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The Infrared Sky: Background Considerations for JWST

The Infrared Sky: Background Considerations for JWST. Dean C. Hines & Christine Chen MIRI Instrument Team. The Visible (Optical) Sky. The Visible vs the Infrared Sky. The Visible vs the Infrared Sky. Infrared Background Sources.

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The Infrared Sky: Background Considerations for JWST

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  1. The Infrared Sky: BackgroundConsiderations for JWST Dean C. Hines & Christine ChenMIRI Instrument Team

  2. The Visible (Optical) Sky

  3. The Visible vs the Infrared Sky

  4. The Visible vs the Infrared Sky

  5. Infrared Background Sources • Three primary sources of diffuse light in the astronomical sky • Extragalactic – light from unresolved objects (galaxies and QSOs) • Galactic – mostly star-light reprocessed by material in the Interstellar Medium (ISM) • Solar System – sun light reprocessed by material within the solar system • These astronomical components are highly wavelength dependent • Visible and near-Infrared (NIR) – dominated by scattered/reflected light but with some thermal NIR emission from very hot dust • Longer wavelengths – dominated by thermal emission from warm dust and by broad solid-state and giant molecular emission features • Emission from the telescope and stray light also contribute to the background • Not a large issue for HST (except for NICMOS l > 1.8µm) • For JWST, this is an issue for most wavelengths, and becomes a dominant source for MIRI

  6. HST vsJWST Because JWST operates much colder than HST (~39-46K vs ~290K), diffusegalactic and zodiacal emission dominate the background for l ≤ 16µm JWST HST HST ThermalEmission Diffuse Galactic + Zodi NICMOS Instrument Handbook Glasse et al. (2010)

  7. COBE/DIRBE Blue = 1.25 µm Green = 2.2 µm Red = 3.5 µm Zodi + Galaxy + Exgal All of the images use 4 decade logarithmic color scales. The lowest level is 3.95 kJy/sr at 3.5 microns, 6.67 kJy/sr at 2.2 microns, and 7.08 kJy/sr at 1.25 microns for the upper and middle images, but 0.395 kJy/sr for the lower image. Galaxy + Exgal Exgal

  8. Thermal Emission from Zodi Dust Blue = 12 µm; Green = 60 µm; Red = 100 µm IRAS

  9. Thermal Emission from Zodi Dust Blue = 12 µm; Green = 60 µm; Red = 100 µm IRAS

  10. Thermal Emission from Zodi Dust Blue = 65 µm; Green = 90 µm; Red = 140 µm Akari

  11. Zodi Dust Bands (IRAS)

  12. Zodi Bands & Spectrum Optical

  13. Taurus Spitzer 24µm Residual Zodiacal Dust Band Emission after subtraction of a smooth zodiacal background model based on COBE/DIRBE data. 7.7˚ ZodiacalDust Bands

  14. Galactic ISM (COBE) Blue = 60 µm; Green = 100 µm; Red = 240 µm

  15. Galactic ISM (COBE) Green = 100 µm; Red = 240 µm

  16. PAH Emission from the ISM PAH Emission Features — 3.29, 6.2, 7.7, 8.7, 11.3, and 12.7 µm Wavelength (µm)

  17. Emission from the Galaxy PAH Emission Features — 3.29, 6.2, 7.7, 8.7, 11.3, and 12.7 µm

  18. Zodi + Galactic

  19. Zodi + Galactic

  20. Conclusions • The Infrared Sky is much different in structure and brightness compared the visible sky • At visible wavelengths, the background is dominated by light scattered from dust in the solar system (HST also contends with geocoronal emission and earthshine) • The infrared background is dominated by emission from dust in the solar system and the galaxy, plus broad-band emission features from PAHs associated with diffuse galactic dust • These astronomical background sources will dominate the JWST background for l ≤ 16µm, and will still be important for longer wavelengths • The background will vary in time as our view of the zodiacal emission changes during the year • STScI is working with the Spitzer Science Center (SSC) to develop a background model appropriate for JWST

  21. Fin

  22. WISE

  23. All of the images use 4 decade logarithmic color scales. The lowest level is 3.95 kJy/sr at 3.5 microns, 6.67 kJy/sr at 2.2 microns, and 7.08 kJy/sr at 1.25 microns for the upper and middle images, but 0.395 kJy/sr for the lower image. • The lowest level is 223.2 kJy/sr at 240 microns, 555.3 kJy/sr at 100 microns, and 508.2 kJy/sr at 60 microns for the upper and middle images, but 30.7 kJy/sr for the lower image.

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