characterization of sim on sircus -...
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![Page 1: Characterization of SIM on SIRCUS - |LASP|CU-Boulderlasp.colorado.edu/media/projects/SORCE/documents/SSI_Workshop… · – Using the SIRCUS lasers and the Cryogenic Radiometer, we](https://reader036.vdocuments.site/reader036/viewer/2022071403/60f77c046fa199143f2ef4c3/html5/thumbnails/1.jpg)
Capabilities of NIST SIRCUS for Calibrations of SSI Vis-IR
Instruments
Steve Brown National Institute of Standards & Technology
Gaithersburg, MD
[email protected]; 301.975.5167
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Answer: Ask LASP folks In 2005/2006, SIRCUS measured a SIM brassboard slit scatter function & ESR responsivity with Erik Richard, Jerry Harder and Colleagues from Laboratory for Atmospheric and Space Physics
(LASP), Boulder CO
• Spectral Irradiance Monitor (SIM) on SORCE – SIM is a Fèry prism spectrometer; only one optical element is needed to disperse and focus
the light onto four photodiode detectors and an electrical substitution radiometer (ESR).
2012 February Solar Spectral Irradiance (SSI) Variations Workshop 2
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SIM Brassboard Slit Scatter Function
3 Solar Spectral Irradiance (SSI) Variations Workshop 2012 February
J. W. Harder, G. Thuillier, E. C Richard, et al., “The SORCE SIM Solar Spectrum Comparison with recent observations,” Solar Phys. 263, 3-24 (2010).
Grey lines – ray trace model
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ESR Efficiency Results
4 Solar Spectral Irradiance (SSI) Variations Workshop 2012 February
Net result was that the radiometric response of the SIM instrument needs to be increased by a factor of 1.013 across the 258 nm to 1350 nm regime.
J. W. Harder, G. Thuillier, E. C Richard, et al., “The SORCE SIM Solar Spectrum Comparison with recent observations,” Solar Phys. 263, 3-24 (2010).
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SSI Workshop 1, September 2006
Worthwhile repeating the measurements
5 Solar Spectral Irradiance (SSI) Variations Workshop 2012 February
Solution: NIST loaned LASP an L-1 Stnds&Technol cryogenic radiometer and a Traveling SIRCUS system
Contact: Dave Harber, LASP, [email protected]
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NIST SIRCUS Capabilities for SSI Measurements in the Reflected Solar Regime
• Introduction to SIRCUS
• What do we need the facility to do? – Available irradiance
– Uncertainty requirements
• Can SIRCUS achieve irradiance levels and uncertainties required for SSI climate change sensors?
2012 February Solar Spectral Irradiance (SSI) Variations Workshop 6
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Facility for Spectral Irradiance and Radiance responsivity Calibrations using Uniform Sources
2012 February Solar Spectral Irradiance (SSI) Variations Workshop 7
• Develop broadly tunable laser systems to replace – Fixed frequency laser systems for scale
derivations
– Lamp-monochromator systems for detector calibrations
NIST Radiant Flux (Power) Uncertainties
— Extend the spectral region of low uncertainty; — Extend to irradiance and radiance responsivity
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Coupling Tunable Lasers with Cryogenic Radiometers Scale Derivations
Historically QE measured at a few points and interpolated using a physical
model developed at NIST
• Developed for the 405 nm to 920 nm spectral region
• Uncertainties tend to be much larger outside this spectral region
With SIRCUS, we can 1. directly measure and fit the
quantum efficiency of Si trap detectors
2. extend the spectral coverage beyond the Si region
0.975
0.980
0.985
0.990
0.995
1.00
400 500 600 700 800 900 1000
ηe
λ [nm]
0.960
0.965
0.970
0.975
0.980
0.985
0.990
0.995
1.00
300 400 500 600 700 800 900 1000
EQE
Wavelength (nm)
2012 February 8 Solar Spectral Irradiance (SSI) Variations Workshop
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SIRCUS
• Lasers determine the spectral coverage
• Detectors determine the uncertainties ultimately achievable
2012 February 9 Solar Spectral Irradiance (SSI) Variations Workshop
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2012 February Solar Spectral Irradiance (SSI) Variations
Workshop 10
Optical Power: Lasers v. Lamp Monochromator Systems
0.01
0.1
1
10
200 400 600 800 1000 1200 1400 1600 1800M
onoc
hrom
ator
Out
put F
lux
(Pow
er) [
µW]
Wavelength (nm)
840 nm
600 nm 985 nm
1270 nm
1385 nm
420 nmArgon Mini-Arc
100 W Quartz-Halogen Lamp
NIST Lamp-Monochromator SIRCUS
1000 mW 1 µW
SIRCUS: 106 times more power
Does SIRCUS provide enough Irradiance?
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Does SIRCUS provide enough Irradiance? SIRCUS irradiance levels (in a 2 inch beam) compared with
solar levels (in a 10 nm bandpass)
Linear Plot ETR ASTM E-490 vs. Wehrli WMO
0200400600800
1000120014001600180020002200
0 0.5 1 1.5 2 2.5 3 3.5 4
Wavelength micrometers
Spec
tral
Irra
dian
ce W
*m-2
*mic
ron-1
11 Solar Spectral Irradiance (SSI) Variations
Workshop 2012 February
E-490 (10 nm bp) v SIRCUS (5 cm diameter beam)
1.E-04
1.E-03
1.E-02
1.E-01
1.E+00
1.E+01
1.E+02
1.E+03
1.E+04
200 400 600 800 1000 1200
Wavelength /nm
Irra
dia
nce
/(W
/m2)
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SSI Uncertainty Requirements for Climate Studies
2012 February Solar Spectral Irradiance (SSI) Variations
Workshop 12
TRUTHS Requirements for SSI: < 0.1 % (k=1)
Can SIRCUS achieve the required uncertainty? How are the uncertainties validated?
NPOESS SIM instrument: relative uncertainty of 0.01 % and a combined absolute Uncertainty of < 0.5 % from 200 nm to 2400 nm. Erik Richard, et al.
CLARREO: solar reflected radiation 0.3 % (k=2)
SIRCUS Propagated Uncertainties (Si region)
Distance Aperture Area Uniformity exit port (radiance) ref plane (irradiance)
Detector Responsivity
I-V Gain factor Laser
Reference Detector
V
0.075 % (k=2)
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Validating SIRCUS Uncertainties Development of Imaging Radiometers
Howard Yoon, David Allan, & colleagues, NIST
Advanced Pyrometer 1 Gold-point Blackbody
2012 February 13 Solar Spectral Irradiance (SSI) Variations
Workshop
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Radiance Responsivity of the Absolute Pyrometer 1 (AP1) and Spectral Radiance from the Gold-Point Blackbody
2012 February Solar Spectral Irradiance (SSI) Variations Workshop 14
400 500 600 700 800 900 100010-14
10-12
10-10
10-8
10-6
10-4
10-14
10-12
10-10
10-8
10-6
10-4
1337.33 K
Spe
ctral
Radi
ance
, L [
W/(c
m2 sr)
nm
]
Radi
ance
Res
pons
ivity
, SL [
A/W
/(cm
2 sr) ]
Wavelength [ nm ]
Howard Yoon, NIST
( ) ( ) ( ),PlanckS A L T R dλ λ λ= ∫
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Melting and Freezing Cycles of the Gold-point Blackbody
2012 February Solar Spectral Irradiance (SSI) Variations
Workshop 15
0 200 400 600 800 1000 1200 14001320
1330
1340
1350
1360
1370
T AP1 [
K ]
Time [ min ]
Howard Yoon, NIST
AP-1 Measurements
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Temperature Determination of a Gold-point Blackbody Source
1337.1 1337.2 1337.3 1337.4 1337.5 1337.6 1337.79.990x10-11
1.000x10-10
1.001x10-10
1.002x10-10
1.003x10-10
1.004x10-10
1.005x10-10
1.006x10-10
1.007x10-10
TT900.15 % (k=2) in Radiance Resp.120 mK
1337.54 K1337.33 K
Phot
ocur
rent
[ A
]
Temperature [ K ]
2012 February 16 Solar Spectral Irradiance (SSI) Variations Workshop
H. Yoon, NIST
Radiometric
T90=International Temperature Scale of 1990
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Acknowledge: SIRCUS Personnel • Keith Lykke, Leader
• SIRCUS Staff
– Steve Brown, Ping Shaw, Allan Smith
• Contributors
– George Eppeldauer, Transfer Standard Detectors
– Joe Rice & Jeanne Houston, Primary Optical Watt Radiometer (POWR)
– Colleen Jenkins, Mike Lin, Technical Support
2012 February Solar Spectral Irradiance (SSI) Variations Workshop 17
Conclusions • SIRCUS has both the flux levels and the uncertainties (from
210 nm to 1.6 µm) required to support characterization and calibration of Solar Spectral Irradiance sensors
• Demonstrated success looking at a SIM Breadboard instrument at NIST and work currently underway at LASP
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Things Dave Harber has been up to at LASP with SIRCUS lasers and L-1 cryo radiometer
• Previously: – Used the SIRCUS lasers to measure the flight TSIS SIM Fery prism
transmission from 211-2400 nm • This is a measurement of the Fresnel reflection and Aluminum reflection
losses in the Fery prism – Using the SIRCUS lasers and the Cryogenic Radiometer, we calibrated
the TSIS SIM electrical substitution radiometer (ESR) from 211 nm to 2400 nm
• Currently: – Using the SIRCUS lasers to calibrate the wavelength scale of the SIM
flight instrument and to measure the instrument response function as a function of wavelength and pointing, from 211 nm to 2400 nm
• Up Next: – Use the SIRCUS lasers and the Cryogenic Radiometer to calibrate the
end-to-end radiometric sensitivity of SIM, from 211 nm to 2400 nm
2012 February Solar Spectral Irradiance (SSI) Variations Workshop 18