Readme file for SV Hawk-I program 
"The missing link: a deep K-band map of the Extended-CDFS "
Franx et al.
version September 28, 2007.

......................................................................

* A non-editable section giving basic information on the run as  
scheduled: the ID, instrument, priority class, approved execution  
time, type (normal, large, guaranteed time, or director's  
discretionary time), and PI name

This is a HAWK-I science verification run:
Instrument: HAWK-I, K-band
ID: ???
PI: M. Franx
priority class: ??
approved execution time: 20 hours
type: ?? Science verification time ??

* aspects of the observing run:
- General Description: a short summary of observing run, providing  
ESO with any information needed to meet your science objective.

This is a straightforward imaging program with HAWK-I in the K-band.  
The observing strategy is to integrate for 1 hour  per pointing in a  
4 x 4 map covering the 0.5x0.5 degree field of the Extended-CDFS. The  
exact coordinates of each pointing are supplied below.

For acquisition we recommend the HAWKI img_acq_Preset acquisition  
template. Finding charts of the entire field and individual points  
are provided. [will be sent over the weekend of Sept 29-30]

The science integrations should be executed with the  
img_obs_autoJitter template, using the following parameters:
DIT:   30, NDIT:   4, NEXPO: 30 for a total of 60 minutes  
integration, and a JITTER WIDTH of 30 arseconds. A different random  
seed should be given in SEQ POISSON for each OB.

List of pointings (the telescope RA and DEC coordinates in J2000 in  
sexigesimal and decimal degrees):
position rahr   ramin   rased   decdeg  decmin  decsec  ra_degrees  dec_grees
     1    3.00   33.00   15.67  -27.00   37.00   46.67   53.315290  -27.629629
     2    3.00   32.00   41.69  -27.00   37.00   46.67   53.173708  -27.629629
     3    3.00   32.00    7.71  -27.00   37.00   46.67   53.032127  -27.629629
     4    3.00   31.00   33.73  -27.00   37.00   46.67   52.890545  -27.629629
     5    3.00   33.00   15.67  -27.00   45.00   16.67   53.315290  -27.754629
     6    3.00   31.00   33.73  -27.00   45.00   16.67   52.890545  -27.754629
     7    3.00   33.00   15.67  -27.00   52.00   46.67   53.315290  -27.879629
     8    3.00   31.00   33.73  -27.00   52.00   46.67   52.890545  -27.879629
     9    3.00   33.00   15.67  -28.00    0.00   16.67   53.315290  -28.004629
    10    3.00   32.00   41.69  -28.00    0.00   16.67   53.173708  -28.004629
    11    3.00   32.00    7.71  -28.00    0.00   16.67   53.032127  -28.004629
    12    3.00   31.00   33.73  -28.00    0.00   16.67   52.890545  -28.004629
    13    3.00   32.00   41.69  -27.00   45.00   16.67   53.173708  -27.754629
    14    3.00   32.00    7.71  -27.00   45.00   16.67   53.032127  -27.754629
    15    3.00   32.00   41.69  -27.00   52.00   46.67   53.173708  -27.879629
    16    3.00   32.00    7.71  -27.00   52.00   46.67   53.032127  -27.879629

The PA should be PA=0 deg (i.e. North along +Y, east along -X).

-- Waiver Requests: a short summary of any approved Phase 2 waiver  
requests, including when they were submitted and when they were  
approved.

To improve the efficiency significantly we request a waiver for the 1  
hour OB limit. Our targeted science integration are 60 minutes per  
pointing (74.1 minutes incl. overhead, see below). Splitting the  
science integration up into OBs shorter than 1 hour would lead to  
inefficient observing. We understand and accept that OBs slightly  
longer than 1 hour may not satisfy the seeing limit fully. If the seeing
gets worse during the OB, please do not stop it ! Just keep going and
finish the OB. We have found that OBs finished in this way are almost
always fine. 

-- Critical Observing Conditions Constraints: any information about  
required observing conditions that are critical for the achievement  
of the goals of the project.

To reach the science goals of the program we request a seeing  
constraints of < 0.8". The scientific return will benefit even more  
from the best seeing conditions < 0.6" but this is not an absolute  
requirement. As stated above, please do not stop the OB if the seeing
deteriorates during the OB. Our experience is that finished OBs with
seeing which deteriorated during the OB are nearly always fine.

We can observe in all moon phases, but we request a minimum distance  
to the moon of > 30 degrees.

We request that no observations are taken within 20 minutes of zenith
(this would cause a bad skysubtraction).

We request an airmass lower than 3.0. Observations can start when the
sun is down. There is no need to wait for astronomical twilight,
civil twilight is fine - there is no enhanced background in K.


-- Time-Critical Aspects: if your OBs must be executed within  
specific time windows or in some time specific sequence, please  
describe those constraints here. Note that in the case of specific  
time windows, these need to be indicated also under the Time  
Intervals information in the OB itself.

There are no time critical aspects.

-- Special Execution Requirements: any other requirements regarding  
the execution of your run other than those indicated in the previous  
sections, such as preferences on the relative completion of OBs; for  
instance, if preference should be given to the completion of all the  
OBs on a given target before proceeding with another target.

We request OBs on positions 1-12 are given higher priority than OBs  
13-16. The easiest would be to just prioritize the OBs according the
field number.

-- Special Calibration Information: if you have submitted OBs for  
calibration, please describe them here, why you have submitted them,  
and how they should be executed relative to your science OBs (e.g.  
same night, once per observing run, etc.). In particular, you must  
provide the magnitude and spectral type for all user supplied  
photometric or spectrophotometric calibration stars.

We require no special calibration observations. A good flatfield
is the most important thing we need. We already have shallow imaging
of the field, leading to good zeropoints.

-- ToO Information: please indicate here if this is a Target of  
Opportunity run and give any special details.

This is not a ToO run.

-- ToO Activators List: please give here the names of the  
investigators who are authorized to trigger a Target of Opportunity  
observation.

Not applicable.

-- Pre-Imaging Requirements: if this is a pre-imaging run, please  
indicate it here and describe any special requirements; for instance  
the need to obtain on- and off- observations in narrow-band filters  
contiguously.

This is not a pre-imaging run,

* An entry for the e-mail address of the Principal Investigator of  
the programme.

franx@strw.leidenuniv.nl

* Estimated Total Execution Time: please include here the execution  
time as given by the execution time report of P2PP.

Assuming overheads as in sec 4.5 of the P81 HAWK-I manual, and  
AutoJitter template settings: DIT:   30s, NDIT:   4, NEXPO: 30

per OB 60m science integration takes ((4*(0.5+0.03)+0.15)*30 + 6) =  
74.1m

Total execution time for the 4x4 map is 16x74.1 = 19.76 hours

* Is this a Pre-imaging run? this is a tick box that must be checked  
if the run is pre-imaging for another run. This is important to  
ensure that pre-imaging runs receive the due execution priority.

no.

* In case that the pre-imaging run is checked, you must indicate the  
Source of Pre-imaging in the corresponding box. If the source is none  
of those listed there, you can indicate the actual source in the  
entry below it.

Not applicable.