Optical Testing of the James Webb Space Telescope...Used for imaging and coronagraphy* HgCdTe...
Transcript of Optical Testing of the James Webb Space Telescope...Used for imaging and coronagraphy* HgCdTe...
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Optical Testing of the James Webb Space Telescope
David L. Aronstein, Ph.D. 2002NASA Goddard Space Flight Center
University of RochesterInstitute of Optics
21 March 2014
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Description:The James Webb Space Telescope (JWST) will be a large infrared telescope with a 6.5-meter primary mirror, working to a 2018 launch date. Ground testing for the JWST will occur in two test campaigns, at NASA’s Goddard
Space Flight Center and Johnson Space Center. The talk describes the JWST and its optical ground testing, highlighting the roles of many of the University of Rochester Institute of Optics' alumni as well as current faculty & students.
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The James Webb Space Telescope
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Size Comparison with the Hubble Space Telescope
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L2 Orbit
� The JWST will orbit about the 2nd Lagrange point between the Sun & Earth, about 4X further away than the moon (~1.5 million km from Earth)
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Anatomy of the Observatory
� The James Webb Space Telescope observatory consists of:– Optical Telescope Element (OTE)– Integrated Science Instrument Module (ISIM)
- Near Infrared Camera (NIRCam)- Mid Infrared Camera (MIRI)- Near Infrared Spectrograph (NIRSpec)- Near Infrared Imager and Slitless Spectrograph (NIRISS)- Fine Guidance Sensor (FGS)
– Spacecraft Element (SE)- Spacecraft Bus- Sunshield
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Deployment of JWST On Orbit
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Image-Based Wavefront Sensing: From Hubble to the JWST
� When the Hubble Space Telescope was launched in 1990, its initial images were highly aberrated.
� Two investigative directions lead to the design & successful installation of the Corrective Optics Space Telescope Axial Replacement (COSTAR) corrective optics in 1993.
– Prof. Duncan Moore chaired the Hubble Independent Optical Review Panel– The multi-team Hubble Aberration Recovery Project (HARP) included Prof. James
Fienup, Joseph Marron PhD ’85, and Rick Lyon MS ’87.
� The success of some of the HARP teams’ use of image-based wavefront sensing (phase retrieval) to successfully determine the HST spherical aberration became a key enabling technology for JWST:
– Commissioning the observatory on orbit– Evaluating the science instruments’ wavefront error during ground testing
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JWST Optical Commissioning
� Aligning the OTE’s mirror segments, secondary mirror, and tertiary mirror on orbit is done using a multi-step, image-based commissioning procedure:
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Optical Telescope Element
� The Optical Telescope Element is a three-mirror anastigmat, with a primary, secondary, and tertiary mirror.
� The primary mirror is comprised of 18 Beryllium segments.� Each mirror segment can be moved in position, orientation, and ROC� The telescope is designed to have diffraction-limited performance above
2μm; it operates at a temperature of ~ 40K.
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JWST Science Instruments
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NIRCam, the Near Infrared Imager
� NIRCam is the primary imager for the JWST� Developed by University of Arizona & Lockheed Martin ATC� Operates at 0.6 – 5.0μm, separated into shortwave & longwave
channels� Used for imaging and coronagraphy*� HgCdTe detector, 2048 x 2048 pixel arrays (10 in all)� Supports wavefront sensing for commissioning and maintenance� Refractive optics
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Coronagraph Elements
Dichroic Beamsplitter
Collimator Triplet Subassembly
First Fold Mirror Subassembly
Shortwave Filter Wheel Assembly Elements
Shortwave Triplet Subassembly
Shortwave Fold Mirror
Pupil Imaging Lens
Shortwave Focal Plane Housing Fold Mirror
Longwave Focal Plane Housing Fold Mirror
Longwave Triplet Subassembly
Longwave Filter Wheel Assembly Elements
Pick-off Mirror Subassembly
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MIRI, the Mid Infrared Imager
� Developed by a European Consortium and JPL� Operates at 5 - 29 μm� Used for mid-IR imaging (1.9 x 1.4 arcmin FOV), coronagraphy, and
spectroscopy (R100 long slit, R2000 over 3.5 x 3.5 and 7 x 7 arc sec FOV integral field units)
� Si:As detector, 1024 x 1024 pixel array� Uses external 7 K cryo-cooler
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NIRSpec, the Near Infrared Spectrograph
� Developed by the European Space Technology Center (ESTEC) with Astrium GmbH and Goddard Space Flight Center
� Operates at 0.6 – 5.0 μm� Spectrographs can be obtained through programmable microshutters (for
spatially resolved spectra), fixed long slits, or an image slicer (IFU)
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MIcro-shutterArray
(f/12.5) Collimator
Prism/GratingWheel
CameraDetector
Array(f/5.67)
Telescope Focus (f/20)
Foreoptics
FilterWheel
Pick-off Mirror(s)
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FGS/NIRISS
� Developed by the Canadian Space Agency and COM DEV� Operates at 0.8 – 4.8 μm� The Fine Guidance Sensor is used for telescope pointing.
There are two separate FGS modules for redundancy.� The Near Infrared Imager and Slitless Spectrograph complements
NIRCam’s imagery and NIRSpec’s spectrographs. Slitless spectrographs give spectra in one direction as well as imagery.
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JWST Integration Steps & Test Campaigns
� All the optics for the JWST (the OTE mirrors, the ISIM science instruments) have been built and tested as components
� Optical testing for the JWST consists of two test campaigns:
– ISIM Level Testing:The Science Instruments are placed in the Integrated Science Instrument Module (ISIM) & tested as a unit, using the OTE Simulator (OSIM) as a light source.This testing takes place at NASA’s Goddard Space Flight Center in Greenbelt, MD.There will be 3 cryo-vacuum tests of the instruments (2013, 2014, 2015)
– OTIS Level Testing:The ISIM and OTE are tested together (OTE + ISIM = OTIS), using sources in the middle of the structure as a light source (the Aft Optical System Source Plate Assembly, ASPA).These tests will take place at NASA’s Johnson Space Center in Houston, TX. There will be a single cryo-vacuum test of OTIS (2017)
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ISIM-Level Testing
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Integration into the ISIM Structure
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GSFC’s Space Environment Simulator Chamber
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ISIM-Level Testing with OSIM
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ISIM Lowered Into the Space Environment Simulator
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ISIM-Level Tests
� Optical tests at ISIM level are designed to test the focus, wavefront error, boresight & pupil shear for the science instruments.
� Focus and wavefront error are established using focal sweeps, taking a set of images with the focus intentionally adjusted between frames. Near-focus data is used to establish best focus and far-defocused images are used to establish wavefront error using phase retrieval.
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A Rochester Shout-Out: NIRSpec Coronagraph Wavefront Error
� NIRCam has LEDs mounted inside it that can be used to align and test the coronagraphic channel. When used with a circular aperture & a prism in NIRCam, this can be used as a way to monitor the NIRCam optical performance, separate from the external illumination and testing environment.
� The prisms in the NIRCam longwave channel were installed incorrectly and this test can’t proceed as envisioned.
� Dr. Fienup’s group (Alden Jurling & Dustin Moore) is applying their work in Transverse Translation Diversity to develop the method for being able to do this optical monitoring of NIRCam’s longwave channel
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OTIS-Level Testing
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OTE Mirror Segments Under Test
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Optical Alignment Stand for OTE Mirror Segments
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Johnson Space Center Chamber A
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JSC Chamber A Under Renovation
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OTIS-Level Testing
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Hanging Configuration Down Rods Upper Suspension Frame (USF) Telescope Tension Rods Hardpoint Offloader Support
Structure (HOSS)
Cryo Position Metrology (CPM) 4 photogrammetry (PG)
windmills in warm canisters Absolute Distance
Measurement (ADM) on HOSS Targets and codes Scale Bars
Center of Curvature Optical Assembly (COCOA) Multiwavelength interferometer Null lens Calibration equipment Coarse/fine PM phasing tools Displacement Measuring
Interferometer
Space Vehicle Thermal Simulator (SVTS) w/ cryo-cooler and electronics
Chamber Vibration Isolators
3 AutoCollimating Flat Mirrors (ACFs)
Piston and Tilt actuation
AOS Source Plate and cable w/ fishing pole support
Deep Space Edge Radiation Sink (DSERS)
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OTIS-Level Tests
� Radius of curvature tests using the Center of Curvature Optical Assembly (COCOA)
� Tests using the Aft Optical System (AOS) Source Plate Assembly (ASPA):– “Pass And A Half” Test for measuring OTE + ISIM instruments
Use Auto-Collimating Flats (ACFs) for returning light through the system– Half Pass Test for measuring OTE Tertiary Mirror, Fine Steering Mirror, and the
ISIM instruments
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