1. Science with the Near-Infrared Camera on the James Webb Space Telescope Hubble Science Briefing Looking Forward to our Deepest View of the Universe: December 4, 2014 Gerard Kriss Space Telescope Science Institute

2. The James Webb Space Telescope (JWST) 2/33

3. Who is James E. Webb? 1906 - 1992 NASA’s Second Administrator Led the Apollo effort Implemented the space science program within NASA Began proposal efforts for large space based telescopes 3/33

4. Bigger is Better! JWST’s mirror is almost 3 times larger than Hubble’s 4/33

5. JWST Full Scale Model at NASA 5/33

6. Where to find JWST 6/33

7. A gold plated telescope! 7/29 7/33

8. A gold plated telescope! 8/33

9. What is Infrared Light? 9/33 Image Credit: Lawrence Berkeley Lab Microworlds Project http://www2.lbl.gov/MicroWorlds/ALSTool/EMSpec/EMSpec2.html

10. Infrared Light Infrared light can see through some materials that visible light can’t. With an infrared camera, we can see the heat from the man’s arm and hand and “see” through the black bag. Infrared light can also see through thick smoke and fog. We need infrared light to see the stars in the most distant galaxies. 10/33

11. Infrared Light Infrared light can see through some materials that visible light can’t With an infrared camera, we can see the heat from the man’s arm and hand and “see” through the black bag. Infrared light can also see through thick smoke and fog. We need infrared light to see the stars in the most distant galaxies. 11/33

12. The Universe is Expanding 12/33 Image Credit: GSFC HEASARC “Imagine the Universe” http://imagine.gsfc.nasa.gov/features/yba/M31-velocity/hubble-more.html Image Credit: Science Blogs, Ethan Siegel http://scienceblogs.com/startswithabang/2008/02/07/ the-cosmic-microwave-background-not-always/

13. Redshifts and Blueshifts 13/33 Scale factor (1+z) tells us how much the wavelengths have been stretched. Image Credit: Wikipedia/Aleš Tošovský

14. Formation of the First Galaxies 14/33 Z=30 Z=7 Z=15 First Galaxies Form Visible light for these galaxies is redshifted to infrared wavelengths. Image Credit: Evolution, a Scientific American Reader 2006, University of Chicago Press

15. Four Science InstrumentsMIRI NIRISS NIRCam NIRSpec 15/33

16. Fields of View of JWST Instruments 16/33 0 -2 -4 2 4 0-2-4-6-82468 Horizontal Field Position (arcmin) Vertical Field Position (arcmin) NIRSpec NIRCam MIRI NIRISS FGS

17. NIRCam has Two Imagers in Two Modules 17/33 Two adjacent fields of view (2.2 arcminute) 2 Both fields in SW and LW bands Two back-to-back modules

18. NIRCam Optical Layout 18/33

19. View of NIRCam’s Optics 19/33

20. NIRCam with Enclosures 20/33

21. NIRCam Filter Wheel 21/33

22. Assembled Modules 22/33

23. NIRCam: The Near Infrared Camera 23/33 Coronagraphic masks: 2 channels in each module: Short Wavelength (0.6-2.3  m) Long Wavelength (2.4-5.0  m) HgCdTe FPA Format (2  2)  (2040  2040) HgCdTe FPA Format 1  (2040  2040) 0.032 arcsec/pixel0.065 arcsec/pixel FOV= 2.21  2.21 arcmin 2 2 functionally identical (mirror image) modules Filters provide (W  R=4; M  R=10; N  R=100) LW Grisms provide R~3000 5” gap between SW SCAs 40” gap between A & B Sensitivity (S/N=10, R=4, in 10 4 s): 1.1  m: 10.4 nJy 2.0  m: 12.1 nJy 4.4  m: 24.5 nJy

24. 5-sigma, 50,000 secs NIRCam Sensitivity Comparison Wavelength (Microns) Galaxy models: HST SST Ground JWST NIRCam 24/33

25. Birth of stars and protoplanetary systems End of the dark ages: first light and reionization Planetary systems and the origins of life The assembly of galaxies JWST has Four Science Goals 25/33

26. Galaxies Form as Gas Clouds Collapse in the Early Universe 26/33 Image Credit: Volker Springel, et al. 2004 After the Big Bang, gas in the universe is smoothly distributed, with slight irregularities that we can see in the Cosmic Background Radiation. Gravity causes the densest filaments and points to collapse. These dense knots form the first stars and galaxies. Image Credit: NASA / WMAP: http://map.gsfc.nasa.gov/media/080997/index.html)http://map.gsfc.nasa.gov/media/080997/index.html

27. End of the dark ages: first light and reionization What are the first galaxies? What objects reionized the gas between the galaxies? Key JWST Observations: Ultra-Deep Near InfraRed survey (NIRCam, NIRISS) Spectroscopic Near-IR & Mid-IR confirmation. (NIRCam & NIRISS Grisms, NIRSpec, MIRI) o The red circles show the locations of faint, red distant galaxies. 27/33

28. The assembly of galaxies Where and when did the Hubble Sequence form? How did galaxies like the Milky Way take shape? 28/33

29. The Eagle Nebula as seen by HST Birth of stars and protoplanetary systems How do interstellar clouds collapse to form stars? How do gaseous disks form around stars? How do planets condense out of the gaseous disks? Imaging of molecular clouds Survey “elephant trunks” Survey star-forming clusters Deeply embedded protostar Agglomeration & planetesimalsMature planetary system Circumstellar disk 29/33

30. The Eagle Nebula as seen in the infrared Birth of stars and protoplanetary systems How do interstellar clouds collapse to form stars? How do gaseous disks form around stars? How do planets condense out of the gaseous disks? Imaging of molecular clouds Survey “elephant trunks” Survey star-forming clusters Deeply embedded protostar Agglomeration & planetesimalsMature planetary system Circumstellar disk 30/33

31. Planetary systems and the origins of life How do planets form? How are circumstellar disks like our Solar System? How are habitable zones established? NIRCam will use coronagraphy to image protoplanetary disks and extra-solar giant planets NIRCam will obtain images and spectra of circumstellar disks, comets, moons, and Kuiper Belt Objects in the outer Solar System Titan Spitzer image Simulated JWST image: Fomalhaut at 24 microns 31/33

32. NIRCam’s Wavefront Sensing Role NIRCam provides the imaging data needed for wavefront sensing. Dispersed Hartmann Sensors at 0° and 60° orientations permit phasing of adjacent mirror elements. Coarse phasing w/DHS After coarse phasing Fully aligned Fine phasing First Light After segment capture DHS at pupil Spectra recorded by NIRCam 32/33

33. On-line Resources STScI JWST Home Page http://www.stsci.edu/jwst/ JWST Primer http://www.stsci.edu/jwst/doc-archive/handbooks STScI NIRCam Page http://www.stsci.edu/jwst/instruments/nircam University of Arizona NIRCam Page http://ircamera.as.arizona.edu/nircam/ University of Arizona NIRCam Girl Scouts Page http://zeus.as.arizona.edu/~dmccarthy/GSUSA/index.htm NASA NIRCam Page http://www.jwst.nasa.gov/nircam.html 33/33