uv technology developments at mps · 2012-08-07 · uv technology developments at mps udo schühle...
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![Page 1: UV Technology Developments at MPS · 2012-08-07 · UV Technology Developments at MPS Udo Schühle . Udo Schühle, MPS, 11 JAN 2010 SO Instruments with MPS H/W contributions Investigation](https://reader033.vdocuments.us/reader033/viewer/2022042102/5e7ee7d9e317e76a3c6093c9/html5/thumbnails/1.jpg)
Udo Schühle, MPS, 11 JAN 2010
UV Technology
Developments at MPS
Udo Schühle
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Udo Schühle, MPS, 11 JAN 2010
SO Instruments with MPS H/W contributions Investigation Measurements
Solar Wind Analyzer (SWA) Solar wind ion and electron bulk properties, ion composition (1eV- 5
keV electrons; 0.2 - 100 keV/q ions)
Energetic Particle Detector
(EPD)
Composition, timing, and distribution functions of suprathermal
and energetic particles (8 keV/n – 200 MeV/n ions; 20-700 keV
electrons)
Magnetometer (MAG) DC vector magnetic fields (0 – 64 Hz)
Radio & Plasma Waves (RPW) AC electric and magnetic fields (~DC – 20 MHz)
Polarimetric and Helioseismic
Imager (PHI)
Vector magnetic field and line-of-sight velocity in the photosphere
EUV Imager (EUI) Full-disk EUV and high-resolution EUV and Lyman-α imaging of the
solar atmosphere
Spectral Imaging of the Coronal
Environment (SPICE)
EUV spectroscopy of the solar disk and corona
X-ray Spectrometer Telescope
(STIX)
Solar thermal and non-thermal X-ray emission (4 – 150 keV)
Coronagraph (METIS/COR) Visible, UV and EUV imaging of the solar corona
Heliospheric Imager (SolOHI) White-light imaging of the extended corona
major hardware contributions of MPS
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Udo Schühle, MPS, 11 JAN 2010
SO Remote-sensing instruments: PHI,
METIS
3-D view of PHI
3-D View of METIS
VUV detector
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Udo Schühle, MPS, 11 JAN 2010
SO Remote-sensing instruments: EUI, SPICE
3-D view of the EUI
instrument configuration
HRI EUV
HRILy-α
FSI
3-D Schematic view of SPICE
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Udo Schühle, MPS, 11 JAN 2010
VUV optical technology for Solar
Orbiter
Heritage: VUV spectrograph SUMER on SOHO
Developments for Solar Orbiter:
1. Primary mirror for SPICE
2. Lyman-a telescope for EUI
3. Solar-blind UV detectors for EUI and METIS
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Udo Schühle, MPS, 11 JAN 2010
VUV spectrograph SUMER on
SOHO
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Udo Schühle, MPS, 11 JAN 2010
Radiometric transfer standard source
SUMER calibration source recently recalibrated at PTB/BESSY
Developements for Solar Orbiter EUS
SUMER test and calibration vacuum tank at MPS: 300 cm x 90 cm diameter
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Udo Schühle, MPS, 11 JAN 2010
VUV spectrograph SUMER on SOHO
Raster scans of the solar Transition Region
O VI 1032A C III 977A
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Udo Schühle, MPS, 11 JAN 2010
Fe XII 124.2 nm O V 62.9 nm N V 123.8 nm cont. ~125 nm vis 633 nm
VUV spectrograph SUMER on SOHO
raster scan
of sunspot:
raster scan
of polar region:
Fe XII 124.2nm
Mg X 60.9nm
N V 123.8nm
C I 124.9nm
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Udo Schühle, MPS, 11 JAN 2010
900 mm
70 m
m
TVLS grating
700 mm
250 m
m
slit
Developments for Solar Orbiter SPICE
design with two optical elements using off-axis
parabola telescope and toroidal variable-line space
grating off-axis paraboloid
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Udo Schühle, MPS, 11 JAN 2010
Developments for Solar Orbiter SPICE
heat management through the primary mirror
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Udo Schühle, MPS, 11 JAN 2010
Study of a dichroic telescope mirror
==> heat will be transmitted towards a radiator
Developments for Solar Orbiter
SPICE
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Udo Schühle, MPS, 11 JAN 2010
SPICE primary mirror design
with thin B4C coating
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Udo Schühle, MPS, 11 JAN 2010
VUV tests with mirror samples
VUV reflectometer
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Udo Schühle, MPS, 11 JAN 2010
Space qualification of mirror
coatings
• Space radiation simulation: irradiation with 10 - 60 MeV protons
• Solar wind simulation: irradiation with 1 keV protons (mission
equivalent dose)
• Solar UV simulation: irradiation with UV (20 solar constants)
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Udo Schühle, MPS, 11 JAN 2010
Degradation by solar wind protons
after irradiation with 1017 protons of 1 keV
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Udo Schühle, MPS, 11 JAN 2010
EUI telescope design
EUI: suite of 3 telescopes
HRI Lyman-a channel 121.6 nm
HRI EUV channel 17.4 nm
FSI dual EUV channel
17.4 and 30.4 nm nm
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Udo Schühle, MPS, 11 JAN 2010
EUI Lyman-a telescope design
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Udo Schühle, MPS, 11 JAN 2010
Ly-a channel components
• Telescope entrance baffle door mechanism
• Solar-blind Lyman-a detector
• Optics: – Lyman-a narrow band filter (121.6 nm) by Acton Research C. inc.
– off-axis parabola mirror 30 mm diameter, Al/MgF2 coating
– off-axis parabola secondary mirror, Al/MgF2 coating
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Udo Schühle, MPS, 11 JAN 2010
EUI Door mechanism design
This door mechanism is based on a stepper motor drive
moving two lids along two parallel translation bars.
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Udo Schühle, MPS, 11 JAN 2010
EUI Lyman-a channel detector
The Lyman-a detector:
a solar-blind intensified
CMOS/APS camera
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Udo Schühle, MPS, 11 JAN 2010
MCP stack fiber optic blocks
APS sensor board
FEE board
Coupling MCP intensifier with APS image
sensor
STAR 1000
visible CMOS-APS sensor
MCP housing
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Udo Schühle, MPS, 11 JAN 2010
Camera assembly and vibration test
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Udo Schühle, MPS, 11 JAN 2010
Photocathode deposition chamber at
MPS
made deposition of CsI and KBr
up to thickness of 1000 nm
with 1 nm resolution
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Udo Schühle, MPS, 11 JAN 2010
FM2
KBr photocathode deposition
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Udo Schühle, MPS, 11 JAN 2010
• intensifier based on microchannel plates with KBr photocathode coating
• coupling with active pixel sensor (APS)
• APS electronic readout circuitry
• space qualification: vibration, acoustic, thermal, radiation hard
Development of I-APS detector
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Udo Schühle, MPS, 11 JAN 2010
Advantages of I-APS
PROS:
• most flexible in terms of focal plane size: may be adjusted by fiber optic taper
• most flexible dynamic range: may be adjusted from photon-counting to current-integration mode in several ways:
• photocathode selection for spectral ranges
• adjustable gain by HV
• selectable attenuation of phosphor by ND-filter
• solar blindness (saves a filter!)
• operation at room temperature (less cooling needed, no contamination problem)
• high responsivity in full VUV and EUV range
CONS:
• fragile multi-channel plates
• adjustable high voltage needed, up to 10 kV
• limited spatial resolution of MCPs: MTF of ~50 lines/mm
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Udo Schühle, MPS, 11 JAN 2010
Milestones / Achievements at MPS
• first coupling of intensifier with fiber optic faceplate and APS sensor achieved in March 2007
• build-up of photocathode deposition system at MPS in 2007
• photocathode deposition with (CsI and KBr) in January 2008
• development of 14-bit electronic readout for 1kx1k APS sensor in 2007
• design of electronic readout with high-rel parts in July 2008
• built first radhard system in 2009
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Udo Schühle, MPS, 11 JAN 2010
Space-qualifiable camera for the
Star-1000 APS sensor
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Udo Schühle, MPS, 11 JAN 2010
Design description
• The compact camera system is powered by external power system,
supplying all voltages needed by the readout system
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Udo Schühle, MPS, 11 JAN 2010
Image of a target. The yellow line is the
location of the profile shown below
Performance characterization
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Udo Schühle, MPS, 11 JAN 2010
Perfomance test with Lyman-a lamp
and extreme UV lamp