Near Infrared Spectro-polarimeter (NIRSP) Design Status May 2004 - PowerPoint PPT Presentation

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Near Infrared Spectro-polarimeter (NIRSP) Design Status May 2004

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Near Infrared Spectro-polarimeter (NIRSP) Design Status May 2004. Don Mickey. Jeff Kuhn ... Two spectrograph modules, one on coud platform and the other at Nasmyth. ... – PowerPoint PPT presentation

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Title: Near Infrared Spectro-polarimeter (NIRSP) Design Status May 2004


1
Near Infrared Spectro-polarimeter (NIRSP) Design
Status May 2004
  • Don Mickey
  • Jeff Kuhn
  • Haosheng Lin

2
NIRSP Modules
  • Two spectrograph modules, one on coudé platform
    and the other at Nasmyth.
  • Common basic design common camera.
  • Coudé high spatial resolution, multi-camera
    capable. Warm optics on optical bench. AO
    observations of limited field.
  • Nasmyth Coronal observations and wide-field disk
    observations. Cold optics.

3
NIRSP Requirements
4
NIRSP Coudé Unit
  • Feed at f40
  • Spatial scale 0.776 mm / arc sec
  • Field lens near entrance slit (if required)
  • Makes beam telecentric
  • Slit nominal 36 µm
  • Spatial sampling 0.046 arc sec
  • Grating is R2 (tan ? 2) echelle
  • Angular dispersion 4/? µrad/pm (near-Littrow)
  • Reflective Littrow layout, off-axis parabola
  • Coma-corrected at any grating angle
  • Minimal astigmatism
  • Spectrograph magnification 1.0

5
NIRSP Coudé, more
  • Collimator focal length 2.25 m
  • Geometric pupil diameter 56 mm
  • Linear dispersion 5.75 µm/pm at ? 1.565 µm
  • Grating width 300 mm (projected width 135 mm)
  • Diffraction image width at focal plane is 26 µm
  • Slit diffraction overfills grating 12 light
    loss at l 1.565
  • Ruling frequency 87 mm-1, or TBD
  • Detector like Hawaii-2 RG, 1 ? 2 mosaic
  • 18 µm pixels, bin 2 ? 2
  • Field 95 arc sec
  • Spectral sampling 6.3 pm
  • Resolving power 200,000 at l 1.565
  • Increase f to 3m and w to 400 mm gives R270,000

6
Multiple Slits
  • At Coudé, the FPA width covers 6.4 nm at l
    1.565. The optical quality is good over the
    entire field, so we might think of using a
    narrow-band blocker and up to six slits.

7
NIRSP Nasmyth
  • Feed at f13.08 (same as Gregorian image)
  • Spatial scale 0.254 mm / arc sec
  • Field lens near entrance slit
  • Makes beam telecentric
  • Slit nominal 108 µm for coronal observations, 18
    µm for disk observations
  • Spatial sampling 0.425 arc sec to 0.07 arc sec
  • Grating is R2 (tan ? 2) echelle
  • Angular dispersion 4/? µrad/pm (near-Littrow)
  • Reflective Littrow layout, off-axis parabola
  • Coma-corrected at any grating angle
  • Minimal astigmatism
  • Spectrograph magnification 1.0

8
NIRSP Nasmyth, more
  • Collimator focal length 1.3 m
  • Geometric pupil diameter 99 mm
  • Linear dispersion 3.32 µm/pm at ? 1.565 µm
  • Grating width 300 mm (projected width 135 mm)
  • Diffraction image width at focal plane is 15 µm
  • Slit diffraction overfills grating 20 light
    loss at l 1.565 with 18 µm slit (3 loss with
    108 µm slit)
  • Ruling frequency 87 mm-1, or TBD
  • Detector like Hawaii-2 RG, 1 ? 2 mosaic
  • 18 µm pixels, bin 6 ? 6 (or more!) for corona
  • Field 290 arc sec
  • Spectral sampling 5.4 pm photosphere 22 pm
    corona 1.07 µm
  • Resolving power 225,000 at l 1.565

9
Nasmyth Scanning
  • How do we scan the image at Nasmyth?
  • Scan the telescope?
  • Scan the spectrograph?
  • Add a scanning mirror to the relay optics?

10
Tip-tilt at Nasmyth
  • Nasmyth observations need tip-tilt correction
  • T-T options
  • Active secondary
  • Active second relay mirror
  • Image moves 2.5 mm for 10 arc sec pupil moves
    1.2 mm.
  • Add a pupil mirror to the relay optics

11
Nasmyth Context Image
  • How do we get a context image?
  • Multiple slits make slit viewer difficult.
  • Dichroic or bandpass ahead of slit?
  • Infrared, or visible, context image?
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