= PLAN FOR NIGHT 16-17NOV: =

Probably average weather but maybe stable conditions.
Adapt the following plan on stability of focus.

Do a skydip !
Pointing, focus on nearby quasar then


=== 3C454.3 MWC349 ===
Depending what time the observations start go on 3C454 or MWC349 if it is <80deg

Do a cycle of simple maps

otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako


=== DR21 ===
Go on DR21 for a cycle if Uranus still is <25deg

dr21oh_polar.pako


=== Uranus ===

Do cycles alternating: 
focus with small offsets (steps of +/-0.1mm)

if focus is stable: 

otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako at focus and slightly out of focus (+/-0.1mm & +/-0.2mm)

Repeat


=== IRAS4A ===

Monitor noise evolution on IRAS4A field: integrate as long as possible with

otf_loop_9_3_b335_polar_3Hz_40arcsec_per_sec.pako


'''DO A SKYDIP'''


=== 3C286 ===
otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako

Till 8-8:30am, integrate on 3C286

Then, XPOL takes over on 3C286.


= PLAN FOR NIGHT 15-16NOV: =

Probably bad weather but will try to get the telescope as soon as doable.
Adapt the following plan on weather conditions.

Do a skydip !
Pointing, focus on nearby quasar then


=== MWC349 ===
Do a cycle of 4 simple maps

otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako


=== DR21 ===
Go on DR21 for an hour

dr21oh_polar.pako


=== Uranus ===

Do cycle of 2 simple maps at low elevation

otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako

then

otf_simple_9_3_polar_3Hz_40arcsec_per_sec.pako

+ Do one beammap at El>35

beammap1scan95sub_polar_hwp3hz_29min.pako


=== OMC1 before transit ===
@omc1_polar.pako

=== Uranus ===
Do a cycle of 2 simple maps

otf_simple_9_3_polar_3Hz_40arcsec_per_sec.pako

then

otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako


'''DO A SKYDIP'''


=== Crab  ===
@crab_polar_2020.pako

integrate a full cycle (one hour)

... and back on Uranus/OMC1

... until 7-7:30am

'''DO A SKYDIP'''



= PLAN FOR NIGHT 14-15NOV: =

Probably bad weather until 1am but will try to get the telescope as soon as doable.
Adapt the following plan on weather conditions.

Do a skydip !
Pointing, focus on nearby quasar then


=== MWC349 ===
Do a cycle of 4 simple maps

otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako


=== DR21 ===
Go on DR21 for an hour

dr21oh_polar.pako


=== Uranus ===

Do cycle of 2 simple maps at low elevation

otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako

then

otf_simple_9_3_polar_3Hz_40arcsec_per_sec.pako

+ Do one beammap at El>35

beammap1scan95sub_polar_hwp3hz_29min.pako


=== OMC1 before transit ===
@omc1_polar.pako

=== Uranus ===
Do a cycle of 2 simple maps

otf_simple_9_3_polar_3Hz_40arcsec_per_sec.pako

then

otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako


'''DO A SKYDIP'''


=== Crab  ===
@crab_polar_2020.pako

integrate a full cycle (one hour)

... and back on Uranus/OMC1

... until 7-7:30am

'''DO A SKYDIP'''




= PLAN FOR NIGHT 13-14NOV: =

Very bad weather, no observations planned. 
If opacity turns to <0.3 for >45minutes we asked to be called to take the telescope, and execute same plan as last night.


= PLAN FOR NIGHT 12-13NOV: =

Do a skydip !
Pointing, focus on nearby quasar then

=== MWC349 ===
Do a cycle of 4 simple maps

otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako


=== DR21 ===
Go on DR21 for an hour

dr21oh_polar.pako


=== Uranus ===

Do cycle of 2 simple maps at low elevation

otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako

then

otf_simple_9_3_polar_3Hz_40arcsec_per_sec.pako

+ Do one beammap at El>35

beammap1scan95sub_polar_hwp3hz_29min.pako


=== OMC1 before transit ===
@omc1_polar.pako

=== Uranus ===
Do a cycle of 2 simple maps

otf_simple_9_3_polar_3Hz_40arcsec_per_sec.pako

then

otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako


'''DO A SKYDIP'''


=== Crab  ===
@crab_polar_2020.pako

integrate a full cycle (one hour)

... and back on Uranus/OMC1

... until 7-7:30am

'''DO A SKYDIP'''


=== 3C286 ===
otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako

Till 9am, integrate on 3C286


'''FINISH WITH SKYDIP'''




~
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= PLAN FOR NIGHT 11-12NOV: =
=== B335 ===
skydip, pointing, focus on nearby quasar then

otf_loop_9_3_b335_polar_3Hz_40arcsec_per_sec.pako

... until B335 is <25deg



=== Uranus ===
Do one beammap

beammap1scan95sub_polar_hwp3hz_29min.pako

then a cycle of 2 simple maps

otf_simple_9_3_polar_3Hz_40arcsec_per_sec.pako



=== Crab ===
@crab_polar_2020.pako

integrate a full cycle (one hour)

=== Uranus ===
Do a cycle of 2 simple maps

otf_simple_9_3_polar_3Hz_40arcsec_per_sec.pako

=== OMC1 ===
@omc1_polar.pako

... until 6:30am



=== 3C286 ===
otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako

Till 7:30am, integrate on 3C286 then leave the telescope to XPOL



= PLAN FOR NIGHT 10-11NOV: =
=== 3C454 ===
skydip, pointing, focus, and test files are written, idl processing ok ... etc

otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako

... until Neptune is >20deg

=== Neptune ===
pointing, focus, tests

+(if time) otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako

... until Uranus is >20deg

=== Uranus ===
2 beammaps (+ 1-2 smallmaps) with styrofoam

beammap1scan95sub_polar_hwp3hz_29min.pako otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako

Uranus 1 small + 1-2 beammaps without styrofoam Uranus again alternating small and beammaps, with styrofoam

... until Uranus is <25deg

=== Crab ===
@crab_polar_2020.pako

... Until 2hours left on 3C286

=== 3C286 ===
Till the end of shift, integrate on 3C286

otf_simple_8_5_polar_3Hz_40arcsec_per_sec.pako