Differences between revisions 57 and 99 (spanning 42 versions)
Revision 57 as of 2016-03-01 14:30:39
Size: 5369
Comment:
Revision 99 as of 2016-03-11 17:20:00
Size: 7288
Comment:
Deletions are marked like this. Additions are marked like this.
Line 14: Line 14:
'''''Aim:''''' characterizing the variations of the best focus across NIKA2 field of view. Several "focus z sessions" were done in NIKA2 Run3. However, the outermost regions of the array, where the axial focus is expected to show the largest variations w.r.t. the center of the array, were mainly probed. Here, the objective is to characterize the curvature of the focal plane and to confirm its flatness in the inner part of the arrays. '''''Aim:''''' characterizing the variations of the best focus across NIKA2 field of view. Several "focus z sessions" were done in NIKA2 Run3. However, the outermost regions of the array, where the axial focus is expected to show the largest variations w.r.t. the center of the array (-24.5, 3.4), were mainly probed. Here, the objective is to characterize the curvature of the focal plane and to confirm its flatness in the inner part of the arrays.
Line 16: Line 16:
'''''Method:''''' We suggest to explore 2 perpendicular diameters in Nasmyth offset bins of around 1 arcmin. The list of Nasmyth offsets is given below [TBD]. For each Nasmyth offset location, the optimal axial focus is estimated from 5 x 1 arcmin square OTF scans at 5 different focus around the initial focus set in PAKO using the command "focusOTF". In each map produced using NK_RTA, the main beam is fitted using a 2D Gaussian function. Two optimal z focus estimates are fitted using NK_FOCUS_LISS_OLD, which resorts to a polynomial POLY_FIT function: the focus z that maximises the flux at the beam peak and the focus z that minimizes the main beam FWHM, the former being usually more precise. '''''Method:''''' We suggest to explore 2 perpendicular diameters in Nasmyth offset bins from 30 arcsec to 1 arcmin. The list of Nasmyth offsets is given at the end of the page ([[#offsetlist|jump to the offset list]]). For each Nasmyth offset location, the optimal axial focus is estimated from 5 x 1 arcmin square OTF scans at 5 different focus around the initial focus set in PAKO using the command "focusOTF". In each map produced using NK_RTA, the main beam is fitted using a 2D Gaussian function. Two optimal z focus estimates are fitted using NK_FOCUS_LISS_OLD, which resorts to a polynomial POLY_FIT function: the focus z that maximises the flux at the beam peak and the focus z that minimizes the main beam FWHM, the former being usually more precise.
Line 27: Line 28:
Line 32: Line 34:
Choose a bright point source of several Jy (e.g. 3C84, 3C273, 3C279, ...) Choose a bright point source of several Jy (e.g. 3C84, 3C273, 3C279, 1156+295, ...)
Line 59: Line 61:
==== 3./ best focus at the array center f_0 ==== ==== 3./ best focus at the array center z_0 ====
Line 62: Line 64:
     PAKO>offset 0. 0. /sys nasmyth      PAKO>offset -24.5, 3.4 /sys nasmyth
Line 64: Line 66:
enter 0 as the center focus f. enter 0 as the central focus z value z_c
Line 67: Line 69:
It will run 5 scans at focus f-0.8; f-0.4; f; f+0.4; f+0.8 It will run 5 scans at focus z_c-0.8; z_c-0.4; z_c; z_c+0.4; z_c+0.8
Line 72: Line 74:
     IDL> nk_rta, 'scan', /nas      IDL> nk_rta, '20160303s1', /nas, /xyguess, /largemap, rmax_keep=30, radius=35, /nopng
Line 78: Line 81:
     IDL> nk_focus_liss_old, '20160125s'+strtrim([1,2,3,4,5], 2), /nas      IDL> nk_focus_liss_old, '20160303s'+strtrim([1,2,3,4,5], 2), /nas, /xyguess, rmax_keep=30, get_focus_error=1, imzoom=1
Line 81: Line 84:
''NB: if the optimal focus value is far from zero (abs(z_0) > 0.3), reiterate in ingesting the optimal focus value as the central focus z_c asked by @focusOTF''
   
Line 82: Line 87:
==== 4./ best focus across the field-of-view f_{off-center} ==== ==== 4./ best focus across the field-of-view z_{off-center} ====
Line 85: Line 90:
      PAKO>offset xoff yoff \sys nasmyth       PAKO>offset 'xoff' 'yoff' \sys nasmyth
Line 87: Line 92:
enter 0 as the center focus f. enter a central focus value z_c not too far from the optimal focus z.
Line 93: Line 98:
      IDL> nk_rta, 'scan', /nas, /xyguess, /largemap       IDL> nk_rta, '20160304s1', /nas, /xyguess, /largemap, rmax_keep=30, radius=35, /nopng
Line 99: Line 104:
      IDL> nk_focus_liss_old, '20160125s'+strtrim([1,2,3,4,5], 2), /nas, /xyguess       IDL> nk_focus_liss_old, '20160304s'+strtrim([1,2,3,4,5], 2), /nas, /xyguess, rmax_keep=30, get_focus_error=1, imzoom=1
Line 102: Line 107:
Please keep track of the (xoff, yoff) in TAPAS for easier analysis of the campaign results Please keep track of the ('xoff', 'yoff') in TAPAS for easier analysis of the campaign results
Line 105: Line 110:
NB: In case the focus@1mm and the focus@2mm are very discrepant, the focus exploration bin (-0.8, +0.8) may be not sufficient to fit simultaneously f_1 and f_2. Relaunch using f=<f_2>, the focus@2mm value from the previous focus campaign measurements:" [OPTIONAL: ] In case the focus@1mm and the focus@2mm are very discrepant, the focus exploration bin (-0.8, +0.8) may be not sufficient to fit simultaneously f_1 and f_2. Relaunch @focusOTF using the central focus z_c=<f_2>, where <f_2> is as close as possible to the focus@2mm value
Line 107: Line 112:
{{{
       PAKO>@focusOTF

enter <f_2> as the center focus f.
}}}
Line 117: Line 117:
re-iterate 3/ after 4 focus z measurements at non-zero Nasmyth offsets. re-iterate 3/ after 4 focus z measurements at off-centered Nasmyth offsets.
Line 119: Line 119:
=== List of Nasmyth offsets ===
Line 121: Line 120:
||<tablewidth="45%" #AAAAFF :> Nasmyth offsets||<#AAAAFF :> A1 kid numdet ||
||<)> 92.9, -112.2||<)> 4591||

=== List of Nasmyth offsets (version 18 points) ===
<<Anchor(offsetlist)>>

||<tablewidth="55%" #AAAAFF :> Info ||<#AAAAFF :>Nasmyth offsets||<#AAAAFF :> A1 kid numdet ||
||<rowspan=3 :> first half of the main diameter||<)> 81.2, -104.6||<)> 4584||
||<)> 43.8, -69.2||<)> 4252||
||<)> 25.9, -39.1||<)> 3941||
||<rowbgcolor="#FFFFAA" :>center of the array||<)> -24.5, 3.4||<)> 3385||
||<rowspan=4 :> second half of the main diameter||<)> -53.3, 41.5||<)> 2827||
||<)> -89.7, 68.1||<)> 2571||
||<)> -118.5, 106.7||<)> 2166||
||<)> -143.6, 125.8||<)> 1938||
||<rowspan=6 :> 2nd diameter ||<)> -120.2, -89.8||<)> 4016||
||<)> -79.6, -55.4||<)> 3847||
||<)> -54.0, -39.0||<)> 3769||
||<)> 25.2, 49.7||<)> 2979||
||<)> 57.9, 81.7||<)> 2738||
||<)> 82.3, 106.5||<)> 2512||
||<rowspan=4 :> circle ||<)> -123.7, 3.8||<)> 3068||
||<)> 63.4, 14.1||<)> 3548||
||<)> -22.3, -84.7||<)> 4202||
||<)> -28.6, 107.4||<)> 2335||

{{attachment:nasmyth_offset_focus_session_march2016_v2.png|nasmyth_offset_focus_session_march2016_v2.png|width=600 height=600}}


=== OLD List of Nasmyth offsets (version 22 points) ===

'''[DO NOT USE]'''

||<tablewidth="55%" #BFBFBF :> Info ||<#BFBFBF :>Nasmyth offsets||<#BFBFBF :> A1 kid numdet ||
||<rowspan=4 :> first half of the main diameter||<)> 92.9, -112.2||<)> 4591||
Line 126: Line 156:
||<)> -24.5, 3.4||<)> 3385||
||<)> -53.3, 41.5||<)> 2827||
||<rowbgcolor="#BFBFBF" :>center of the array||<)> -24.5, 3.4||<)> 3385||
||<rowspan=5 :> second half of the main diameter||<)> -53.3, 41.5||<)> 2827||
Line 132: Line 162:
||<)> 38.6, 78.1||<)> 2740|| ||<rowspan=12 :> other points ||<)> 38.6, 78.1||<)> 2740||
Line 145: Line 175:

{{attachment:nasmyth_offset_focus_session_march2016.png|nasmyth_offset_focus_session_march2016.png|width=600 height=600}}

Observation campaign description

Detailled description of specific observing sessions are given here.

Back to the NIKA2 Run4 page


Focus z campaign

Aim: characterizing the variations of the best focus across NIKA2 field of view. Several "focus z sessions" were done in NIKA2 Run3. However, the outermost regions of the array, where the axial focus is expected to show the largest variations w.r.t. the center of the array (-24.5, 3.4), were mainly probed. Here, the objective is to characterize the curvature of the focal plane and to confirm its flatness in the inner part of the arrays.

Method: We suggest to explore 2 perpendicular diameters in Nasmyth offset bins from 30 arcsec to 1 arcmin. The list of Nasmyth offsets is given at the end of the page (jump to the offset list). For each Nasmyth offset location, the optimal axial focus is estimated from 5 x 1 arcmin square OTF scans at 5 different focus around the initial focus set in PAKO using the command "focusOTF". In each map produced using NK_RTA, the main beam is fitted using a 2D Gaussian function. Two optimal z focus estimates are fitted using NK_FOCUS_LISS_OLD, which resorts to a polynomial POLY_FIT function: the focus z that maximises the flux at the beam peak and the focus z that minimizes the main beam FWHM, the former being usually more precise.

Analysis: Several focus z campaigns were done during NIKA2 run 3, and were analysed. For information, a compilation of the results is available in the NIKA2 private page in http://www.iram.fr/wiki/nika2/index.php/Focus_variation_across_the_focal_plane.

referent person: Laurence Perotto (laurence.perotto@lpsc.in2p3.fr), Jean-François Lestrade


Commands sequence

Below the detailled sequence of commands to be run is given.

1./ source selection

Choose a bright point source of several Jy (e.g. 3C84, 3C273, 3C279, 1156+295, ...) NB: Although 3C286 has also been used during Run 3, it is not bright enough (0.3 Jy) to yield very good focus measurements.

      PAKO> source 3C273
      PAKO> track
      PAKO> start

2./ pointing correction

Reminder: There are 2 methods, the pointing lissajous resorts to a small lissajous around the source, whereas the pointing cross does 2 perpendicular scans across the source. The pointing lissajous is often more reliable when the reference pixel is off-centered in Nasmyth coordinates (whenever the pointing model is not implemented after a proper pointing session).

      PAKO>@nkpoint l

or

      PAKO>@nkpoint b

in case of poor fit with a lissajous, try resorting to the 'common_mode_kids_out' method" by running IDL> nk_rta, 'scan', /mask

      PAKO>set pointing xx yy

3./ best focus at the array center z_0

     PAKO>offset -24.5, 3.4 /sys nasmyth
     PAKO>@focusOTF
enter 0 as the central focus z value z_c

It will run 5 scans at focus z_c-0.8; z_c-0.4; z_c; z_c+0.4; z_c+0.8

Analyse each scan individualy using:

     IDL> nk_rta, '20160303s1', /nas, /xyguess, /largemap, rmax_keep=30, radius=35, /nopng

once the 5 scans are reduced, run (for ex.):

     IDL> nk_focus_liss_old, '20160303s'+strtrim([1,2,3,4,5], 2), /nas, /xyguess, rmax_keep=30, get_focus_error=1, imzoom=1

NB: if the optimal focus value is far from zero (abs(z_0) > 0.3), reiterate in ingesting the optimal focus value as the central focus z_c asked by @focusOTF

4./ best focus across the field-of-view z_{off-center}

      PAKO>offset 'xoff' 'yoff' \sys nasmyth
      PAKO>@focusOTF
enter a central focus value z_c not too far from the optimal focus z.

Analyse each scan individualy using:

      IDL> nk_rta, '20160304s1', /nas, /xyguess, /largemap, rmax_keep=30, radius=35, /nopng

once the 5 scans are reduced, run (for ex.):

      IDL> nk_focus_liss_old, '20160304s'+strtrim([1,2,3,4,5], 2), /nas, /xyguess, rmax_keep=30, get_focus_error=1, imzoom=1

Please keep track of the ('xoff', 'yoff') in TAPAS for easier analysis of the campaign results the list of nasmyth coordinates to be explored can be read on the A2 printed sheet.

[OPTIONAL: ] In case the focus@1mm and the focus@2mm are very discrepant, the focus exploration bin (-0.8, +0.8) may be not sufficient to fit simultaneously f_1 and f_2. Relaunch @focusOTF using the central focus z_c=<f_2>, where <f_2> is as close as possible to the focus@2mm value

5./ monitoring of the focus temporal drift

Since we are interested in the difference between f_0 and various f_{off-center}, f_0 should be regularly checked (every few points depending on its stability).

re-iterate 3/ after 4 focus z measurements at off-centered Nasmyth offsets.

List of Nasmyth offsets (version 18 points)

Info

Nasmyth offsets

A1 kid numdet

first half of the main diameter

81.2, -104.6

4584

43.8, -69.2

4252

25.9, -39.1

3941

center of the array

-24.5, 3.4

3385

second half of the main diameter

-53.3, 41.5

2827

-89.7, 68.1

2571

-118.5, 106.7

2166

-143.6, 125.8

1938

2nd diameter

-120.2, -89.8

4016

-79.6, -55.4

3847

-54.0, -39.0

3769

25.2, 49.7

2979

57.9, 81.7

2738

82.3, 106.5

2512

circle

-123.7, 3.8

3068

63.4, 14.1

3548

-22.3, -84.7

4202

-28.6, 107.4

2335

nasmyth_offset_focus_session_march2016_v2.png

OLD List of Nasmyth offsets (version 22 points)

[DO NOT USE]

Info

Nasmyth offsets

A1 kid numdet

first half of the main diameter

92.9, -112.2

4591

79.3, -95.7

4494

53.3, -67.0

4251

25.9, -39.1

3941

center of the array

-24.5, 3.4

3385

second half of the main diameter

-53.3, 41.5

2827

-89.7, 68.1

2571

-104.8, 89.9

2344

-130.4, 113.7

2015

-155.3, 133.1

1871

other points

38.6, 78.1

2740

-79.6, -55.4

3847

63.4, 14.1

3548

-123.7, 3.8

3068

-28.6, 107.4

2335

-22.3, -84.7

4202

-135.7, -104.3

4173

-110.9, -87.6

4021

-54.0, -39.0

3769

25.2, 49.7

2979

65.1, 93.8

2664

90.0, 118.1

2497

nasmyth_offset_focus_session_march2016.png

nasmyth_offset_focus_session_march2016.eps

HowtosNika2Run4 (last edited 2016-03-13 08:42:04 by NikaBolometer)