a discovery instrument, for the exploration of new spectroscopic and polarimetric diagnostics, and to test improved models of polarized line formation, through high spatial-, spectral-, and temporal-resolution observations of the Sun's polarized spectrum. In this instrument article, we describe the science requirements and design drivers of ViSP, and we present preliminary science data collected during the commissioning of the instrument.

Published

2022

2. Power spectrum of turbulent convection in the solar photosphere

Author

Chaouche, L. Yelles, Cameron, R. H., Solanki, S. K., Riethmüller, T. L., Anusha, L. S., Witzke, V., Shapiro, A. I., Barthol, P., Gandorfer, A., Gizon, L., Hirzberger, J., van Noort, M., Rodríguez, J. Blanco, Iniesta, J. C. Del Toro, Suárez, D. Orozco, Schmidt, W., Pillet, V. Martínez, and Knölker, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The solar photosphere provides us with a laboratory for understanding turbulence in a layer where the fundamental processes of transport vary rapidly and a strongly superadiabatic region lies very closely to a subadiabatic layer. Our tools for probing the turbulence are high-resolution spectropolarimetric observations such as have recently been obtained with the two sunrise missions, and numerical simulations. Our aim is to study photospheric turbulence with the help of Fourier power spectra that we compute from observations and simulations. We also attempt to explain some properties of the photospheric overshooting flow with the help of its governing equations and simulations. We find that quiet-Sun observations and smeared simulations exhibit a power-law behavior in the subgranular range of their Doppler velocity power spectra with an index of$~\approx -2$. The unsmeared simulations exhibit a power-law index of$~\approx -2.25$. The smearing considerably reduces the extent of the power-law-like portion of the spectra. Therefore, the limited spatial resolution in some observations might eventually result in larger uncertainties in the estimation of the power-law indices. The simulated vertical velocity power spectra as a function of height show a rapid change in the power-law index from the solar surface to $300$~km above it. A scale-dependent transport of the vertical momentum occurs. At smaller scales, the vertical momentum is more efficiently transported sideways than at larger scales. This results in less vertical velocity power transported upward at small scales than at larger scales and produces a progressively steeper vertical velocity power law below $180$ km. Above this height, the gravity work progressively gains importance at all scales, making the atmosphere progressively more hydrostatic and resulting in a gradually less steep power law., Comment: 10 pages, 7 figures, Accepted in A and A

Published

2020

3. Maximum Entropy Limit of Small-scale Magnetic Field Fluctuations in the Quiet Sun

Author

Gorobets, A. Y., Berdyugina, S. V., Riethmüller, T. L., Rodríguez, J. Blanco, Solanki, S. K., Barthol, P., Gandorfer, A., Gizon, L., Hirzberger, J., van Noort, M., Iniesta, J. C. Del Toro, Suárez, D. Orozco, Schmidt, W., Pillet, V. Martínez, and Knölker, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The observed magnetic field on the solar surface is characterized by a very complex spatial and temporal behavior. Although feature-tracking algorithms have allowed us to deepen our understanding of this behavior, subjectivity plays an important role in the identification and tracking of such features. In this paper, we continue studies Gorobets, A. Y., Borrero, J. M., & Berdyugina, S. 2016, ApJL, 825, L18 of the temporal stochasticity of the magnetic field on the solar surface without relying either on the concept of magnetic features or on subjective assumptions about their identification and interaction. We propose a data analysis method to quantify fluctuations of the line-of-sight magnetic field by means of reducing the temporal field's evolution to the regular Markov process. We build a representative model of fluctuations converging to the unique stationary (equilibrium) distribution in the long time limit with maximum entropy. We obtained different rates of convergence to the equilibrium at fixed noise cutoff for two sets of data. This indicates a strong influence of the data spatial resolution and mixing-polarity fluctuations on the relaxation process. The analysis is applied to observations of magnetic fields of the relatively quiet areas around an active region carried out during the second flight of the Sunrise/IMaX and quiet Sun areas at the disk center from the Helioseismic and Magnetic Imager on board the Solar Dynamics Observatory satellite., Comment: 11 pages, 5 figures, The Astrophysical Journal Supplement Series (accepted)

Published

2017

4. Oscillations on width and intensity of slender Ca II H fibrils from Sunrise/SuFI

Author

Gafeira, R., Jafarzadeh, S., Solanki, S. K., Lagg, A., Van Noort, M., Barthol, P., RodrÍguez, J. Blanco, Iniesta, J. C. Del Toro, Gandorfer, A., Gizon, L., Hirzberger, J., KnÖlker, M., SuÁrez, D. Orozco, RiethmÜller, T. L., and Schmidt, W.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We report the detection of oscillations in slender Ca II H fibrils (SCFs) from high-resolution observations acquired with the Sunrise balloon-borne solar observatory. The SCFs show obvious oscillations in their intensity, but also their width. The oscillatory behaviors are investigated at several positions along the axes of the SCFs. A large majority of fibrils show signs of oscillations in intensity. Their periods and phase speeds are analyzed using a wavelet analysis. The width and intensity perturbations have overlapping distributions of the wave period. The obtained distributions have median values of the period of $32\pm17$s and $36\pm25$s, respectively. We find that the fluctuations of both parameters propagate in the SCFs with speeds of ${11}^{+49}_{-11}$ km/s and ${15}^{+34}_{-15}$ km/s, respectively. Furthermore, the width and intensity oscillations have a strong tendency to be either in anti-phase, or, to a smaller extent, in phase. This suggests that the oscillations of both parameters are caused by the same wave mode and that the waves are likely propagating. Taking all the evidence together, the most likely wave mode to explain all measurements and criteria is the fast sausage mode., Comment: Accepted for publication in The Astrophysical Journal Supplement Series

Published

2017

5. The second flight of the SUNRISE balloon-borne solar observatory: overview of instrument updates, the flight, the data and first results

Author

Solanki, S. K., Riethmüller, T. L., Barthol, P., Danilovic, S., Deutsch, W., Doerr, H. P., Feller, A., Gandorfer, A., Germerott, D., Gizon, L., Grauf, B., Heerlein, K., Hirzberger, J., Kolleck, M., Lagg, A., Meller, R., Tomasch, G., van Noort, M., Rodríguez, J. Blanco, Blesa, J. L. Gasent, Jiménez, M. Balaguer, Iniesta, J. C. Del Toro, Jiménez, A. C. López, Suárez, D. Orozco, Berkefeld, T., Halbgewachs, C., Schmidt, W., Álvarez-Herrero, A., Sabau-Graziati, L., Grande, I. Pérez, Pillet, V. Martínez, Card, G., Centeno, R., Knölker, M., and Lecinski, A.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The SUNRISE balloon-borne solar observatory, consisting of a 1~m aperture telescope that provided a stabilized image to a UV filter imager and an imaging vector polarimeter, carried out its second science flight in June 2013. It provided observations of parts of active regions at high spatial resolution, including the first high-resolution images in the Mg~{\sc ii}~k line. The obtained data are of very high quality, with the best UV images reaching the diffraction limit of the telescope at 3000~\AA\ after Multi-Frame Blind Deconvolution reconstruction accounting for phase-diversity information. Here a brief update is given of the instruments and the data reduction techniques, which includes an inversion of the polarimetric data. Mainly those aspects that evolved compared with the first flight are described. A tabular overview of the observations is given. In addition, an example time series of a part of the emerging active region NOAA AR~11768 observed relatively close to disk centre is described and discussed in some detail. The observations cover the pores in the trailing polarity of the active region, as well as the polarity inversion line where flux emergence was ongoing and a small flare-like brightening occurred in the course of the time series. The pores are found to contain magnetic field strengths ranging up to 2500~G and, while large pores are clearly darker and cooler than the quiet Sun in all layers of the photosphere, the temperature and brightness of small pores approach or even exceed those of the quiet Sun in the upper photosphere., Comment: Accepted for publication in The Astrophysical Journal

Published

2017

6. Magneto-static modelling from SUNRISE/IMaX: Application to an active region observed with SUNRISE II

Author

Wiegelmann, T., Neukirch, T., Nickeler, D. H., Solanki, S. K., Barthol, P., Gandorfer, A., Gizon, L., Hirzberger, J., Riethmüller, T. L., van Noort, M., Rodríguez, J. Blanco, Iniesta, J. C. Del Toro, Suárez, D. Orozco, Schmidt, W., Pillet, V. Martínez, and Knölker, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Magneto-static models may overcome some of the issues facing force-free magnetic field extrapolations. So far they have seen limited use and have faced problems when applied to quiet-Sun data. Here we present a first application to an active region. We use solar vector magnetic field measurements gathered by the IMaX polarimeter during the flight of the \sunrise{} balloon-borne solar observatory in June 2013 as boundary condition for a magneto-static model of the higher solar atmosphere above an active region. The IMaX data are embedded in active region vector magnetograms observed with SDO/HMI. This work continues our magneto-static extrapolation approach, which has been applied earlier ({\it Paper I}) to a quiet Sun region observed with \sunrise{} I. In an active region the signal-to-noise-ratio in the measured Stokes parameters is considerably higher than in the quiet Sun and consequently the IMaX measurements of the horizontal photospheric magnetic field allow us to specify the free parameters of the model in a special class of linear magneto-static equilibria. The high spatial resolution of IMaX (110-130 km, pixel size 40 km) enables us to model the non-force-free layer between the photosphere and the mid chromosphere vertically by about 50 grid points. In our approach we can incorporate some aspects of the mixed beta layer of photosphere and chromosphere, e.g., taking a finite Lorentz force into account, which was not possible with lower resolution photospheric measurements in the past. The linear model does not, however, permit to model intrinsic nonlinear structures like strongly localized electric currents., Comment: Accepted for APJS, Sunrise special issue

Published

2017

7. Spectropolarimetric evidence for a siphon flow along an emerging magnetic flux tube

Author

Requerey, Iker S., Cobo, B. Ruiz, Iniesta, J. C. Del Toro, Suárez, D. Orozco, Rodríguez, J. Blanco, Solanki, S. K., Barthol, P., Gandorfer, A., Gizon, L., Hirzberger, J., Riethmüller, T. L., van Noort, M., Schmidt, W., Pillet, V. Martínez, and Knölker, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We study the dynamics and topology of an emerging magnetic flux concentration using high spatial resolution spectropolarimetric data acquired with the Imaging Magnetograph eXperiment on board the Sunrise balloon-borne solar observatory. We obtain the full vector magnetic field and the line-of-sight (LOS) velocity through inversions of the Fe I line at 525.02 nm with the SPINOR code. The derived vector magnetic field is used to trace magnetic field lines. Two magnetic flux concentrations with different polarity and LOS velocities are found to be connected by a group of arch-shaped magnetic field lines. The positive polarity footpoint is weaker (1100 G) and displays an upflow, while the negative polarity footpoint is stronger (2200 G) and shows a downflow. This configuration is naturally interpreted as a siphon flow along an arched magnetic flux tube., Comment: Accepted for publication in ApJS

Published

2016

8. A new MHD-assisted Stokes inversion technique

Author

Riethmüller, T. L., Solanki, S. K., Barthol, P., Gandorfer, A., Gizon, L., Hirzberger, J., van Noort, M., Rodríguez, J. Blanco, Iniesta, J. C. Del Toro, Suárez, D. Orozco, Schmidt, W., Pillet, V. Martínez, and Knölker, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present a new method of Stokes inversion of spectropolarimetric data and evaluate it by taking the example of a SUNRISE/IMaX observation. An archive of synthetic Stokes profiles is obtained by the spectral synthesis of state-of-the-art magnetohydrodynamics (MHD) simulations and a realistic degradation to the level of the observed data. The definition of a merit function allows the archive to be searched for the synthetic Stokes profiles that match the observed profiles best. In contrast to traditional Stokes inversion codes, which solve the Unno-Rachkovsky equations for the polarized radiative transfer numerically and fit the Stokes profiles iteratively, the new technique provides the full set of atmospheric parameters. This gives us the ability to start an MHD simulation that takes the inversion result as initial condition. After a relaxation process of half an hour solar time we obtain physically consistent MHD data sets with a target similar to the observation. The new MHD simulation is used to repeat the method in a second iteration, which further improves the match between observation and simulation, resulting in a factor of 2.2 lower mean $\chi^2$ value. One advantage of the new technique is that it provides the physical parameters on a geometrical height scale. It constitutes a first step towards inversions giving results consistent with the MHD equations., Comment: Accepted for publication in the Astrophysical Journal on Nov. 15 2016 (part of the Sunrise2 special issue)

Published

2016

9. Solar Coronal Loops Associated with Small-scale Mixed Polarity Surface Magnetic Fields

Author

Chitta, L. P., Peter, H., Solanki, S. K., Barthol, P., Gandorfer, A., Gizon, L., Hirzberger, J., Riethmueller, T. L., van Noort, M., Rodriguez, J. Blanco, Iniesta, J. C. Del Toro, Suarez, D. Orozco, Schmidt, W., Pillet, V. Martinez, and Knoelker, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

How and where are coronal loops rooted in the solar lower atmosphere? The details of the magnetic environment and its evolution at the footpoints of coronal loops are crucial to understanding the processes of mass and energy supply to the solar corona. To address the above question, we use high-resolution line-of-sight magnetic field data from the Imaging Magnetograph eXperiment instrument on the SUNRISE balloon-borne observatory and coronal observations from the Atmospheric Imaging Assembly onboard the Solar Dynamics Observatory of an emerging active region. We find that the coronal loops are often rooted at the locations with minor small-scale but persistent opposite-polarity magnetic elements very close to the larger dominant polarity. These opposite-polarity small-scale elements continually interact with the dominant polarity underlying the coronal loop through flux cancellation. At these locations we detect small inverse Y-shaped jets in chromospheric Ca II H images obtained from the SUNRISE Filter Imager during the flux cancellation. Our results indicate that magnetic flux cancellation and reconnection at the base of coronal loops due to mixed polarity fields might be a crucial feature for the supply of mass and energy into the corona., Comment: Published in the Astrophysical Journal Supplement Series

Published

2016

10. Kinematics of Magnetic Bright Features in the Solar Photosphere

Author

Jafarzadeh, Shahin, Solanki, S. K., Cameron, R. H., Barthol, P., Rodriguez, J. Blanco, Iniesta, J. C. del Toro, Gandorfer, A., Gizon, L., Hirzberger, J., Knoelker, M., Pillet, V. Martinez, Suarez, D. Orozco, Riethmueller, T. L., Schmidt, W., and van Noort, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Convective flows are known as the prime means of transporting magnetic fields on the solar surface. Thus, small magnetic structures are good tracers of the turbulent flows. We study the migration and dispersal of magnetic bright features (MBFs) in intergranular areas observed at high spatial resolution with Sunrise/IMaX. We describe the flux dispersal of individual MBFs as a diffusion process whose parameters are computed for various areas in the quiet Sun and the vicinity of active regions from seeing-free data. We find that magnetic concentrations are best described as random walkers close to network areas (diffusion index, gamma=1.0), travelers with constant speeds over a supergranule (gamma=1.9-2.0), and decelerating movers in the vicinity of flux emergence and/or within active regions (gamma=1.4-1.5). The three types of regions host MBFs with mean diffusion coefficients of 130 km^2/s, 80-90 km^2/s, and 25-70 km^2/s, respectively. The MBFs in these three types of regions are found to display a distinct kinematic behavior at a confidence level in excess of 95%., Comment: 8 pages, 4 figures

Published

2016

11. Transverse Oscillations in Slender Ca II H Fibrils Observed with Sunrise/SuFI

Author

Jafarzadeh, Shahin, Solanki, S. K., Gafeira, R., van Noort, M., Barthol, P., Rodriguez, J. Blanco, Iniesta, J. C. del Toro, Gandorfer, A., Gizon, L., Hirzberger, J., Knoelker, M., Suarez, D. Orozco, Riethmueller, T. L., and Schmidt, W.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present observations of transverse oscillations in slender Ca II H fibrils (SCFs) in the lower solar chromosphere. We use a 1 hr long time series of high- (spatial and temporal-) resolution seeing-free observations in a 0.11 nm wide passband covering the line core of Ca II H 396.9 nm from the second flight of the Sunrise balloon-borne solar observatory. The entire field of view, spanning the polarity inversion line of an active region close to the solar disk center, is covered with bright, thin, and very dynamic fine structures. Our analysis reveals the prevalence of transverse waves in SCFs with median amplitudes and periods on the order of 2.4+-0.8 km/s and 83+-29 s, respectively (with standard deviations given as uncertainties). We find that the transverse waves often propagate along (parts of) the SCFs with median phase speeds of 9+-14 km/s. While the propagation is only in one direction along the axis in some of the SCFs, propagating waves in both directions, as well as standing waves are also observed. The transverse oscillations are likely Alfvenic and are thought to be representative of magnetohydrodynamic kink waves. The wave propagation suggests that the rapid high-frequency transverse waves, often produced in the lower photosphere, can penetrate into the chromosphere with an estimated energy flux of ~ 15 kW/m^2. Characteristics of these waves differ from those reported for other fibrillar structures, which, however, were observed mainly in the upper solar chromosphere., Comment: 12 pages, 9 figures

Published

2016

12. Slender Ca II H Fibrils Mapping Magnetic Fields in the Low Solar Chromosphere

Author

Jafarzadeh, Shahin, Rutten, R. J., Solanki, S. K., Wiegelmann, T., Riethmueller, T., van Noort, M., Szydlarski, M., Rodriguez, J. Blanco, Barthol, P., Iniesta, J. C. del Toro, Gandorfer, A., Gizon, L., Hirzberger, J., Knoelker, M., Pillet, V. Martinez, Suarez, D. Orozco, and Schmidt, W.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

A dense forest of slender bright fibrils near a small solar active region is seen in high-quality narrowband Ca II H images from the SuFI instrument onboard the Sunrise balloon-borne solar observatory. The orientation of these slender Ca II H fibrils (SCF) overlaps with the magnetic field configuration in the low solar chromosphere derived by magnetostatic extrapolation of the photospheric field observed with Sunrise/IMaX and SDO/HMI. In addition, many observed SCFs are qualitatively aligned with small-scale loops computed from a novel inversion approach based on best-fit numerical MHD simulation. Such loops are organized in canopy-like arches over quiet areas that differ in height depending on the field strength near their roots., Comment: 11 pages, 7 figures

Published

2016

13. Moving Magnetic Features around a Pore

Author

Kaithakkal, A. J., Riethmüller, T. L., Solanki, S. K., Lagg, A., Barthol, P., Gandorfer, A., Gizon, L., Hirzberger, J., vanNoort, M., Rodríguez, J. Blanco, Iniesta, J. C. Del Toro, Suárez, D. Orozco, Schmidt, W., Pillet, V. Martínez, and Knölker, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Spectropolarimetric observations from Sunrise II/IMaX obtained in June 2013 are used for a statistical analysis to determine the physical properties of moving magnetic features (MMFs) observed near a pore. MMFs of the same and opposite polarity with respect to the pore are found to stream from its border at an average speed of 1.3 km s$^{-1}$ and 1.2 km s$^{-1}$ respectively, with mainly same-polarity MMFs found further away from the pore. MMFs of both polarities are found to harbor rather weak, inclined magnetic fields. Opposite-polarity MMFs are blue-shifted, while same-polarity MMFs do not show any preference for up- or downflows. Most of the MMFs are found to be of sub-arcsecond size and carry a mean flux of $\sim$ 1.2$\times 10^{17}$ Mx., Comment: 8 pages, 4 figures, accepted for publication in ApJS

Published

2016

14. Photospheric response to EB-like event

Author

Danilovic, S., Solanki, S. K., Barthol, P., Gandorfer, A., Gizon, L., Hirzberger, J., van Noort, T. L. Riethmüller M., Rodríguez, J. Blanco, Iniesta, J. C. Del Toro, Suárez, D. Orozco, Schmidt, W., Pillet, V. Martínez, and Knölker, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Ellerman Bombs are signatures of magnetic reconnection, which is an important physical process in the solar atmosphere. How and where they occur is a subject of debate. In this paper we analyse Sunrise/IMaX data together with 3D MHD simulations that aim to reproduce the exact scenario proposed for the formation of these features. Although the observed event seems to be more dynamic and violent than the simulated one, simulations clearly confirm the basic scenario for the production of EBs. The simulations also reveal the full complexity of the underlying process. The simulated observations show that the Fe I 525.02 nm line gives no information on the height where reconnection takes place. It can only give clues about the heating in the aftermath of the reconnection. The information on the magnetic field vector and velocity at this spatial resolution is, however, extremely valuable because it shows what numerical models miss and how they can be improved., Comment: accepted in ApJS after minor changes; movies: http://www2.mps.mpg.de/data/outgoing/danilovic/ebs/

Published

2016

15. The role of isotope mass on neutral fueling and density pedestal structure in the DIII-D tokamak

Author

Chaban, Ryan A, primary, Mordijck, Saskia, additional, Rosenthal, Aaron Michael, additional, Bortolon, Alessandro, additional, Hughes, Jerry W, additional, Knölker, M, additional, Laggner, Florian M, additional, Osborne, Tom H, additional, Schmitz, Lothar, additional, Thome, Kathreen E, additional, and Wilks, Theresa M, additional

Published

2024

16. Progress towards edge-localized mode suppression via magnetic perturbations in hydrogen plasmas

Author

Leuthold, Nils, primary, Suttrop, Wolfgang, additional, Paz-Soldan, Carlos, additional, Dunne, Mike G, additional, Fischer, Rainer, additional, Hinson, Edward, additional, Knölker, M, additional, Laggner, Florian M, additional, Logan, Nikolas, additional, Osborne, Tom H, additional, Orlov, Dmitri M, additional, Schmitz, Lothar, additional, Shafer, Morgan, additional, and Willensdorfer, Matthias, additional

Published

2023

17. First high-resolution images of the Sun in the 2796 \AA{} Mg II k line

Author

Riethmüller, T. L., Solanki, S. K., Hirzberger, J., Danilovic, S., Barthol, P., Berkefeld, T., Gandorfer, A., Gizon, L., Knölker, M., Schmidt, W., and Iniesta, J. C. Del Toro

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present the first high-resolution solar images in the Mg II k 2796 \AA{} line. The images, taken through a 4.8 \AA{} broad interference filter, were obtained during the second science flight of SUNRISE in June 2013 by the SuFI instrument. The Mg II k images display structures that look qualitatively very similar to images taken in the core of Ca II H. The Mg II images exhibit reversed granulation (or shock waves) in the internetwork regions of the quiet Sun, at intensity contrasts that are similar to those found in Ca II H. Very prominent in Mg II are bright points, both in the quiet Sun and in plage regions, particularly near disk center. These are much brighter than at other wavelengths sampled at similar resolution. Furthermore, Mg II k images also show fibril structures associated with plage regions. Again, the fibrils are similar to those seen in Ca II H images, but tend to be more pronounced, particularly in weak plage., Comment: Accepted for publication in The Astrophysical Journal Letters

Published

2013

18. Magnetic field emergence in mesogranular-sized exploding granules observed with SUNRISE/IMaX data

Author

Palacios, J., Rodríguez, J. Blanco, Domínguez, S. Vargas, Domingo, V., Pillet, V. Martínez, Bonet, J. A., Rubio, L. R. Bellot, Iniesta, J. C. del Toro, Solanki, S. K., Barthol, P., Gandorfer, A., Berkefeld, T., Schmidt, W., and Knölker, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We report on magnetic field emergences covering significant areas of exploding granules. The balloon-borne mission SUNRISE provided high spatial and temporal resolution images of the solar photosphere. Continuum images, longitudinal and transverse magnetic field maps and Dopplergrams obtained by IMaX onboard SUNRISE are analyzed by Local Correlation Traking (LCT), divergence calculation and time slices, Stokes inversions and numerical simulations are also employed. We characterize two mesogranular-scale exploding granules where $\sim$ 10$^{18}$ Mx of magnetic flux emerges. The emergence of weak unipolar longitudinal fields ($\sim$100 G) start with a single visible magnetic polarity, occupying their respective granules' top and following the granular splitting. After a while, mixed polarities start appearing, concentrated in downflow lanes. The events last around 20 min. LCT analyses confirm mesogranular scale expansion, displaying a similar pattern for all the physical properties, and divergence centers match between all of them. We found a similar behaviour with the emergence events in a numerical MHD simulation. Granule expansion velocities are around 1 \kms while magnetic patches expand at 0.65 \kms. One of the analyzed events evidences the emergence of a loop-like structure. Advection of the emerging magnetic flux features is dominated by convective motion resulting from the exploding granule due to the magnetic field frozen in the granular plasma. Intensification of the magnetic field occurs in the intergranular lanes, probably because of being directed by the downflowing plasma., Comment: 7 pages, 6 figures

Published

2011

19. The frontier between Small-scale bipoles and Ephemeral Regions in the solar photosphere: Emergence and Decay of an Intermediate-scale bipole observed with IMaX/SUNRISE

Author

Guglielmino, S. L., Pillet, V. Martínez, Bonet, J. A., Iniesta, J. Carlos del Toro, Rubio, L. R. Bellot, Solanki, S. K., Schmidt, W., Gandorfer, A., Barthol, P., and Knölker, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We report on the photospheric evolution of an intermediate-scale (~4 Mm footpoint separation) magnetic bipole, from emergence to decay, observed in the quiet Sun at high spatial 0".3 and temporal (33 s) resolution. The observations were acquired by the IMaX imaging magnetograph during the first science flight of the Sunrise balloon-borne solar observatory. The bipole flux content is 6 x 10^17 Mx, representing a structure bridging the gap between granular scale bipoles and the smaller ephemeral regions. Footpoints separate at a speed of 3.5 km s-1 and reach a maximum distance of 4.5 Mm before the field dissolves. The evolution of the bipole is revealed to be very dynamic: we found a proper motion of the bipole axis and detected a change of the azimuth angle of 90{\deg} in 300 seconds. The overall morphology and behaviour are in agreement with previous analyses of bipolar structures emerging at granular scale, but we also found several similarities with emerging flux structures at larger scale. The flux growth rate is 2.6 x 15 Mx s-1, while the mean decay rate is one order of magnitude smaller. We describe in some detail the decay phase of the bipole footpoints which includes break up into smaller structures, interaction with pre-existing fields leading to cancellation but appears to be dominated by an as-yet unidentified diffusive process that removes most of the flux with an exponential flux decay curve. The diffusion constant (8 x 10^2 km^2 s-1) associated with this decay is similar to the values used to describe the large scale diffusion in flux transport models., Comment: in press for ApJ

Published

2011

20. Mesogranulation and the solar surface magnetic field distribution

Author

Chaouche, L. Yelles, Moreno-Insertis, F., Pillet, V. Martínez, Wiegelmann, T., Bonet, J. A., Knölker, M., Rubio, L. R. Bellot, Iniesta, J. C. del Toro, Barthol, P., Gandorfer, A., Schmidt, W., and Solanki, S. K.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The relation of the solar surface magnetic field with mesogranular cells is studied using high spatial (~ 100 km) and temporal (~ 30 sec) resolution data obtained with the IMaX instrument aboard SUNRISE. First, mesogranular cells are identified using Lagrange tracers (corks) based on horizontal velocity fields obtained through Local Correlation Tracking. After ~ 20 min of integration, the tracers delineate a sharp mesogranular network with lanes of width below about 280 km. The preferential location of magnetic elements in mesogranular cells is tested quantitatively. Roughly 85% of pixels with magnetic field higher than 100 G are located in the near neighborhood of mesogranular lanes. Magnetic flux is therefore concentrated in mesogranular lanes rather than intergranular ones. Secondly, magnetic field extrapolations are performed to obtain field lines anchored in the observed flux elements. This analysis, therefore, is independent of the horizontal flows determined in the first part. A probability density function (PDF) is calculated for the distribution of distances between the footpoints of individual magnetic field lines. The PDF has an exponential shape at scales between 1 and 10 Mm, with a constant characteristic decay distance, indicating the absence of preferred convection scales in the mesogranular range. Our results support the view that mesogranulation is not an intrinsic convective scale (in the sense that it is not a primary energy-injection scale of solar convection), but also give quantitative confirmation that, nevertheless, the magnetic elements are preferentially found along mesogranular lanes., Comment: Accepted for publication in ApJ Letters, 16 pages, 5 figures

Published

2010

21. Discovery of a 1.6-year Magnetic Activity Cycle in the Exoplanet Host Star iota Horologii

Author

Metcalfe, T. S., Basu, S., Henry, T. J., Soderblom, D. R., Judge, P. G., Knoelker, M., Mathur, S., and Rempel, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

The Mount Wilson Ca HK survey revealed magnetic activity variations in a large sample of solar-type stars with timescales ranging from 2.5 to 25 years. This broad range of cycle periods is thought to reflect differences in the rotational properties and the depths of the surface convection zones for stars with various masses and ages. In 2007 we initiated a long-term monitoring campaign of Ca II H and K emission for a sample of 57 southern solar-type stars to measure their magnetic activity cycles and their rotational properties when possible. We report the discovery of a 1.6-year magnetic activity cycle in the exoplanet host star iota Horologii, and we obtain an estimate of the rotation period that is consistent with Hyades membership. This is the shortest activity cycle so far measured for a solar-type star, and may be related to the short-timescale magnetic variations recently identified in the Sun and HD49933 from helio- and asteroseismic measurements. Future asteroseismic observations can be compared to those obtained near the magnetic minimum in 2006 to search for cycle-induced shifts in the oscillation frequencies. If such short activity cycles are common in F stars, then NASA's Kepler mission should observe their effects in many of its long-term asteroseismic targets., Comment: 5 pages, 2 figures, 1 table, ApJ Letters accepted

Published

2010

22. Surface waves in solar granulation observed with {\sc Sunrise}

Author

Roth, M., Franz, M., González, N. Bello, Pillet, V. Martínez, Bonet, J. A., Gandorfer, A., Barthol, P., Solanki, S. K., Berkefeld, T., Schmidt, W., Iniesta, J. C. del Toro, Domingo, V., and Knölker, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Solar oscillations are expected to be excited by turbulent flows in the intergranular lanes near the solar surface. Time series recorded by the IMaX instrument aboard the {\sc Sunrise} observatory reveal solar oscillations at high resolution, which allow studying the properties of oscillations with short wavelengths. We analyze two times series with synchronous recordings of Doppler velocity and continuum intensity images with durations of 32\thinspace min and 23\thinspace min, resp., recorded close to the disk center of the Sun to study the propagation and excitation of solar acoustic oscillations. In the Doppler velocity data, both the standing acoustic waves and the short-lived, high-degree running waves are visible. The standing waves are visible as temporary enhancements of the amplitudes of the large-scale velocity field due to the stochastic superposition of the acoustic waves. We focus on the high-degree small-scale waves by suitable filtering in the Fourier domain. Investigating the propagation and excitation of $f$- and $p_1$-modes with wave numbers $k > 1.4$\thinspace 1/Mm we find that also exploding granules contribute to the excitation of solar $p$-modes in addition to the contribution of intergranular lanes., Comment: 12 pages, 4 figures, to appear in a special volume on Sunrise in Astrophysical Journal Letters

Published

2010

23. Detection of large acoustic energy flux in the solar atmosphere

Author

González, N. Bello, Franz, M., Pillet, V. Martínez, Bonet, J. A., Solanki, S. K., Iniesta, J. C. del Toro, Schmidt, W., Gandorfer, A., Domingo, V., Barthol, P., Berkefeld, T., and Knölker, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We study the energy flux carried by acoustic waves excited by convective motions at sub-photospheric levels. The analysis of high-resolution spectropolarimetric data taken with IMaX/Sunrise provides a total energy flux of ~ 6400--7700 Wm$^{-2}$ at a height of ~ 250 km in the 5.2-10 mHz range, i.e. at least twice the largest energy flux found in previous works. Our estimate lies within a factor of 2 of the energy flux needed to balance radiative losses from the chromosphere according to Anderson & Athay (1989) and revives interest in acoustic waves for transporting energy to the chromosphere. The acoustic flux is mainly found in the intergranular lanes but also in small rapidly-evolving granules and at the bright borders, forming dark dots and lanes of splitting granules., Comment: Accepted on ApJ Letters as part of the special Sunrise issue

Published

2010

24. The Wave-Front Correction System for the Sunrise Balloon-Borne Solar Observatory

Author

Berkefeld, T., Schmidt, W., Soltau, D., Bell, A., Doerr, H. P., Feger, B., Friedlein, R., Gerber, K., Heidecke, F., Kentischer, T., Lühe, O. v. d., Sigwarth, M., Wälde, E., Barthol, P., Deutsch, W., Gandorfer, A., Germerott, D., Grauf, B., Meller, R., Alvarez-Herrero, A., Knölker, M., Pillet, V. Martinez, Solanki, S. K., and Title, A. M.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

This paper describes the wave-front correction system developed for the Sunrise balloon telescope, and provides information about its in-flight performance. For the correction of low-order aberrations, a Correlating Wave-Front Sensor (CWS) was used. It consisted of a six-element Shack-Hartmann wave-front sensor (WFS), a fast tip-tilt mirror for the compensation of image motion, and an active telescope secondary mirror for focus correction. The CWS delivered a stabilized image with a precision of 0.04 arcsec (rms), whenever the coarse pointing was better than 90 arcsec peak-to-peak. The automatic focus adjustment maintained a focus stability of 0.01 waves in the focal plane of the CWS. During the 5.5 day flight, good image quality and stability was achieved during 33 hours, containing 45 sequences that lasted between 10 and 45 minutes.

Published

2010

25. SUNRISE/IMaX observations of convectively driven vortex flows in the Sun

Author

Bonet, J. A., Marquez, I., Almeida, J. Sanchez, Palacios, J., Pillet, V. Martinez, Solanki, S. K., Iniesta, J. C. del Toro, Domingo, V., Berkefeld, T., Schmidt, W., Gandorfer, A., Barthol, P., and Knoelker, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We characterize the observational properties of the convectively driven vortex flows recently discovered on the quiet Sun, using magnetograms, Dopplergrams and images obtained with the 1-m balloon-borne Sunrise telescope. By visual inspection of time series, we find some 3.1e-3 vortices/(Mm^2 min), which is a factor of 1.7 larger than previous estimates. The mean duration of the individual events turns out to be 7.9 min, with a standard deviation of 3.2 min. In addition, we find several events appearing at the same locations along the duration of the time series (31.6 min). Such recurrent vortices show up in the proper motion flow field map averaged over the time series. The typical vertical vorticities are <= 6e-3 1/sec, which corresponds to a period of rotation of some 35 min. The vortices show a preferred counterclockwise sense of rotation, which we conjecture may have to do with the preferred vorticity impinged by the solar differential rotation., Comment: To appear in ApJL. 5 Figs, 4 pages. The two animations associated with the work can be downloaded from http://www.iac.es/proyecto/solarhr/imaxvortex.html References updated in V2

Published

2010

26. Bright points in the quiet Sun as observed in the visible and near-UV by the balloon-borne observatory Sunrise

Author

Riethmueller, T. L., Solanki, S. K., Pillet, V. Martínez, Hirzberger, J., Feller, A., Bonet, J. A., González, N. Bello, Franz, M., Schüssler, M., Barthol, P., Berkefeld, T., Iniesta, J. C. del Toro, Domingo, V., Gandorfer, A., Knölker, M., and Schmidt, W.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Bright points (BPs) are manifestations of small magnetic elements in the solar photosphere. Their brightness contrast not only gives insight into the thermal state of the photosphere (and chromosphere) in magnetic elements, but also plays an important role in modulating the solar total and spectral irradiance. Here we report on simultaneous high-resolution imaging and spectropolarimetric observations of BPs using Sunrise balloon-borne observatory data of the quiet Sun at disk center. BP contrasts have been measured between 214 nm and 525 nm, including the first measurements at wavelengths below 388 nm. The histograms of the BP peak brightness show a clear trend toward broader contrast distributions and higher mean contrasts at shorter wavelengths. At 214 nm we observe a peak brightness of up to five times the mean quiet-Sun value, the highest BP contrast so far observed. All BPs are associated with a magnetic signal, although in a number of cases it is surprisingly weak. Most of the BPs show only weak downflows, the mean value being 240 m/s, but some display strong down- or upflows reaching a few km/s., Comment: Accepted for publication in The Astrophysical Journal Letters on September 08 2010

Published

2010

27. Supersonic Magnetic Upflows in Granular Cells Observed with Sunrise/IMaX

Author

Borrero, J. M., Pillet, V. Martinez, Schlichenmaier, R., Solanki, S. K., Bonet, J. A., Iniesta, J. C. del Toro, Schmidt, W., Barthol, P., Gandorfer, A., Domingo, V., and Knoelker, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Using the IMaX instrument on-board the Sunrise stratospheric balloon-telescope we have detected extremely shifted polarization signals around the Fe I 5250.217 {\AA} spectral line within granules in the solar photosphere. We interpret the velocities associated with these events as corresponding to supersonic and magnetic upflows. In addition, they are also related to the appearance of opposite polarities and highly inclined magnetic fields. This suggests that they are produced by the reconnection of emerging magnetic loops through granular upflows. The events occupy an average area of 0.046 arcsec$^2$ and last for about 80 seconds, with larger events having longer lifetimes. These supersonic events occur at a rate of $1.3\times10^{-5}$ occurrences per second per arcsec$^{2}$., Comment: Accepted for publication in ApJ Letters. To appear in Sunrise special issue of ApJ Letters, vol 721. 5 pages, 2 bw figures, 2 color figures. 4 movies are available at ftp://ftp.kis.uni-freiburg.de/personal/borrero/sunrise/

Published

2010

28. The Imaging Magnetograph eXperiment (IMaX) for the Sunrise balloon-borne solar observatory

Author

Pillet, V. Martinez, Iniesta, J. C. del Toro, Alvarez-Herrero, A., Domingo, V., Bonet, J. A., Fernandez, L. Gonzalez, Jimenez, A. Lopez, Pastor, C., Blesa, J. L. Gasent, Mellado, P., Piqueras, J., Aparicio, B., Balaguer, M., Ballesteros, E., Belenguer, T., Rubio, L. R. Bellot, Berkefeld, T., Collados, M., Deutsch, W., Feller, A., Girela, F., Grauf, B., Heredero, R. L., Herranz, M., Jeronimo, J. M., Laguna, H., Meller, R., Menendez, M., Morales, R., Suarez, D. Orozco, Ramos, G., Reina, M., Ramos, J. L., Rodriguez, P., Sanchez, A., Uribe-Patarroyo, N., Barthol, P., Gandorfer, A., Knoelker, M., Schmidt, W., Solanki, S. K., and Dominguez, S. Vargas

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The Imaging Magnetograph eXperiment (IMaX) is a spectropolarimeter built by four institutions in Spain that flew on board the Sunrise balloon-borne telesocope in June 2009 for almost six days over the Arctic Circle. As a polarimeter IMaX uses fast polarization modulation (based on the use of two liquid crystal retarders), real-time image accumulation, and dual beam polarimetry to reach polarization sensitivities of 0.1%. As a spectrograph, the instrument uses a LiNbO3 etalon in double pass and a narrow band pre-filter to achieve a spectral resolution of 85 mAA. IMaX uses the high Zeeman sensitive line of Fe I at 5250.2 AA and observes all four Stokes parameters at various points inside the spectral line. This allows vector magnetograms, Dopplergrams, and intensity frames to be produced that, after reconstruction, reach spatial resolutions in the 0.15-0.18 arcsec range over a 50x50 arcsec FOV. Time cadences vary between ten and 33 seconds, although the shortest one only includes longitudinal polarimetry. The spectral line is sampled in various ways depending on the applied observing mode, from just two points inside the line to 11 of them. All observing modes include one extra wavelength point in the nearby continuum. Gauss equivalent sensitivities are four Gauss for longitudinal fields and 80 Gauss for transverse fields per wavelength sample. The LOS velocities are estimated with statistical errors of the order of 5-40 m/s. The design, calibration and integration phases of the instrument, together with the implemented data reduction scheme are described in some detail., Comment: 17 figures

Published

2010

29. The Filter Imager SuFI and the Image Stabilization and Light Distribution System ISLiD of the Sunrise Balloon-Borne Observatory: Instrument Description

Author

Gandorfer, A., Grauf, B., Barthol, P., Riethmueller, T. L., Solanki, S. K., Chares, B., Deutsch, W., Ebert, S., Feller, A., Germerott, D., Heerlein, K., Heinrichs, J., Hirche, D., Hirzberger, J., Kolleck, M., Meller, R., Mueller, R., Schaefer, R., Tomasch, G., Knoelker, M., Pillet, V. Martinez, Bonet, J. A., Schmidt, W., Berkefeld, T., Feger, B., Heidecke, F., Soltau, D., Tischenberg, A., Fischer, A., Title, A., Anwand, H., and Schmidt, E.

Subjects

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

Abstract

We describe the design of the Sunrise Filter Imager (SuFI) and the Image Stabilization and Light Distribution (ISLiD) unit onboard the Sunrise balloon borne solar observatory. This contribution provides the necessary information which is relevant to understand the instruments working principles, the relevant technical data, and the necessary information about calibration issues directly related to the science data., Comment: accepted for publication in Solar Physics on 4 September 2010

Published

2010

30. Fully resolved quiet-Sun magnetic flux tube observed with the Sunrise IMaX instrument

Author

Lagg, A., Solanki, S. K., Riethmueller, T. L., Pillet, V. Martinez, Schuessler, M., Hirzberger, J., Feller, A., Borrero, J. M., Schmidt, W., Iniesta, J. C. del Toro, Bonet, J. A., Barthol, P., Berkefeld, T., Domingo, V., Gandorfer, A., Knoelker, M., and Title, A. M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Until today, the small size of magnetic elements in quiet Sun areas has required the application of indirect methods, such as the line-ratio technique or multi-component inversions, to infer their physical properties. A consistent match to the observed Stokes profiles could only be obtained by introducing a magnetic filling factor that specifies the fraction of the observed pixel filled with magnetic field. Here, we investigate the properties of a small magnetic patch in the quiet Sun observed with the IMaX magnetograph on board the balloon-borne telescope Sunrise with unprecedented spatial resolution and low instrumental stray light. We apply an inversion technique based on the numerical solution of the radiative transfer equation to retrieve the temperature stratification and the field strength in the magnetic patch. The observations can be well reproduced with a one-component, fully magnetized atmosphere with a field strength exceeding 1 kG and a significantly enhanced temperature in the mid- to upper photosphere with respect to its surroundings, consistent with semi-empirical flux tube models for plage regions. We therefore conclude that, within the framework of a simple atmospheric model, the IMaX measurements resolve the observed quiet-Sun flux tube., Comment: Accepted for publication in The Astrophysical Journal Letters on Aug 11 2010

Published

2010

31. Sunrise: instrument, mission, data and first results

Author

Solanki, S. K., Barthol, P., Danilovic, S., Feller, A., Gandorfer, A., Hirzberger, J., Riethmueller, T. L., Schüssler, M., Bonet, J. A., Pillet, V. Martínez, Iniesta, J. C. del Toro, Domingo, V., Palacios, J., Knölker, M., González, N. Bello, Berkefeld, T., Franz, M., Schmidt, W., and Title, A. M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The Sunrise balloon-borne solar observatory consists of a 1m aperture Gregory telescope, a UV filter imager, an imaging vector polarimeter, an image stabilization system and further infrastructure. The first science flight of Sunrise yielded high-quality data that reveal the structure, dynamics and evolution of solar convection, oscillations and magnetic fields at a resolution of around 100 km in the quiet Sun. After a brief description of instruments and data, first qualitative results are presented. In contrast to earlier observations, we clearly see granulation at 214 nm. Images in Ca II H display narrow, short-lived dark intergranular lanes between the bright edges of granules. The very small-scale, mixed-polarity internetwork fields are found to be highly dynamic. A significant increase in detectable magnetic flux is found after phase-diversity-related reconstruction of polarization maps, indicating that the polarities are mixed right down to the spatial resolution limit, and probably beyond., Comment: accepted by ApJL

Published

2010

32. Transverse component of the magnetic field in the solar photosphere observed by Sunrise

Author

Danilovic, S., Beeck, B., Pietarila, A., Schuessler, M., Solanki, S. K., Pillet, V. Martinez, Bonet, J. A., Iniesta, J. C. del Toro, Domingo, V., Barthol, P., Berkefeld, T., Gandorfer, A., Knoelker, M., Schmidt, W., and Title, A. M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present the first observations of the transverse component of photospheric magnetic field acquired by the imaging magnetograph Sunrise/IMaX. Using an automated detection method, we obtain statistical properties of 4536 features with significant linear polarization signal. Their rate of occurrence is 1-2 orders of magnitude larger than values reported by previous studies. We show that these features have no characteristic size or lifetime. They appear preferentially at granule boundaries with most of them being caught in downflow lanes at some point in their evolution. Only a small percentage are entirely and constantly embedded in upflows (16%) or downflows (8%)., Comment: Accepted for the Sunrise Special Issue of ApJL

Published

2010

33. Where the granular flows bend

Author

Khomenko, E., Pillet, V. Martinez, Solanki, S. K., Iniesta, J. C. del Toro, Gandorfer, A., Bonet, J. A., Domingo, V., Schmidt, W., Barthol, P., and Knoelker, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Based on IMaX/Sunrise data, we report on a previously undetected phenomenon in solar granulation. We show that in a very narrow region separating granules and intergranular lanes the spectral line width of the Fe I 5250.2 A line becomes extremely small. We offer an explanation of this observation with the help of magneto-convection simulations. These regions with extremely small line widths correspond to the places where the granular flows bend from mainly upflow in granules to downflow in intergranular lanes. We show that the resolution and image stability achieved by IMaX/Sunrise are important requisites to detect this interesting phenomenon., Comment: Accepted for the Sunrise Special Issue of ApJL

Published

2010

34. Activity Cycles of Southern Asteroseismic Targets

Author

Metcalfe, T. S., Judge, P. G., Basu, S., Henry, T. J., Soderblom, D. R., Knoelker, M., and Rempel, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The Mount Wilson Ca HK survey revealed magnetic activity variations in a large sample of solar-type stars with timescales ranging from 2.5 to 25 years. This broad range of cycle periods is thought to reflect differences in the rotational properties and the depths of the surface convection zones for stars with various masses and ages. Asteroseismic data will soon provide direct measurements of these quantities for individual stars, but many of the most promising targets are in the southern sky (e.g., alpha Cen A & B, beta Hyi, mu Ara, tau Cet, nu Ind), while long-term magnetic activity cycle surveys are largely confined to the north. In 2007 we began using the SMARTS 1.5-m telescope to conduct a long-term monitoring campaign of Ca II H & K emission for a sample of 57 southern solar-type stars to measure their magnetic activity cycles and their rotational properties when possible. This sample includes the most likely southern asteroseismic targets to be observed by the Stellar Oscillations Network Group (SONG), currently scheduled to begin operations in 2012. We present selected results from the first two years of the survey, and from the longer time baseline sampled by a single-epoch survey conducted in 1992., Comment: proceedings of the "Solar Analogs II" workshop

Published

2009

35. Penumbral structure and outflows in simulated sunspots

Author

Rempel, M., Schüssler, M., Cameron, R. H., and Knölker, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Sunspots are concentrations of magnetic field on the visible solar surface that strongly affect the convective energy transport in their interior and surroundings. The filamentary outer regions (penumbrae) of sunspots show systematic radial outward flows along channels of nearly horizontal magnetic field. These flows were discovered 100 years ago and are present in all fully developed sunspots. Using a comprehensive numerical simulation of a sunspot pair, we show that penumbral structures with such outflows form when the average magnetic field inclination to the vertical exceeds about 45 degrees. The systematic outflows are a component of the convective flows that provide the upward energy transport and result from anisotropy introduced by the presence of the inclined magnetic field., Comment: 19 pages, 8 figures, main Science article + supporting online material combined into one file

Published

2009

36. Access to stable, high pressure tokamak pedestals using local electron cyclotron current drive

Author

Logan, Nikolas, primary, Lyons, Brendan C., additional, Knölker, M, additional, Hu, Qiming, additional, Cote, Tyler, additional, and Snyder, Philip B, additional

Published

2023

37. Radiative MHD simulation of sunspot structure

Author

Rempel, M., Schuessler, M., and Knoelker, M.

Subjects

Astrophysics

Abstract

Results of a 3D MHD simulation of a sunspot with a photospheric size of about 20 Mm are presented. The simulation has been carried out with the MURaM code, which includes a realistic equation of state with partial ionization and radiative transfer along many ray directions. The largely relaxed state of the sunspot shows a division in a central dark umbral region with bright dots and a penumbra showing bright filaments of about 2 to 3 Mm length with central dark lanes. By a process similar to the formation of umbral dots, the penumbral filaments result from magneto-convection in the form of upflow plumes, which become elongated by the presence of an inclined magnetic field: the upflow is deflected in the outward direction while the magnetic field is weakened and becomes almost horizontal in the upper part of the plume near the level of optical depth unity. A dark lane forms owing to the piling up of matter near the cusp-shaped top of the rising plume that leads to an upward bulging of the surfaces of constant optical depth. The simulated penumbral structure corresponds well to the observationally inferred interlocking-comb structure of the magnetic field with Evershed outflows along dark-laned filaments with nearly horizontal magnetic field and overturning perpendicular (`twisting') motion, which are embedded in a background of stronger and less inclined field. Photospheric spectral lines are formed at the very top and somewhat above the upflow plumes, so that they do not fully sense the strong flow as well as the large field inclination and significant field strength reduction in the upper part of the plume structures., Comment: 10 pages, 11 figures. Added references, corrected typos, minor revisions. To be published in ApJ

Published

2008

38. Polarized Radiation Diagnostics of Magnetohydrodynamic Models of the Solar Atmosphere

Author

Steiner, O., Grossmann-Doerth, U., Schüssler, M., Knölker, M., Stenflo, J. O., editor, and Nagendra, K. N., editor

Published

1996

39. The Visible Spectro-Polarimeter of the Daniel K. Inouye Solar Telescope

Author

de Wijn, A. G., primary, Casini, R., additional, Carlile, A., additional, Lecinski, A. R., additional, Sewell, S., additional, Zmarzly, P., additional, Eigenbrot, A. D., additional, Beck, C., additional, Wöger, F., additional, and Knölker, M., additional

Published

2022

40. Dynamic Interaction of Convection with Magnetic Flux Sheets: First Results of a New MHD Code

Author

Steiner, O., Knölker, M., Schüssler, M., Rutten, Robert J., editor, and Schrijver, Carolus J., editor

Published

1994

41. Pellet triggering of edge localized modes in low collisionality pedestals at DIII-D

Author

Wilcox, Robert S, primary, Baylor, Larry R, additional, Bortolon, Alessandro, additional, Knölker, M, additional, Lasnier, C J, additional, Shiraki, Daisuke, additional, Bykov, Igor, additional, Chrystal, Colin, additional, Scotti, Filippo, additional, Paz-Soldan, Carlos, additional, and Wingen, Andreas, additional

Published

2021

42. Evolution of the Fine Structure of Magnetic Fields in the Quiet Sun: Observations from Sunrise/IMaX and Extrapolations

Author

Wiegelmann, T., Solanki, S. K., Borrero, J. M., Peter, H., Barthol, P., Gandorfer, A., Martínez Pillet, V., Schmidt, W., and Knölker, M.

Published

2013

43. The Wave-Front Correction System for the Sunrise Balloon-Borne Solar Observatory

Author

Berkefeld, T., Schmidt, W., Soltau, D., Bell, A., Doerr, H. P., Feger, B., Friedlein, R., Gerber, K., Heidecke, F., Kentischer, T., v. d. Lühe, O., Sigwarth, M., Wälde, E., Barthol, P., Deutsch, W., Gandorfer, A., Germerott, D., Grauf, B., Meller, R., Álvarez-Herrero, A., Knölker, M., Martínez Pillet, V., Solanki, S. K., and Title, A. M.

Published

2011

44. The Sunrise Mission

Author

Barthol, P., Gandorfer, A., Solanki, S. K., Schüssler, M., Chares, B., Curdt, W., Deutsch, W., Feller, A., Germerott, D., Grauf, B., Heerlein, K., Hirzberger, J., Kolleck, M., Meller, R., Müller, R., Riethmüller, T. L., Tomasch, G., Knölker, M., Lites, B. W., Card, G., Elmore, D., Fox, J., Lecinski, A., Nelson, P., Summers, R., Watt, A., Martínez Pillet, V., Bonet, J. A., Schmidt, W., Berkefeld, T., Title, A. M., Domingo, V., Gasent Blesa, J. L., del Toro Iniesta, J. C., López Jiménez, A., Álvarez-Herrero, A., Sabau-Graziati, L., Widani, C., Haberler, P., Härtel, K., Kampf, D., Levin, T., Pérez Grande, I., Sanz-Andrés, A., and Schmidt, E.

Published

2011

45. The Filter Imager SuFI and the Image Stabilization and Light Distribution System ISLiD of the Sunrise Balloon-Borne Observatory: Instrument Description

Author

Gandorfer, A., Grauf, B., Barthol, P., Riethmüller, T. L., Solanki, S. K., Chares, B., Deutsch, W., Ebert, S., Feller, A., Germerott, D., Heerlein, K., Heinrichs, J., Hirche, D., Hirzberger, J., Kolleck, M., Meller, R., Müller, R., Schäfer, R., Tomasch, G., Knölker, M., Martínez Pillet, V., Bonet, J. A., Schmidt, W., Berkefeld, T., Feger, B., Heidecke, F., Soltau, D., Tischenberg, A., Fischer, A., Title, A., Anwand, H., and Schmidt, E.

Published

2011

46. Power spectrum of turbulent convection in the solar photosphere

Author

Max Planck Society, Ministerio de Economía y Competitividad (España), European Commission, European Research Council, German Centre for Air and Space Travel, Yelles-Chaouche, A., Cameron, R. H., Solanki, S. K., Riethmüller, T. L., Anusha, L. S., Witzke, V., Shapiro, A. I., Barthol, P., Gandorfer, A., Gizon, L., Hirzberger, J., van Noort, M., Blanco Rodríguez, J., Toro, José Carlos del, Orozco Suárez, David, Schmidt, W., Martínez Pillet, V., Knölker, M., Max Planck Society, Ministerio de Economía y Competitividad (España), European Commission, European Research Council, German Centre for Air and Space Travel, Yelles-Chaouche, A., Cameron, R. H., Solanki, S. K., Riethmüller, T. L., Anusha, L. S., Witzke, V., Shapiro, A. I., Barthol, P., Gandorfer, A., Gizon, L., Hirzberger, J., van Noort, M., Blanco Rodríguez, J., Toro, José Carlos del, Orozco Suárez, David, Schmidt, W., Martínez Pillet, V., and Knölker, M.

Abstract

The solar photosphere provides us with a laboratory for understanding turbulence in a layer where the fundamental processes of transport vary rapidly and a strongly superadiabatic region lies very closely to a subadiabatic layer. Our tools for probing the turbulence are high-resolution spectropolarimetric observations such as have recently been obtained with the two balloon-borne SUNRISE missions, and numerical simulations. Our aim is to study photospheric turbulence with the help of Fourier power spectra that we compute from observations and simulations. We also attempt to explain some properties of the photospheric overshooting flow with the help of its governing equations and simulations. We find that quiet-Sun observations and smeared simulations are consistent with each other and exhibit a power-law behavior in the subgranular range of their Doppler velocity power spectra with a power-law index of ≈ - 2. The unsmeared simulations exhibit a power law that extends over the full range between the integral and Taylor scales with a power-law index of ≈ - 2.25. The smearing, reminiscent of observational conditions, considerably reduces the extent of the power-law-like portion of the power spectra. This suggests that the limited spatial resolution in some observations might eventually result in larger uncertainties in the estimation of the power-law indices. The simulated vertical velocity power spectra as a function of height show a rapid change in the power-law index (at the subgranular range) from roughly the optical depth unity layer, that is, the solar surface, to 300 km above it. We propose that the cause of the steepening of the power-law index is the transition from a super- to a subadiabatic region, in which the dominant source of motions is overshooting convection. A scale-dependent transport of the vertical momentum occurs. At smaller scales, the vertical momentum is more efficiently transported sideways than at larger scales. This results in less vertical

Published

2020

47. The Filter Imager SuFI and the Image Stabilization and Light Distribution System ISLiD of the Sunrise Balloon-Borne Observatory: Instrument Description

Author

Gandorfer, A., primary, Grauf, B., additional, Barthol, P., additional, Riethmüller, T. L., additional, Solanki, S. K., additional, Chares, B., additional, Deutsch, W., additional, Ebert, S., additional, Feller, A., additional, Germerott, D., additional, Heerlein, K., additional, Heinrichs, J., additional, Hirche, D., additional, Hirzberger, J., additional, Kolleck, M., additional, Meller, R., additional, Müller, R., additional, Schäfer, R., additional, Tomasch, G., additional, Knölker, M., additional, Martínez Pillet, V., additional, Bonet, J. A., additional, Schmidt, W., additional, Berkefeld, T., additional, Feger, B., additional, Heidecke, F., additional, Soltau, D., additional, Tischenberg, A., additional, Fischer, A., additional, Title, A., additional, Anwand, H., additional, and Schmidt, E., additional

Published

2010

48. The Wave-Front Correction System for the Sunrise Balloon-Borne Solar Observatory

Author

Berkefeld, T., primary, Schmidt, W., additional, Soltau, D., additional, Bell, A., additional, Doerr, H. P., additional, Feger, B., additional, Friedlein, R., additional, Gerber, K., additional, Heidecke, F., additional, Kentischer, T., additional, v. d. Lühe, O., additional, Sigwarth, M., additional, Wälde, E., additional, Barthol, P., additional, Deutsch, W., additional, Gandorfer, A., additional, Germerott, D., additional, Grauf, B., additional, Meller, R., additional, Álvarez-Herrero, A., additional, Knölker, M., additional, Martínez Pillet, V., additional, Solanki, S. K., additional, and Title, A. M., additional

Published

2010

49. The Sunrise Mission

Author

Barthol, P., primary, Gandorfer, A., additional, Solanki, S. K., additional, Schüssler, M., additional, Chares, B., additional, Curdt, W., additional, Deutsch, W., additional, Feller, A., additional, Germerott, D., additional, Grauf, B., additional, Heerlein, K., additional, Hirzberger, J., additional, Kolleck, M., additional, Meller, R., additional, Müller, R., additional, Riethmüller, T. L., additional, Tomasch, G., additional, Knölker, M., additional, Lites, B. W., additional, Card, G., additional, Elmore, D., additional, Fox, J., additional, Lecinski, A., additional, Nelson, P., additional, Summers, R., additional, Watt, A., additional, Martínez Pillet, V., additional, Bonet, J. A., additional, Schmidt, W., additional, Berkefeld, T., additional, Title, A. M., additional, Domingo, V., additional, Gasent Blesa, J. L., additional, del Toro Iniesta, J. C., additional, López Jiménez, A., additional, Álvarez-Herrero, A., additional, Sabau-Graziati, L., additional, Widani, C., additional, Haberler, P., additional, Härtel, K., additional, Kampf, D., additional, Levin, T., additional, Pérez Grande, I., additional, Sanz-Andrés, A., additional, and Schmidt, E., additional

Published

2010

50. Power spectrum of turbulent convection in the solar photosphere

Author

Yelles Chaouche, L., primary, Cameron, R. H., additional, Solanki, S. K., additional, Riethmüller, T. L., additional, Anusha, L. S., additional, Witzke, V., additional, Shapiro, A. I., additional, Barthol, P., additional, Gandorfer, A., additional, Gizon, L., additional, Hirzberger, J., additional, van Noort, M., additional, Blanco Rodríguez, J., additional, Del Toro Iniesta, J. C., additional, Orozco Suárez, D., additional, Schmidt, W., additional, Martínez Pillet, V., additional, and Knölker, M., additional

Published

2020