SCIAMACHY Limb pointing: Geolocation and Intensities on the Level 1b product Sander Slijkhuis, Remote Sensing Technology Institute.

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Presentation transcript:

SCIAMACHY Limb pointing: Geolocation and Intensities on the Level 1b product Sander Slijkhuis, Remote Sensing Technology Institute

Slide 2 / /ACVE-3/ G. Lichtenberg et al Overview Consistency check: expected TH vs. values on L1b product Effect of ASM movement and detector readout time on measured Intensity profile (Straylight characterisation)

Slide 3 / /ACVE-3/ G. Lichtenberg et al ESM mirror position and nominal TH values The ESM LOS angle on L1b product is: Direct transformation of encoder values: ESM = x (#degree/enc.step) – zero_offset Reflects command execution of instrument TH value on L1b product is: Orbit propagator calculation, using LOS from ASM/ESM, satellite position (state vector), mispointing angles, Ellipsoid model (’84) Purely geometric, no refraction TH w.r.t Ellipsoid, not above ground From intended TH to L1b TH: TH(input) orbit.prop. > SM.angles(input) scan profile > SM.angles(true) SM Positioning > SM.encoder orbit.prop. >TH (L1b) ?? Can scan profile cope with real constant TH during horizontal sweep

Slide 4 / /ACVE-3/ G. Lichtenberg et al ESM mirror position and nominal TH values(II) ESM LOS, Orbit 21883, first state

Slide 5 / /ACVE-3/ G. Lichtenberg et al ESM mirror position and nominal TH values(III) TH L1b, Orbit 21883, first state

Slide 6 / /ACVE-3/ G. Lichtenberg et al ESM mirror position and nominal TH values(IV) TH minus 3.28 km step size, Orbit 21883, first state

Slide 7 / /ACVE-3/ G. Lichtenberg et al ESM mirror position and nominal TH values(V) TH minus 3.28 km step size, Orbit 21883, states 1-16

Slide 8 / /ACVE-3/ G. Lichtenberg et al ESM mirror position and nominal TH values(VI) TH minus 3.28 km step size, Orbit 21883, states 17-30

Slide 9 / /ACVE-3/ G. Lichtenberg et al ASM mirror position and nominal Longitude ASM LOS, Orbit 21883, first state

Slide 10 / /ACVE-3/ G. Lichtenberg et al ASM mirror position and nominal Longitude(II) There is a shift in longitude between even and odd horizontal sweeps: Note: plotted shift is for pixel 0 (1023 in channel 2) For pixel 1023 (0 in channel 2) shift is 1/6 pixel smaller and near- zero For a homogeneous ground/cloud albedo, there is an intensity gradient from East to West Due to shift, this gives alternating intensities in profile If ‘knee’ is always at same profile step, this might lead to systematic offset in knee height Straylight comes from the total clear FOV. If straylight influences the limb retrieval, its relative contribution is statistically larger for West columns than for East columns

Slide 11 / /ACVE-3/ G. Lichtenberg et al ASM mirror position and Intensity profiles Intensity profile at 350 nm, for 4 vertical columns, Orbit 5914, states 0-3

Slide 12 / /ACVE-3/ G. Lichtenberg et al Summary There is a jitter in ESM / TH retrieval with amplitude of ~100m. Not understood. ASM scan profile results in column shift between odd/even horizontal sweeps. East-West gradient in intensity, in combination with column shift or straylight, might give rise to East-West differences in retrieved profile.