SDSS Spectrograph Guide Sensor
Patrick Waddell
Table of contents:
Guider functions:
- 4-axis info. for field acquisition, pointing accuracy and
stability:
- X, Y, rotation, scale
- Pointing information for ~1 hour integrations
- Image quality monitor
- Sky brightness monitor for spectrograph exposure control
- Wide FOV for one guide star for initial pointing
System requirements:
- Use objects from photometry survey bright limit
(mv=14.25 - 15.25)
- 15 second exposures
- Plug plate holes for guide stars are identical to those for
science FO
Design overview:
- Acquire images at plug plate surface via coherent FO
bundles
- Coherent bundles terminate at slit head wall
- Sensor camera, mounted to one spectrograph chassis, images FO
bundles
- Low power TE cooled Photometrics Ltd. Sensys camera
- Camera optical bandwidth is selected to match atmospheric
refraction of spectrograph band (thick Kodak CCD + 2 mm
BG-38)
- Accuracy and 4-axis capability is achieved via 10 stars/field:
- - 2 stars at plate center --> one is selected for image
quality monitor
- - 8 stars arrayed at ~1.2 deg. radius
- FOV for each of 9 guide stars is 7.4 arcsec dia. (0.45 mm FO,
Sumitomo IGN-05/10)
- One guide bundle is 12.4 arcsec dia. (0.75 mm FO, Sumitomo
IGN-08/30)
- A second large FO bundle, 12.4 arcsec dia., monitors sky
brightness
- Use guide star selection to avoid proper motion problems and
close neighbor confusion
- Camera/fiber registration may be calibrated during
spectrograph
- flat field calibration or by lookup from previous
calibration
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Camera parameters:
|
Image scale:
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60.6 µm/arcsec
|
|
Assumed sky background:
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4.1 e- s-1(arcsec2)-1
[ 21.7 Mv/arcsec2,
Solar]
|
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Sensor optical bandwidth:
|
450-650 nm (thick CCD + 2 mm BG-38)
|
|
Sensor detector parameters (binned 2x2):
|
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Detector type:
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Kodak CCD, Thick (frontside illum.)
|
Readnoise:
|
13 e- rms pixel-1
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Dark current:
|
2.8 e- pixel-1 s-1
|
Array geometry:
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384 x 256 (768 x 512 - engineering mode)
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Pixel size:
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18 µm sq (9 µm sq - engineering mode)
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Pixel sampling:
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0.30 arcsec/pixel
|
Fiber bundles parameters:
|
IGN-05/10
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IGN-08/30
|
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Diameter of fiber bundle (mm):
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0.45
|
0.75
|
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Distance between neighboring cores ( µm):
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4 - 5
|
3 - 4
|
|
Number of cores:
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~ 10,000
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~ 30,000
|
|
Net throughput efficiency (%)
|
~25
|
~25
|
|
Numerical aperture:
|
0.35
|
0.35
|
|
Core material:
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GeO2 +silica
|
GeO2 +silica
|
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Cladding material:
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F + silica
|
silica
|
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|
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2-Axis Calibrated Accuracy:
Accuracy with which each measured guide star centroid ties the
focal plane reference (plug plate) to the astrometric reference
frame
|
Error Source
|
mm RMS
|
Milliarcsec RMS
|
|
|
|
|
|
Guide star astrometry
|
TBD (6 mm)
|
(100)
|
|
Accuracy of FOV distortion calibration
|
TBD (10)
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(165)
|
|
Plate deformation
|
5
|
83
|
|
Hole drilling
|
9
|
149
|
|
Ferrule/hole concentricity
|
8
|
132
|
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Fiber bundle/ferrule concentricity
|
7
|
116
|
|
Calibrated fiber position (output end)
|
TBD (2 mm)
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(33)
|
|
Camera/fiber flexure effects (over 60 min)
|
TBD (2 mm)
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(33)
|
|
Centroid calculation and detector flaws
|
TBD (6 mm)
|
(100)
|
|
|
|
|
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Total
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TBD (20)
|
(331)
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Guide Sensor Performance: (2-Axis, RMS) (using any
fiber cartridge)
(per sensor star)
|
•Calibrated Accuracy:
|
TBD (0.331 arcsec)
|
|
•Sensor Noise (per 15 seconds):
|
TBD (0.06 arcsec)
|
(sensor ensemble)
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•Calibrated Accuracy:
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TBD (0.110 arcsec) (7 µm)
|
|
•Sensor Noise (per 15 seconds):
|
TBD (0.02 arcsec)
|
Transverse Position Error Budget for science
fibers:
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Error Source
|
µm RMS
|
Milliarcsec RMS
|
|
|
|
|
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Science object astrometry
|
TBD (6 µm)
|
(100)
|
|
Accuracy of FOV distortion calibration
|
TBD (10)
|
(165)
|
|
Plate deformation
|
5
|
83
|
|
Hole drilling
|
9
|
149
|
|
Ferrule/hole concentricity
|
8
|
132
|
|
Fiber bundle/ferrule concentricity
|
7
|
116
|
|
Temperature gradients
|
5
|
83
|
|
Guide sensor
|
TBD (7)
|
(110)
|
|
|
|
|
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Total
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TBD (21)
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(340)
|
|
|
|
|
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Max desired (10% of core dia.)
|
18
|
297
|
Guide Sensor Sky Coverage/ Star Availability:
- At r' = 14 to 15, model (Bahcall & Soniera) and data
(Stoughton) indicate
- ~ 60 stars/sq. degree/mag. at high galactic latitude
-
However, to meet g'-r' criteria (blue objects), throw out ~
2/3
Assume other criteria, close neighbors, etc., eliminate another
factor of 0.5
- We have a density of 7 stars, for each of 10 evenly
distributed samples -->
- yielding 99.5% probability of finding a star in each sample
area -->
- We should have a sufficient number of available guide
stars.
-
Guide Star Selection Criteria:
- Guide star brightness must range between mv = 14.25
to 15.25
- To ensure that proper motions over 10 years will be < 200
marcsec, guide star color index: 0.4 < g'-r' < 0.9 (G0
through K5 stars, 5900 to ~4400 k)
- Selected guide stars must have no neighbor stars within TBD (5
arcsec) radius that have a brightness within TBD (5 mag.) of guide
stars
Sky Selection Criteria:
- Select an area of sky which is within TBD (0.7 degree) of
plate center, which has no detectable objects to the photometric
survey bright limit in r' + i' bands.
- Selected area must have no near neighbor, within TBD (7)
arcseconds, brighter than TBD (r'=23).
Photographs:
Figures:
Guider Block
Diagram
Guide harness in slit head
(front view of slit)
Guide harness in slit head
(side view)
Guide camera on
spectrograph
(Top and Side views / reimaging optics not
shown)
Guider harness
Guide fiber organization and
reach at plug plate
Guider S/N performance as a
function of star temperature (Mv=15.5)
Guide Fiber Bundle
Transmission
