Heliophysics Events Knowledgebase Coverage Registry (HCR)
Observation Details
SOTSP: AR11250 HOP 191 w/BBSO/NST
2011-07-15T18:04:00 to 2011-07-15T18:20:00
Science Goal: Observations of the Chromosphere Coordinated with BBSO/NST
Program: Fast map 82x82", 1 side Q75
Target: Active Region
xcen=192 ycen=-518
Instrument: SOTSP
HOP/JOP: 191
Description: Request to SOT HOP Number 0191 total data volume=2253 Mbits 1) SP: single side mode, 9 fast maps of 82?h x 82?h FOV (256x256x112x1x4 format) at a cadence of 15 min. (data volume=77 Mbits x 9 = 693Mbits) 2) Ca II H BFI: 111?h x 111?h FOV, 2x2 binning (0.108?h pix,1024x1024 format), at a cadence of 16 s. (data volume= 540 Mbits) 3) NFI NaI D -160 mA I and V: 164?hx164?h FOV, 2x2 binning (0.16?h pix) at a cadence of 64 s (data volume=1020 Mbits) Other Instruments: BBSO NST/FISS H alpha and Ca II 854.2 nm line spectral data FOV: 16?h x 40?h at the cadence 18 s NST/IRIM Line-of-sight magnetograms at the cadence of 1 min Scientific Objectives: We propose a series of Hinode and BBSO coordinated observations to investigate physical processes in the solar chromosphere. The importance of this poorly understood layer of the solar atmosphere is increasing in the solar research. For the study of chromospheric features, Chae and his collaborators have developed the Fast Imaging Solar Spectrograph (FISS) on the New Solar Telescope (NST) at Big Bear Solar Observatory (BBSO). From the early observations of a quiet region using this instrument, they obtained solid evidence that strong shocks of three-minute period are not only dominating the dynamics of the upper chromosphere of the intranetwork quiet region, but also are responsible for the heating of the chromosphere and corona there. This gave them a strong motivation to investigate shock phenomenon and other processes in the soalr chromosphere in detail. On the other hand, Tsuneta and his collaborators not only have produced a number of significant scientific results using the Hinode, but also are now preparing for a challenging sounding rocket experiment: the Chromospheric Lyman-alpha SpectroPolarimeter (CLASP) that aims to measure magnetic field of chromospheric features using the Hanle effect in Lyman alpha. If successfully carried out, this instrument will open a new era of directly measuring magnetic field in the chromospheric level. We focus on shocks and magnetic reconnection events occurring in the chromosphere in various contexts. It is very likely that shocks are very common in the chromosphere and have different natures (acoustic, slow or fast), mostly depending on the magnetic environment. Chromospheric reconnection events may often occur in various scales, with some being associated with cancelling magnetic features. The ultimate goal of our study is to reveal their physical natures and estimate how each of these processes is important in the heating of the chromospheres and corona. In addition, of our specific interest is whether reconnection events drive waves that develop into shocks. Our approach is to combine 1) magnetic and velocity data of the photosphere taken by Hinode/SOT, and 2) spectral data and imaging data of the chromospheres taken by FISS/NST and Hinode/SOT 3) spectral data of the corona taken by Hinode/EIS. We propose to operate two-hour observing run for each target each day. The targets include 1) a near-disk-center quiet region, 2) a near-limb quiet region 3) a plage region 4) a sunspot 5) a pore. The specific choice of the target is to be made by the observer at time as close to the observing day as possible.

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Chief Observer
Cruz(RCO --> H. Watanabe (CO)
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