#JWSTnearbygalaxies @JWSTObserver #jwst @KISS_Caltech
Welcome WebEx Participants To ask a question or contribute to the discussion: Select send to moderator and type your question/comment into the chat box OR Select send to moderator and indicate that you would like to speak. The webex moderator will call on you at an appropriate time.
Recordings All talks will be recorded and posted on-line. To opt out, send an e-mail to jlee@stsci.edu. WebEx @ KISS Join WebEx to get a close-up view of slides.
Program Notes Abstracts @ tinyurl.com/jwst-nearbygalaxies Note color coding Afternoons generally reserved for hands-on tutorials Split into 3 groups by room name see back of your badge Tutorial instructors pls meet over lunch today Poster summaries on Thurs morning
JWST Experts, Instructors, Staff NIRCam Martha Boyer (STScI) Massimo Robberto (STScI) NIRSpec Torsten Boeker (ESA) Guido De Marchi (ESA) Karoline Gilbert (STScI) Pipeline Products, Calibration Karl Gordon (STScI) Data Analysis Tools Erik Tollerud (STScI) MIRI David Law (STScI) Karl Gordon (STScI) ETC
Local Organizing Committee Kirsten Larson (Caltech/IPAC) David Cook (Caltech) Lee Armus (Caltech/IPAC)
Social Media #JWSTnearbygalaxies @JWSTObserver #jwst @KISS_Caltech
JWST Overview Gardner, J.P., Mather, J.C., Clampin, M. et al. Space Sci Rev (2006) Special thanks to Jon Gardner, Deputy Senior Project Scientist, (NASA GSFC) for slides
James Webb Space Telescope 6.5m Telescope Successor to Hubble & Spitzer. Demonstrator of deployed optics. 4 instruments: 0.6 to 28.5 μm Passively cooled to < 50 K. Named for 2 nd NASA Administrator Integrated Science Instrument Module (ISIM) Primary Mirror Secondary Mirror Spacecraft Bus 5 Layer Sunshield Complementary: 30m, ALMA, WFIRST, LSST NASA + ESA + CSA: 14 countries Lead: Goddard Space Flight Center Prime: Northrop Grumman Operations: STScI Senior Project Scientist: Nobel Laureate John Mather Launch date: October 2018 9
MIRI FGS/NIRISS NIRSpec NIRCam ISIM Integrated Science Instrument Module 10
University of Arizona PI: Marcia Rieke Near-Infrared Camera Lockheed Martin industrial partner Teledyne HgCdTe detectors Long Wavelength Detectors Simultaneous observing at two wavelengths over 2.3 x 4.6 FOV. Pick-off Mirror Dichroic Short Wavelength Detectors 7 Broad-band filters over 0.6 < λ < 5.0 µm Additional medium and narrow-band filters Filter wheels include wavefront sensing hardware. Filter Wheels NIRCam Coronagraphy 11
ESA instrument EADS Astrium prime contractor Flight NIRSpec Near-Infrared Spectrograph Multi-Object Spectroscopy Micro-shutter array 3.4 x 3.4 FOV. IFU, 3 x 3 R=1000 & R=3000 3 gratings cover 1.0 < λ < 5.0 μm R=100 Prism 0.6 < λ < 5.0 μm GSFC providing microshutters and detectors NIRSpec Test Data Micro-Shutters: 730 x 342 array of 203 x 463 mas pixels Flight Microshutters Integrated into Instrument 12
European consortium George Rieke, US Science Lead Gillian Wright, EC Science Lead Mid-Infrared Instrument JPL providing detectors, cooling, management Broad-band Imaging 5 < λ < 27 μm 1.4 x 1.9 FOV R=3000 IFU 5 < λ < 28.5 μm 3 x 3 FOV ETU First Light Flight MIRI at GSFC R = 100 Slit 5 < λ < 10 μm Coronagraphy Cryocooler to 7K 13
Flight Fine Guidance Sensor Near-Infrared Imager and Slitless Spectrograph Com Dev industrial partner CSA contribution Broad-band guider (0.6 5 microns) Science imagery: Slitless spectroscopic imagery (grism) R ~ 150, 0.8 2.25 microns optimized for Ly alpha galaxy surveys R ~ 500, 0.7 2.5 microns optimized for exoplanet transit spectroscopy Sparse aperture interferometric imaging (7 aperture NRM) 3.8, 4.3, and 4.8 microns Field of view: 2.3 x 2.3 arc minutes Angular resolution (1 pixel): 68 mas Detector type: HgCdTe, 14 2048 x 2048 pixel format, 3 detectors Flight FGS 14
2016: Observatory Assembly: Three main components of observatory completed (instruments, telescope, spacecraft) 2017: Observatory Testing: Three main components of observatory to be tested and readied for assembly (instruments, telescope, spacecraft) into single unit 2018: Kourou Countdown: All parts of the observatory will be brought together, tested and readied for launch in Kourou, French Guiana
2017: Observatory Testing: Three main components of observatory to be tested and readied for assembly (instruments, telescope, spacecraft) into single unit -- most challenging year to date of the I&T phases. Science payload -- ambient launch environment testing @GSFC All flight sunshield membranes and covers delivered to Northrop, being readied for integration. Numerous, but not show stopping, issues with final manufacturing and testing of sunshield components (e.g., membrane tensioning system parts coating, mid-boom deployment test over current instance.) Ground system (STScI) progressing well Spacecraft integration nearing completion proceeding well
T 22 months and counting 2017 2018 2019 launch 2018Oct JWST Science Timeline
Long Fairing 17m Upper stage Ariane V launch Kourou, French Guiana H155 Core stage P230 Solid Propellant booster Stowed Configuration 18
T 22 months and counting 2017 2018 commissioning (6 mo) cycle 1 obs begin 2019Apr 2019 launch 2018Oct JWST Science Timeline
Classes of Observations Commissioning [6 mo: 2018 Oct-2019 Apr] - full schedule of deployment & check-out activities - limited set of science calibration observations possible - science observations are highly unlikely At L2 after ~1mo, turn on/check-out - FGS/NIRISS - NIRCam - NIRSpec - MIRI phase mirrors, etc.
For more on JWST deployment go to YouTube
JWST 1/3rd Scale Sunshield
GTO CP release Jan06 GTO props due Apr01 GTO Cy1 obs release by Jun15 2017 2018 commissioning (6 mo) cycle 1 obs begin 2019Apr 2019 launch 2018Oct JWST Science Timeline
Classes of Observations Commissioning [6 mo: 2018 Oct-2019 Apr] - full schedule of deployment & check-out activities - limited set of science calibration obs possible - science obs begin after commissioning Guaranteed Time Observation Program [2019 Apr -2021] - 4020 hr total allocation in first 30 mo. after commissioning - ~10% of time available in nominal 5 yr lifetime
GTO CP release Jan06 GTO props due Apr01 GTO Cy1 obs release by Jun15 2017 2018 commissioning (6 mo) cycle 1 Obs begin Apr 2019 launch 2018Oct JWST Science Timeline
GTO CP release Jan06 GTO props due Apr01 GO Cy 1 CP Nov30 GTO Cy1 obs release by Jun15 GO Cy1 props due Mar02 GO Cy1 TAC May commissioning (6 mo) cycle 1 Obs begin Apr 2017 2018 2019 launch 2018Oct JWST Science Timeline
Classes of Observations Commissioning [6 mo: 2018 Oct-2019 Apr] - full schedule of deployment & check-out activities - limited set of science calibration obs possible - science obs begin after commissioning Guaranteed Time Observation Program [2019 Apr -2021] - 4020 hr total allocation in first 30 mo. after commissioning - ~10% of time available in nominal 5 yr lifetime General Observer Program [2019 Apr -] - similar to GO programs from HST, Spitzer, Chandra - flexible to accommodate programs with range of sizes - support for archival research - details TBD, consultations with JSTAC/JSTUC (STScI to solicit expressions of interest for JSTUC in near future)
GTO CP release Jan06 GTO props due Apr01 DD-ERS initial CP release Jan06 DD-ERS Notices of Intent due Mar03 GO Cy 1 CP Nov30 GTO Cy1 obs release by Jun15 2017 DD-ERS props due Aug18 DD-ERS final CP release May19 DD-ERS TAC Oct GO Cy1 props due Mar02 GO Cy1 TAC May 2018 launch 2018Oct commissioning (6 mo) cycle 1 Obs begin Apr 2019 JWST Science Timeline
End.