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© Copyright 2006 ABB Bomem Inc. All rights reserved. Page 1 ACE-FTS instrument: after 7.5 years on-orbit Henry Buijs ABB Ryan Hughes U. Of Waterloo.

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Presentation on theme: "© Copyright 2006 ABB Bomem Inc. All rights reserved. Page 1 ACE-FTS instrument: after 7.5 years on-orbit Henry Buijs ABB Ryan Hughes U. Of Waterloo."— Presentation transcript:

1 © Copyright 2006 ABB Bomem Inc. All rights reserved. Page 1 ACE-FTS instrument: after 7.5 years on-orbit Henry Buijs ABB Ryan Hughes U. Of Waterloo

2 © Copyright 2006 ABB Bomem Inc. Page 2 FTS heritage ABB Bomem formerly Bomem Inc. Balloon borne solar occultation (1975-1980) To elucidate Stratospheric chemistry related to ozone depletion Successful commercialization of very high resolution FTS DA8 series with 0.0026 cm-1 resolution (1980-2005) Dynamic alignment flat mirror interferometer Technology used for Cris Used in many labs to contribute to HITRAN data base Successful commercialization of a rugged industrial FTS MB100 series 1986-present “Wishbone” scan arm with cube corner mirrors No alignment required Technology used for most ABB satellite FTS projects

3 © Copyright 2006 ABB Bomem Inc. Page 3 FTS heritage ABB Bomem formerly Bomem Inc. Ground based Hyper-spectral sounder Measures down-welling spectral radiance Permits Temperature and moisture profiling from ground Good vertical resolution in boundary layer Joint development project with U of Wisconsin Autonomous operating 3 rd gen

4 © Copyright 2006 ABB Bomem Inc. Page 4 Background Atmospheric Chemistry Experiment ( ACE) development started early 1999 (Phase B contract award) under Canadian Space Agency’s Space Science program. Mission objectives: better understanding of atmospheric chemistry of ozone The instrument suite includes an FTS, two 128x128 sun imagers and an active sun-tracker Prime contractor is ABB Bomem Inc., with main subcontractors Ball Aerospace and EMS Technologies. Many persons have contributed to the ACE-FTS development, including universities and research labs. The FTS design is based on the classical Michelson interferometer with a double-pass optical layout. It is tilt and shear compensated and requires no active alignment. The ACE-FTS Instrument was launched August 12 th, 2003

5 © Copyright 2006 ABB Bomem Inc. Page 5 Main Design and Programmatic Requirements ACE science objectives require High spectral resolution (0.02 cm -1 ), High SNR (> 100) Wide spectral coverage (750-4100 cm -1 ) Combination of these three requirements resulted in a challenging instrument design. Jacquinot merit factor W is >3x10 7 Highest merit factor ever targeted for a space-borne spectrometer operating in the infrared. Instrument design is also constrained by low mass (40 kg), power (40 W) and volume allocations from the spacecraft bus. Scisat-1 mission is a small satellite mission concept Program required to design and manufacture a low cost, quickly- developed instrument while keeping risks as low as possible.

6 © Copyright 2006 ABB Bomem Inc. Page 6 Scisat-1 spacecraft

7 © Copyright 2006 ABB Bomem Inc. Page 7 ACE-FTS Optical Layout

8 © Copyright 2006 ABB Bomem Inc. Page 8 ACE interferometer

9 © Copyright 2006 ABB Bomem Inc. Page 9 The ACE-FTS Instrument Interferometer-side Input Optics-side

10 © Copyright 2006 ABB Bomem Inc. Page 10 ACE-FTS Interferometer Sub-System ACE-FTS still operating on the primary redundancy side at full resolution Metrology laser power shows a decrease of less than 2% observed over 7.5 years Excellent reliability of the ACE-FTS (more than three original mission lifetime requirement)

11 © Copyright 2006 ABB Bomem Inc. Page 11 Integration to spacecraft bus

12 © Copyright 2006 ABB Bomem Inc. Page 12 SciSat Inside the Pegasus Fairing

13 © Copyright 2006 ABB Bomem Inc. Page 13 ACE in orbit

14 © Copyright 2006 ABB Bomem Inc. Page 14 Orbit Characteristics Circular orbit Altitude 650 km, Orbital period 98 min. Inclination 74° Selected to provide high latitude occultations Solar occultation mission Approximately 15 occultations /day (~5400/year) Tangent height

15 © Copyright 2006 ABB Bomem Inc. Page 15 Coverage characteristics

16 © Copyright 2006 ABB Bomem Inc. Page 16 Coverage characteristics

17 © Copyright 2006 ABB Bomem Inc. Page 17 Spectral analysis method Exo-atmospheric spectra Do not contain any atmospheric features Provide instrument response to solar spectrum Atmospheric spectra include above + atmospheric absorptions Ratio atmospheric/exo-atmospheric provides precise atmospheric transmission Subtracting transmission loss of higher layers provides transmittance at tangent height only Optical beam at tangent height is ~ 3 km Limits vertical resolving power Scan time is 2 s. Rate of change during scan depends on beta angle

18 © Copyright 2006 ABB Bomem Inc. Page 18 Ace spectra NO2 region Many weak lines of NO2

19 © Copyright 2006 ABB Bomem Inc. Page 19 B3M compared with ACE data CFC12 region CFC12 HNO3

20 © Copyright 2006 ABB Bomem Inc. Page 20 B3M compared with ACE HCl region HCl

21 © Copyright 2006 ABB Bomem Inc. Page 21 B3M compared with ACE and DA8 HCl B3M DA8 ACE

22 © Copyright 2006 ABB Bomem Inc. Page 22 ACE profiles

23 © Copyright 2006 ABB Bomem Inc. Page 23 Profile performance Very good absolute concentration determination Limited by HITRAN issues Calibration cannot change over time Does not rely on blackbody calibration sources Exo-atmosphere/atmosphere ratio Vertical resolution ~ 3 km Vertical sampling < 1km Lower limit of profile Limited by cloud Limited by spectral saturation Upper limit of profile Limited by sensitivity

24 © Copyright 2006 ABB Bomem Inc. Page 24 Example result, CO2 study (P.Y. Foucher et al)

25 © Copyright 2006 ABB Bomem Inc. Page 25 On-orbit SNR comparison mid-march 2004 (ss3171) and mid-march 2008 (ss24754) Source: ACE Science Team (Ryan Hughes, UofWaterloo) SNR increase SNR degradation

26 © Copyright 2006 ABB Bomem Inc. Page 26 Frequency of occultations with ice 2004 to 2007 2004200520062007

27 © Copyright 2006 ABB Bomem Inc. Page 27 On-orbit FTS temperature (interferometer beamspliter) 2004-2008 In date of June 2008, the temperature of the instrument is 25 degrees Celcius in average; there is still room for further temperature increase as the instrument was qualified during TVAC for temperatures from 0 to 40 degrees Celcius. S/C anomaly Increase of temperature of ~1deg/year observed Source: ACE Science Team (Ryan Hughes, UoWaterloo)

28 © Copyright 2006 ABB Bomem Inc. Page 28 Data processing Level 2 data Concentration profiles of molecules Official data processing soon in 5 th version Version 1.0Version 2.0Version 2.1Version 2.2Version 3.0 (tentative) H 2 O, O 3, N 2 O, CO, CH 4, NO, NO 2, HNO 3, HF, HCl, N 2 O 5, ClONO 2, CCl 2 F 2, CCl 3 F, COF 2, CHF 2 Cl, HDO, SF 6 H 2 O, O 3, N 2 O, CO, CH 4, NO, NO 2, HNO 3, HF, HCl, N2O 5, ClONO 2, CCl 2 F 2, CCl 3 F, COF 2, CHF 2 Cl, SF 6, OCS, HCN, CF 4, CH 3 Cl, C 2 H 2, C 2 H 6, N 2 H 2 O, O 3, N 2 O, CO, CH 4, NO, NO 2, HNO 3, HF, HCl, N 2 O 5, ClONO 2, CCl 2 F 2, CCl 3 F, COF 2, CHF 2 Cl, SF 6, OCS, HCN, CF 4, CH 3 Cl, C 2 H 2, C 2 H 6, N 2, ClO H 2 O, O 3, N 2 O, CO, CH 4, NO, NO 2, HNO 3, HF, HCl, N 2 O 5, ClONO 2, CCl 2 F 2, CCl 3 F, COF 2, CHF 2 Cl, HDO, SF 6, OCS, HCN, CF 4, CH 3 Cl, C 2 H 2, C 2 H 6, N 2, ClO, as well as isotopologues for some of these molecules H 2 O, O 3, N 2 O, CO, CH 4, NO, NO 2, HNO 3, HF, HCl, N 2 O 5, ClONO 2, CCl 2 F 2, CCl 3 F, COF 2, CHF 2 Cl, HDO, SF 6, OCS, HCN, CF 4, CH 3 Cl, C 2 H 2, C 2 H 6, N 2, ClO,HCOOH, CH 3 OH, CCl 4, CFC- 113, HCFC-142b, COCl 2, COClF, H 2 CO, HFC- 134a, as well as isotopologues for some of these molecules

29 © Copyright 2006 ABB Bomem Inc. Page 29 Molecules measured for the first time ACE-FTS is the first instrument on-orbit to measure the following molecules: CFC-113 HCFC-142b COClF COCl 2 (phosgene) formic acid methanol Ethene Propyne Formaldehyde Acetone PAN (peroxyaceylnitrate)

30 © Copyright 2006 ABB Bomem Inc. Page 30 Future trends Improved vertical resolution Image slicing Maintain basic throughput With <1 km vertical resolution Improved solar tracking Account for distortion due to refraction Cloud discrimination

31 © Copyright 2006 ABB Bomem Inc. Page 31 Future trends

32 © Copyright 2006 ABB Bomem Inc. Page 32 Future trends Lower cost missions To increase number of sensors Some reduction of spectral resolution Since ACE has shown the detailed spectrum Good retrievals are possible at lower resolution Smaller instrument Faster scanning Higher SNR Include shorter wavelength To avoid saturation of spectra at lowest altitudes Using weaker overtone Near IR bands

33 © Copyright 2006 ABB Bomem Inc. Page 33 Scientific papers About 130 publications identified so far (July 2008) More than 104 with review committees

34 © Copyright 2006 ABB Bomem Inc. Page 34 Conclusion ACE-FTS on Scisat-1 has significantly exceeded its 2 years mission 7 th anniversary on August 12, 2010 Very good in-flight performances Excellent scientific returns Thanks to all ACE/SciSat-1 team !

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