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* Title of the proposed observation:

  Physical mechanisms driving solar microflares and network dynamic fibrils -
  relevance for coronal heating and mass supply
  (small update of the previously run HOP020)

* Short statement describing the observation, and scientific justification.

  This proposal merges together attempts to observe two kinds of solar 
  structures - solar microflares and network dynamic fibrils - which are 
  planned to be investigated to address common open questions on their relevance 
  for the heating and dynamics of the solar corona.

  Due to their small sizes and fast dynamics microflares need analysis demanding 
  high spatial resolution observations combined with good temporal cadence. 
  Our objective is to analyse the dynamics and plasma evolution during microflares 
  by studying the chromospheric response to electron beam and/or conductive 
  heating together with the transition region and coronal response combined 
  with X-ray  spectral analysis. The comparison of these observational data 
  with theoretical predictions in the frame of electron-beam-driven and 
  conductively driven chromospheric evaporation for individual microflares 
  can help us to answer several open questions regarding microflares and the
  coronal heating.

  Network dynamic fibrils (DFs) display in the chromosphere repetitive mass 
  loading by acoustic shocks driven by the global oscillations in the underlying 
  photosphere. This scenario assumes that considerable power of photospheric 5-min
  oscillations is concentrated at the bases of inclined magnetic fluxtubes giving 
  rise to the chromospheric DFs.
  Using H alpha filtergrams obtained by the Dutch Open Telescope we have
  shown that the DFs exhibit also significant variations in orientation,
  which are faster for shorter DFs. Recently, downflows and upflows occurring 
  at the base and tops of mottles, respectively, were reported.
  To explain this dynamic structure the magnetic reconnection as a potential 
  driver of mottles was suggested.
  As an extension of the works mentioned above, in this proposal we aim at 
  identification of the center-to-limb variation of kinematic properties of 
  dynamic fibrils and also center-to-limb variation of terminal wavelength shift of
  visibility of the fibrils and mottles in the H alpha line profile.
  Thus, the spectral observations of chromosphere with the best, spatial and 
  spectral resolution, are needed.

  More details: campaign page: http://www.astro.sk/~choc/open/08_dot/08_dot.html

* Point of contact:

  Jan Rybak, Astronomical Institute, Slovak Academy of Sciences
             Tatranska Lomnica, Slovakia 
	     (choc@astro.sk, www.astro.sk/~choc)

* Time period of proposed observations:

  o period: 6-20/10/2008 - this is the period for which we were granted
            by the DOT/LaPalma observing time (OPTICON time)
  o the minimum number of observation days during the period: none          
  o Requirements for continuity of observations: it is not necessary for 
            observations to be on consecutive days

* Time window in day:
  o minimum: start and end times: 08:00-12:00 UT 
  o optimum: start and end times: 07:00-13:30 UT 
    coordination with the DOT/LaPalma ground-based and SOHO+TRACE JOP 189
    space-based observations
  o short interruptions are allowed over the observing period
    
* Target of interest:
          
  o target of interest: microflares: active region on-disk near the disk center
                                     or their remnants  
                        network fibrils: quiet Sun on-disk near the disk center
  o target will be specified well in advance depending on the actual solar 
                        activity
  o chance to have the target: we expect that our second target can be observed
    each day due to the regular appearance of the network at the disk center
  o target of opportunity (TOO): no

* Required Hinode instruments, and priority of observables:

  o Hinode instruments really required for the observations: EIS,SOT,XRT
  o Specify required observables:

  Hinode/SOT:

  - FOV: 55" x 111" (512 x 1024 pxs, binning: 2 x 2 pxs)
  - spectral channels: sequentially in time BFI: G-band, Ca II H 
  - cadence: 32s per filtergram (64s per sequence of 2 selected channels) 
  - total run duration: 4.0 hours (08:00-12:00 UT) - minimum
    	                5.5 hours (07:00-13:30 UT) - optimum 
  - compression: JPEG Q75
  - telemetry needed: minimum - 4.0 hours: ~520 Mbits 
    	      	      optimum - 6.5 hours: ~845 Mbits
    estimated according the tables at http://solar-b.nao.ac.jp/sot_e/operation/
    further possible decrease of telemetry load: slower cadence, smaller FOV
  - no compensation of the solar rotation
  - pointing: around the position of the EIS 1D sit-and-stare mode slit 
 
  Hinode/XRT: 

  - high cadence images using just one selected filter 
  - 256x256 px, no binning 
  - exposure time: max. 15s with AEC, the highest possible cadence limited 
    by the available telemetry
  - filters: microflares: thin Be filter, network fibrils: thin-Al/Mesh
  - low-less compression 
  - no compensation of the solar rotation
  - pointing: around the position of the EIS 1D sit-and-stare mode slit 

  Hinode/EIS:

   A. Study Title (max. 100 characters):
      "Solar microflares and network dynamic fibrils - relevance for 
       coronal heating and mass supply"

   B. Study Description/Acronym (max. 20 characters, no spaces):
      "dot+eis:mic_fibrils"

   C. Ordering of rasters (by acronym) in the study (with no. of repeats) : 

      1. Context_calib_jr_08           ( 3 times) - 3 x  8m44s  (  26m12s in total)
      2. Obs_sit_stare_jr_08           ( 5 times) - 5 x 29m55s  (2h29m45s in total)
         slit placed to the X-center of the previous rasters	
      3. Context_calib_jr_08           ( 1 times) - 1 x  8m44s  (   8m44s in total)
         raster positioned around the previous slit position
      4. interruption for the Hinode table upload ~10:30 UT
      5. Context_calib_jr_08           ( 1 times) - 1 x  8m44s  (   8m44s in total)
         position at the same location as previous rasters
      6. Obs_sit_stare_jr_08           ( 5 times) - 5 x 29m55s  (2h29m45s in total)
         slit placed to the X-center of the previous rasters	
      7. Context_calib_jr_08           ( 3 times) - 3 x  8m44s  (  26m12s in total)

      Total time: 6h09m28s (Data volume: 371548.09 kb, data rate: 16.7607 kbps

      In the optimum case: the study should start at 07:00UT with three 2D rasters
      taken during the EIT synoptic images acquisition. It is expected that
      the study will be stopped ~10:30 UT for the Hinode table uploads. Before
      and after this break a 2D simple raster is taken. The final repetition
      of three 2D rasters should be co-temporal with another EIT synoptic 
      images acquisition just after 13:00 UT. The core of project is repetition
      (twice) of the 1D sit/and/stare rasters - one before, one after 
      the Hinode table uploads covering in this way the optimum observing/seeing
      period for the g-b instrument DOT/LaPalma.

    Lines:  wavelength  Type    Window Name     Width        T 
            192.82*	c	Ca XVII		32           log T=6.7  
            195.12*	c	Fe XII		48           log T=6.1  
            256.32*	c	He II		48           log T=4.9 
	    186.88      p       Fe XII          40           log T=6.1
           (186.00 Fe VIII log T=5.6 inside Fe XII 186.88 window)
	    263.76      p       Fe XXIII        32           log T=7.1

    No rotation compensation
    Slit: 2"x200"

    Study DEF file prepared as : dot+eis:mic_fibrils_1.def

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