91 research outputs found
The iterability hierarchy above I3
In this paper we introduce a new hierarchy of large cardinals between I3 and I2, the iterability hierarchy, and we prove that every step of it strongly implies the ones below
Helium line formation and abundance during a C-class flare
During a coordinated campaign which took place in May 2001, a C-class flare
was observed both with SOHO instruments and with the Dunn Solar Telescope of
the National Solar Observatory at Sacramento Peak. In two previous papers we
have described the observations and discussed some dynamical aspects of the
earlier phases of the flare, as well as the helium line formation in the active
region prior to the event. Here we extend the analysis of the helium line
formation to the later phases of the flare in two different locations of the
flaring area. We have devised a new technique, exploiting all available
information from various SOHO instruments, to determine the spectral
distribution of the photoionizing EUV radiation produced by the corona
overlying the two target regions. In order to find semiempirical models
matching all of our observables, we analyzed the effect on the calculated
helium spectrum both of A(He) (the He abundance) and of the uncertainties in
the incident EUV radiation (level and spectral distribution). We found that the
abundance has in most cases (but not in all) a larger effect than the coronal
back-radiation. The result of our analysis is that, considering the error of
the measured lines, and adopting our best estimate for the coronal EUV
illumination, the value A(He)=0.075 +/- 0.010 in the chromosphere (for T>6300
K) and transition region yields reasonably good matches for all the observed
lines. This value is marginally consistent with the most commonly accepted
photospheric value: A(He)=0.085.Comment: 34 pages + 13 figures; to be published in Ap
Predicting the COSIE-C Signal from the Outer Corona up to 3 Solar Radii
We present estimates of the signal to be expected in quiescent solar
conditions, as would be obtained with the COronal Spectrographic Imager in the
EUV in its coronagraphic mode (COSIE-C). COSIE-C has been proposed to routinely
observe the relatively unexplored outer corona, where we know that many
fundamental processes affecting both the lower corona and the solar wind are
taking place. The COSIE-C spectral band, 186--205 A, is well-known as it has
been observed with Hinode EIS. We present Hinode EIS observations that we
obtained in 2007 out to 1.5 Rsun, to show that this spectral band in quiescent
streamers is dominated by Fe XII and Fe XI and that the ionization temperature
is nearly constant. To estimate the COSIE-C signal in the 1.5--3.1 Rsun region
we use a model based on CHIANTI atomic data and SoHO UVCS observations in the
Si XII and Mg X coronal lines of two quiescent 1996 streamers. We reproduce the
observed EUV radiances with a simple density model, photospheric abundances,
and a constant temperature of 1.4 MK. We show that other theoretical or
semi-empirical models fail to reproduce the observations. We find that the
coronal COSIE-C signal at 3 Rsun should be about 5 counts/s per 3.1" pixel in
quiescent streamers. This is unprecedented and opens up a significant discovery
space. We also briefly discuss stray light and the visibility of other solar
features. In particular, we present UVCS observations of an active region
streamer, indicating increased signal compared to the quiet Sun cases.Comment: Accepted for publication in Ap
A steady-state supersonic downflow in the transition region above a sunspot umbra
We investigate a small-scale (~1.5 Mm along the slit), supersonic downflow of about 90 km s-1 in the transition region above the lightbridged sunspot umbra in AR 11836. The observations were obtained with the Interface Region Spectrograph (IRIS) on 2013 September 2 from 16:40 to 17:59 UT. The downflow shows up as redshifted "satellite" lines of the Si iv and O iv transition region lines and is remarkably steady over the observing period of nearly 80 min. The downflow is not visible in the chromospheric lines, which only show an intensity enhancement at the location of the downflow. The density inferred from the line ratio of the redshifted satellites of the O iv lines (Ne = 1010.6 ± 0.25 cm-3) is only a factor 2 smaller than the one inferred from the main components (Ne = 1010.95 ± 0.20 cm-3). Consequently, this implies a substantial mass flux (~5 × 10-7 g cm-2 s-1), which would evacuate the overlying corona on timescales close to 10 s. We interpret these findings as evidence of a stationary termination shock of a supersonic siphon flow in a cool loop that is rooted in the central umbra of the spot. The movie is available in electronic form at http://www.aanda.or
Comparing Extrapolations of the Coronal Magnetic Field with Multi-Spacecraft White-Light Coronagraphic Observations
Despite the general agreement that the magnetic field of the Sun dominates the structure and dynamics of the inner solar corona, we still have a quite poor knowledge of the details of the interplay between coronal plasma and magnetic field. One way to obtain information on the large-scale structure of the coronal magnetic field is to extrapolate it from photospheric data and compare the results with coronagraphic images. Coronal fields are usually extrapolated from photospheric measurements acquired days before or after to account for solar rotation, hence assuming that no significant changes occurred. We combine coronagraphic images from three instruments (LASCO-C2 and the two SECCHI-COR1) looking at the Sun from different viewing angles to build Carrington maps covering the entire corona with the minimum amount of temporal evolution as possible ( 4.5 days). We then compare the position of the observed streamers in these Carrington maps with that of the neutral lines obtained from four different magnetic field extrapolations, giving constraints to the latter
VizieR Online Data Catalog: HeI 5876 & 10830Ă… EWs of solar-type stars (Andretta+, 2017)
A total of 134 FEROS spectra (R=48000) of our targets (including telluric standards) were acquired on the night of UT 2011 December 6-7; spectral coverage from 3500 to 9200Å. The Fiber Extended-range Optical Spectrograph (FEROS) was mounted at the 2.2m Max-Planck Gesellschaft/European Southern Observatory (MPG/ESO) telescope at La Silla (Chile). The HeIλ10830 spectroscopic observations were carried out on the same night as the FEROS D3 observations, using the CRyogenic high-resolution InfraRed Echelle Spectrograph (CRIRES), mounted at Unit Telescope 1 (Antu) of the VLT array at Cerro Paranal. The details of the observations is given in table 1. (3 data files)
Validating coronal magnetic field reconstruction methods using solar wind simulations and synthetic imagery
We present an ongoing effort within the ESA Modeling and Data Analysis Working Group (MADAWG) to determine automatically the magnetic connectivity between the solar surface and any point in interplanetary space. The goal is to produce predictions of the paths and propagation delays of plasma and energetic particle propagation. This is a key point for the data exploitation of the Solar Orbiter and Solar Probe Plus missions, and for establishing connections between remote and in-situ data. The background coronal magnetic field is currently determined via existing surface magnetograms and PFSS extrapolations, but the interface is ready to include different combinations of coronal field reconstruction methods (NLFFF, Solar Models), wind models (WSA, MULTI-VP), heliospheric models (Parker spiral, ENLIL, EUHFORIA). Some model realisations are also based on advanced magnetograms based on data assimilation techniques (ADAPT) and the HELCATS catalogue of simulations. The results from the different models will be combined in order to better assess the modelling uncertainties. The wind models provide synthetic white-light and EUV images which are compared to coronographic imagery, and the heliospheric models provide estimations of synthetic in-situ data wich are compared to spacecraft data. A part of this is work (wind modelling) is supported by the FP7 project #606692 (HELCATS)
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