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SPACE TELESCOPE SCIENCE INSTITUTE

SPACE TELESCOPE SCIENCE INSTITUTE. Operated for NASA by AURA. The On-Orbit Performance of the Cosmic Origins Spectrograph Alessandra Aloisi (for the COS STScI team and the COS IDT) 21 July 2010. Highlights. Quick Overview of the Instrument Sensitivities and their Time Dependence

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SPACE TELESCOPE SCIENCE INSTITUTE

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  1. SPACE TELESCOPE SCIENCE INSTITUTE Operated for NASA by AURA The On-Orbit Performance of the Cosmic Origins Spectrograph Alessandra Aloisi(for the COS STScI team and the COS IDT)21 July 2010

  2. Highlights • Quick Overview of the Instrument • Sensitivities and their Time Dependence • Gain Sag of FUV Detector • On-orbit Line Spread Function • Darks and their Evolution • Flat Fields • Wavelength Calibration • COS-to-FGS Alignment • COS Documentation Aloisi – 21 July 2010 Slide 1 of 15

  3. Instrument Overview • FUV spectroscopy: R = 3,000 - 20,000 [1150 - 2050 Å] • NUV spectroscopy: R = 2,000 - 20,000 [1700 - 3200 Å] • Some NUV imaging capabilities (mostly used for TA) Aloisi – 21 July 2010 Slide 2 of 15

  4. COS Sensitivity • Superb in FUV • Comparable to STIS in NUV • NUV sensitivity in G225M & G285M is as expected at launch from grating degradation • Within 20% of ground values New COS & STIS on-orbit sensitivities Aloisi – 21 July 2010 Slide 3 of 15

  5. COS has Sensitivity down to the Lyman Limit • Mode currently supported in Cycle 18 (G140L @ 1280 Å Segment B) • Additional F &  characterization in Cycle 17 Calibration program 12081 • Two new G130M settings at R ~ 5,000 (1055 Å & 1096 Å) S. Osterman’s talk McCandliss et al. 2010, ApJ, 709, L183 McCandliss et al. 2009 ApJL, submitted G140L Mode R ~ 2,500 Aloisi – 21 July 2010 Slide 4 of 15

  6. Time Dependence of COS Sensitivity • COS sensitivity is regularly monitored as part of Cycle 17 & 18 Calibration Programs • NUV Sensitivities - gratings keep following pre-launch trends • Bare-Al gratings G225M and G285M continue to show grating-dependent but wavelength-independent decline on orbit at a rate similar or higher than pre-launch rates (up to ~ 10% per year ) • MgF2-coated gratings G185M and G230L continue to be stable • FUV Sensitivities – non localized wavelength-dependent decline up to ~ 12% per year at longer λ similar for all gratings suggestive of CsI photocathode aging (with each segment of the XDL detector having different rates) • COS TDS trends already included in ETC (v18.2) and in CALCOS See R. Osten’s talk fore more details Aloisi – 21 July 2010 Slide 5 of 15

  7. Gain Sag of COS FUV Detector • FUV cumulative images and maps of pulse height distributions as a function of time now available (fully implemented into pipeline for OPUS build 2010.4) • Evidence of detector gain sag (localized effect) • Gain after launch higher than on the ground • HV lowered during SMOV • Evolution of gain sag faster than expected • Consistent with on-orbit gas contamination around launch time • We are probably re-scrubbing the detector on-orbit • Gain sag is already slowing down in most heavily exposed areas • Very localized loss up to a few % in most heavily affected areas (geocoronal Lyα) • In the process to identify mitigativeactions See D. Sahnow’s poster C2 Aloisi – 21 July 2010 Slide 6 of 15

  8. COS On-Orbit FUV LSF FUV spectral resolution not quite as expected due to MFWFEs — 1150 Å (G130M) — 1450 Å (G130M) — 1750 Å (G160M) — Gaussian 6.5 pixel FWHM (no MFWFEs) • LSF power is distributed from core to wings • Effect is wavelength dependent, being most extreme in the FUV • R ~ 16,000 vs 20,000 @ 1300 Å See P. Ghavamian’s poster C5 Aloisi – 21 July 2010 Slide 7 of 15

  9. COS On-Orbit NUV LSF NUV spectral resolution at  > 2500 Å as expected • Contribution of MFWFE present also in NUV • Almost negligible longward of 2500 Å Aloisi – 21 July 2010 Slide 8 of 15

  10. COS FUV Darks • FUV dark rate away from SAA measured during SMOV was as expected from pre-launch estimates, i.e. ~ 1.5-2 x 10-6 cts/sec/pixel, when pulse-height filtering (4-30) is applied • FUV dark rate up to ~ 30 times higher close to the SAA boundary (before SAA model adjustment in May 2010) • Several weak features found for Segment B (Segment A is featureless) • TIME-TAG: most of the features removed by pulse-height filtering (4-30) during ground processing (already implemented into CALCOS) • ACCUM: suspect regions flagged; features too weak to affect very bright objects observed in this mode • FUV dark rate monitored weekly • No evolution with time • See D. Sahnow’sposter C2 G130M @ 1309 Å (Segment B) Aloisi – 21 July 2010 Slide 9 of 15

  11. COS NUV Darks • NUV dark rate away from SAA measured during SMOV was 6x10-5 cts/sec/pixel, significantly below prelaunch predictions (~ 20x10-5 cts/sec/pixel) • NUV dark rate up to ~ 15 times higher close to the SAA boundary until SAA model adjustment in May 2010 (no long-term phosphorescence in MAMA window after SAA passage) • NUV dark exposures relatively featureless • NUV dark rate monitored weekly • Approximately linear increase with time, once temperature fluctuations are taken into account • Currently slightly higher than prelaunch estimates, i.e. ~ 35x10-5 cts/sec/pixel • Still several times lower than current STIS NUV MAMA values See W. Zheng’s poster S1 Aloisi – 21 July 2010 Slide 10 of 15

  12. COS NUV Flat • NUV on-orbit flat (internal lamp) confirmed consistency with ground flat at higher S/N (alignment better than 1 pixel) • NUV flat field currently used • Combination of ground and on-orbit flats • Includes on-orbit vignetting (depression up to 15-20%) in first ~ 200 pixels • Vignetting currently implemented separately for M (G185M, G225M, G285M) and L (G230L) gratings • NUV flat field correction currently applied in CALCOS • NUV flat allows to achieve S/N > 100 per resel when combined with 4 different FP-POS positions with high S/N data NUV ground flat NUV flat for on-orbit data Aloisi – 21 July 2010 Slide 11 of 15

  13. COS FUV Flat “Berkeley” Flat of Segment A (whole detector, no grid wires) • 2D ground flats (Berkeley + TV03) still to be validated with on-orbit data • No 2D on-orbit flat with adequate S/N currently available • FUV flat field correction currently not applied in CALCOS • CALCOS currently omits grid wires and other defects when creating x1dsum files • 1D iterative technique combined with 4 different FP-POS positions looks promising and allows to achieve S/N > 100 per resel with high S/N data • Implementation of 1D flats on extracted spectra underway • New 1D flats for all FUV gratings to be obtained in Cycle 17 Calibration program 12086 • See T. Ake’s talk for more details on 1D flats Sum of the 8 rows indicated above Vallerga et al. 2001, SPIE 4498, 141 Aloisi – 21 July 2010 Slide 12 of 15

  14. COS On-Orbit Wavelength Calibration • TV03 demonstrated thatdispersion solutions of PSA and WCA differ from each other • PSA/WCA wavelength dispersion solutions obtained in TV03 • TV06 demonstrated that dispersion solution difference between WCA and PSA depends on optical alignment • SMOV data used to: • infer new on-orbit wavecal templates • measure on-orbit zeropoints compared to ground calibration • New CALCOS reference files that update wavelength calibration for most settings delivered in January 2010 (G185M still to be completed) • On-orbit wavelength scales for most settings meet requirements • 15 km/s for the M gratings • 150 km/s (175 km/s) for G140L (G230L) gratings • In a few cases, extra offsets of up to 10 pixels in FUV appear in part of the spectrum (nature & frequency of such localized distortions still under investigation) • Cycle 17 monitoring indicates that PSA to WCA on-orbit offsets are stable with time See C. Oliveira’s poster C4 Aloisi – 21 July 2010 Slide 13 of 15

  15. COS-to-FGS Alignment and TA • COS-to-FGS alignment optimized during SMOV and Cycle 17; SIAF tables updated • Figure includes centering slews in all TA sequences of GTO/GO programs since update of SIAF table in March 2010 • Alignment now appears to be accurate to within ~ 0.1” • Initial pointing now limited by accuracy of GSC2 catalogue (~ 0.2”) • Reconsidered the need for an ACQ/Search at start of each visit for Cycle 18 Phase II • Change will save time, especially for acquisitions of very faint targets • For faint targets, ACQ/Search can have problems with variable background • Coordinates need to be accurate within 0.4” Aloisi – 21 July 2010 Slide 14 of 15

  16. COS Documentation • On-orbit COS performance summarized in 10 published ISRs and 6 soon-to-be-published ISRs: http://www.stsci.edu/hst/cos/documents/isrs • Preliminary SMOV updates included into the Instrument Handbook for Cycle 18 (published in January 2010): http://www.stsci.edu/hst/cos/documents/handbooks/current/cos_cover.html • SMOV and Cycle 17 Calibration updates currently implemented into the Instrument Handbook for Cycle 19 (for publication in December 2010) • Visit our web pages at: http://www.stsci.edu/hst/cos Aloisi – 21 July 2010 Slide 15 of 15

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