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      TEXT TEMPLATE FOR SUBMISSION OF PROPOSED STUDIES FOR SOLAR-B/EIS
                       (version: MSSL, 2006 Feb 08)
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Science Case:

Proposal focuses to two types of solar structures - solar microflares and supergranular 
network. Aim is to investigated questions on their drivers and their impact on the 
coronal heating and dynamics. For microflares dynamics and plasma evolution will be 
analyzed as the chromospheric response to electron beam and/or conductive heating 
together with their transition region and coronal response. For network presence of 
propagating intensity/velocity waves and their direction will be analysed to distinguish 
between different heating mechanisms - upward waves and downward (nanoflare) waves.

-------------------------------------------------------------------------------------------
Cordination information:

Campaign web page: http://www.astro.sk/~choc/open/07_dot/07_dot.html

Granted   DOT    period:  3-31/08/2007
Requested SOHO   period:  3-18/08/2007, 07:00-13:30 UT (later keyhole telemetry problem)   
Requested HINODE period: 18-31/08/2007, 07:00-13:30 UT 

G-B support: DOT/LaPalma: G-band, Continua, CaII H, H alpha (0.0,+/-0.3A)
             H alpha full disk: Kanzelhoehe (Austria), Hvar (Croatia)
SOT support: BFI: G-band, Ca II H, NFI: FeI 630.25nm longitudinal magnetograms, 
             FOV: only 109"x109" (1kx1k mode, binning 2x2 pxs),
XRT support: FOV 384x384px, no binning, ~15s cadence, AEC

------------------------------------------------------------------------------

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STUDY-SPECIFIC INFORMATION:
*******************************************************************************

A. Study Title (max. 100 characters):

Solar microflares and network dynamics - relevance for coronal heating

B. Study Description/Acronym (max. 20 characters, no spaces):

Microflares+network

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

1. Context_calib_jr           ( 3 times) - 2178s  (0.6h) in total
2. Obs_sit_stare_jr           ( 8 times) - 19184s (5.33h) in total
			      slit placed to the X-center of the previous raster	
3. Context_calib_jr           ( 3 times) - 2178s  (0.6h) in total
			      raster positioned around the previous slit position
*******************************************************************************
A study is comprised of one or more rasters (each raster can be either
"scanning" or "sit'n'stare")

Copy and replicate the following raster-specific information template as
necessary for the number of rasters in your proposed study.

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RASTER-SPECIFIC INFORMATION
*******************************************************************************

1. Raster Description/Acronym: Context_calib_jr


------------------------------------------------------------------------------

2. Line list (please append desired lines to the following list if necessary):

Wavelength      Type    Window Name     Width
(angstroms)                             (pixels)
192.82*		c	Ca XVII		32           log T=6.7
195.12*		c	Fe XII		32           log T=6.1  
256.32*		c	He II		32           log T=4.9

185.21	        p	Fe VIII         32           log T=5.6
275.35	        p	Si VII          32           log T=5.8
184.54	        p	Fe X            32           log T=6.0
196.54	        p	Fe XIII         32           log T=6.2
284.16          p       Fe XV           32           log T=6.3
192.04          p       Fe XXIV         32           log T=7.2

(*The first three lines are core ("c") lines for each raster and must be
included. There is some question, however, about the viability of Ca XVII
192.82. Whether its inclusion is to be compulsory in all studies is yet to be
decided. Add any additional desired lines to the following list. The list of
programme ("p") lines, expected to be seen by EIS, is online at:

	http://www.mssl.ucl.ac.uk/www_solar/solarB/faq_lines.html

Note that window widths must be a mutiple of 8, but can be different for each
desired window. A guideline window width of 32 pixels is suggested as this is
equivalent to +/- 400 kilometres per second, in velocity space, at 270 
angstroms, or +/- 560 kilometres per second at 190 angstroms.)

------------------------------------------------------------------------------

3. Slit/Slot Width (in arcseconds): 2"

(choose one of 1",  2",  40", or  250")

------------------------------------------------------------------------------

4. Window height in pixels: 176

(Note that this is the height for all windows. It must be a multiple of
8, up to a maximum of 512 pixels.)

------------------------------------------------------------------------------
5. Raster Type: Scanning

(choose "Scanning" or "Sit'n'Stare")

(This determines which of the following group of parameters you must choose -- 
answer either 5.1 and 5.2 for a scanning raster, or 5.3 or 5.4 for sit'n'stare)

---------------------
For a scanning raster:
---------------------

5.1 Number of fine mirror steps (i.e. positions): 41


5.2 Fine mirror step size (in arcseconds): 2

------------------------------------------------------------------------------
6. Compensation for Differential Solar Rotation: No

(choose either Yes or No)

------------------------------------------------------------------------------
7. Exposure Options

----------------------
For set exposure times:
(answer questions 7.1 to 7.6)
----------------------

7.1 Number of exposures per step: 1

(Minimum=1, maximum=8. Note that for each position, or "step", several different 
exposure times can be set, so that -- for example -- a 1-second exposure might 
be followed by a 10-second exposure before moving the fine mirror to another
position on the Sun. This parameter can be used with both sit'n'stare and 
scanning rasters.)

7.2 Exposure time(s) (in seconds, separated by commas): 15


7.3 Corresponding delay after each exposure (in milliseconds): 0

(This delay term may be useful for slowing down the rate at which data are
taken, i.e. specifying a cadence other than the fastest which EIS can attain for
this raster).


7.4 Duration of raster (in seconds): 726


7.5 Anticipated data volume, if known (in kilobits, not kilobytes): 31570 kb


7.6 Anticipated mean data rate, if known (in kilobits per second): 43.4661 kbps

(note that a time-averaged rate of 45 kilobits per second, averaged over the
duration of the study, is the guideline upper limit for uncompressed studies.)

----------------------------------------------
For when Automatic Exposure Control is enabled:
(answer question 7.7)
----------------------------------------------

(Note: 1 - that prediction of data rates is unlikely to be easy with AEC enabled;
       2 - AEC is not envisioned for use with the 1" or 2" slits.)

7.7 Length of time run-time for AEC-controlled exposures: _________

(This will override the duration specified in Section 5.4, above)

------------------------------------------------------------------------------
8. No. of repeats of this raster: 3

(i.e. number of times to execute before the next raster)

------------------------------------------------------------------------------
9. Compression

9.1 Compression type: None

(choose one of "DPCM", "JPEG1", "JPEG2" or "None")

------------------------------------------------------------------------------

9.2 Desired Compression factor: _________

(leave blank if the answer to 9.1 is "None")

(Note: choosing "50%" would mean a reduction in telemetry size of a factor of 2.
Current testing indicates that a compression factor of 2 with JPEG(?)
compression still accurately reproduces line widths and heights, with only
slightly reduced precision.)

------------------------------------------------------------------------------

10. Event triggers

10.1 This study can be interrupted by: a)

	a) No triggering (study is run as scheduled)
	b) EIS Event Trigger 
	c) EIS Internal Flare Trigger 
	d) XRT Flare Trigger 

Please choose: (a)

(Note: 1 - A trigger is most likely to be desired if you are hunting for a flare
or bright event with EIS, and you have a raster type which you would like to
take over in the event of this trigger occurring.
       2 - If a trigger is able to interrupt this study, the corresponding
raster, the study from which that raster comes, and the length of time for this
raster to run after the trigger occurs,  must all be supplied. This study can be
either from the official database, or submitted  by e-mail just like other
studies.)

----------------------
For EIS Event Trigger:
----------------------
10.2 Window to be monitored: ________

(Note: the window MUST be from the line list entered in Section 2.)



10.3 Description/Acronym of study to be run in response:
____________________



10.4 ID Number or Description/Acronym of raster (from response study) to be run:

____________________

(Note: you must only choose one raster to be run from this study, although it
repeated exactly as it would be run in that study.)

10.5 Repoint in X (Yes or No): _______


10.6 Repoint in Y (Yes or No): _______


10.7 X Threshold: __________


10.8 Y Threshold: __________


10.9 X Min. Limit: __________


10.10 Y Min. Limit: __________


-------------------------------
For EIS Internal Flare Trigger:
-------------------------------
10.11 Window to be monitored: ________

(Note: the window MUST be from the line list entered in Section 2.)



10.12 Description/Acronym of study to be run in response to EIS Flare Trigger: 
____________________



10.13 Description/Acronym of raster (from response study) to be run:
____________________



10.14 Repoint in X to: __________
(choose either "Flare Peak X" or "Flare Centre X")

10.14 Repoint in Y to: __________
(choose either "Flare Peak Y" or "Flare Centre Y")


----------------------
For XRT Flare Trigger:
----------------------

10.15 Description/Acronym of study to be run in response to XRT Flare Trigger: 
____________________


10.16 Check that XRT is in EIS Field of View? (Yes or No): ____


10.17 Description/Acronym of "filler study", to be run between end of response
study and end of XRT Flare Trigger mode: 
__________________

*******************************************************************************
*******************************************************************************

*******************************************************************************
RASTER-SPECIFIC INFORMATION
*******************************************************************************

1. Raster Description/Acronym: Obs_sit_stare_jr


------------------------------------------------------------------------------

2. Line list (please append desired lines to the following list if necessary):

Wavelength      Type    Window Name     Width
(angstroms)                             (pixels)
192.82*		c	Ca XVII		32           log T=6.7
195.12*		c	Fe XII		32           log T=6.1  
256.32*		c	He II		32           log T=4.9

185.21	        p	Fe VIII         32           log T=5.6
275.35	        p	Si VII          32           log T=5.8
184.54	        p	Fe X            32           log T=6.0
196.54	        p	Fe XIII         32           log T=6.2
284.16          p       Fe XV           32           log T=6.3
192.04          p       Fe XXIV         32           log T=7.2

(*The first three lines are core ("c") lines for each raster and must be
included. There is some question, however, about the viability of Ca XVII
192.82. Whether its inclusion is to be compulsory in all studies is yet to be
decided. Add any additional desired lines to the following list. The list of
programme ("p") lines, expected to be seen by EIS, is online at:

	http://www.mssl.ucl.ac.uk/www_solar/solarB/faq_lines.html

Note that window widths must be a mutiple of 8, but can be different for each
desired window. A guideline window width of 32 pixels is suggested as this is
equivalent to +/- 400 kilometres per second, in velocity space, at 270 
angstroms, or +/- 560 kilometres per second at 190 angstroms.)

------------------------------------------------------------------------------

3. Slit/Slot Width (in arcseconds): 2"

(choose one of 1",  2",  40", or  250")

------------------------------------------------------------------------------

4. Window height in pixels: 176

(Note that this is the height for all windows. It must be a multiple of
8, up to a maximum of 512 pixels.)

------------------------------------------------------------------------------
5. Raster Type: Sit'n'Stare

(choose "Scanning" or "Sit'n'Stare")

(This determines which of the following group of parameters you must choose -- 
answer either 5.1 and 5.2 for a scanning raster, or 5.3 or 5.4 for sit'n'stare)

------------------------
For a sit'n'stare raster:
------------------------

5.3 No. of Exposures (if known): 135_________

	OR

5.4 Duration of sit'n'stare (in seconds): 2398_____

(Note: Entering either parameter will automatically allow the planner to 
calculate the other.)


------------------------------------------------------------------------------
6. Compensation for Differential Solar Rotation: No

(choose either Yes or No)

------------------------------------------------------------------------------
7. Exposure Options

----------------------
For set exposure times:
(answer questions 7.1 to 7.6)
----------------------

7.1 Number of exposures per step: 1

(Minimum=1, maximum=8. Note that for each position, or "step", several different 
exposure times can be set, so that -- for example -- a 1-second exposure might 
be followed by a 10-second exposure before moving the fine mirror to another
position on the Sun. This parameter can be used with both sit'n'stare and 
scanning rasters.)

7.2 Exposure time(s) (in seconds, separated by commas): 15


7.3 Corresponding delay after each exposure (in milliseconds): 0

(This delay term may be useful for slowing down the rate at which data are
taken, i.e. specifying a cadence other than the fastest which EIS can attain for
this raster).


7.4 Duration of raster (in seconds): 2398


7.5 Anticipated data volume, if known (in kilobits, not kilobytes): 103950 kb


7.6 Anticipated mean data rate, if known (in kilobits per second): 43.4661 kbps

(note that a time-averaged rate of 45 kilobits per second, averaged over the
duration of the study, is the guideline upper limit for uncompressed studies.)

----------------------------------------------
For when Automatic Exposure Control is enabled:
(answer question 7.7)
----------------------------------------------

(Note: 1 - that prediction of data rates is unlikely to be easy with AEC enabled;
       2 - AEC is not envisioned for use with the 1" or 2" slits.)

7.7 Length of time run-time for AEC-controlled exposures: _________

(This will override the duration specified in Section 5.4, above)

------------------------------------------------------------------------------
8. No. of repeats of this raster: 8

(i.e. number of times to execute before the next raster)

------------------------------------------------------------------------------
9. Compression

9.1 Compression type: None

(choose one of "DPCM", "JPEG1", "JPEG2" or "None")

------------------------------------------------------------------------------

9.2 Desired Compression factor: _________

(leave blank if the answer to 9.1 is "None")

(Note: choosing "50%" would mean a reduction in telemetry size of a factor of 2.
Current testing indicates that a compression factor of 2 with JPEG(?)
compression still accurately reproduces line widths and heights, with only
slightly reduced precision.)

------------------------------------------------------------------------------

10. Event triggers

10.1 This study can be interrupted by: a)

	a) No triggering (study is run as scheduled)
	b) EIS Event Trigger 
	c) EIS Internal Flare Trigger 
	d) XRT Flare Trigger 

Please choose: (a)

(Note: 1 - A trigger is most likely to be desired if you are hunting for a flare
or bright event with EIS, and you have a raster type which you would like to
take over in the event of this trigger occurring.
       2 - If a trigger is able to interrupt this study, the corresponding
raster, the study from which that raster comes, and the length of time for this
raster to run after the trigger occurs,  must all be supplied. This study can be
either from the official database, or submitted  by e-mail just like other
studies.)

----------------------
For EIS Event Trigger:
----------------------
10.2 Window to be monitored: ________

(Note: the window MUST be from the line list entered in Section 2.)



10.3 Description/Acronym of study to be run in response:
____________________



10.4 ID Number or Description/Acronym of raster (from response study) to be run:

____________________

(Note: you must only choose one raster to be run from this study, although it
repeated exactly as it would be run in that study.)

10.5 Repoint in X (Yes or No): _______


10.6 Repoint in Y (Yes or No): _______


10.7 X Threshold: __________


10.8 Y Threshold: __________


10.9 X Min. Limit: __________


10.10 Y Min. Limit: __________


-------------------------------
For EIS Internal Flare Trigger:
-------------------------------
10.11 Window to be monitored: ________

(Note: the window MUST be from the line list entered in Section 2.)



10.12 Description/Acronym of study to be run in response to EIS Flare Trigger: 
____________________



10.13 Description/Acronym of raster (from response study) to be run:
____________________



10.14 Repoint in X to: __________
(choose either "Flare Peak X" or "Flare Centre X")

10.14 Repoint in Y to: __________
(choose either "Flare Peak Y" or "Flare Centre Y")


----------------------
For XRT Flare Trigger:
----------------------

10.15 Description/Acronym of study to be run in response to XRT Flare Trigger: 
____________________


10.16 Check that XRT is in EIS Field of View? (Yes or No): ____


10.17 Description/Acronym of "filler study", to be run between end of response
study and end of XRT Flare Trigger mode: 
__________________

********************************************************************************
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