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Wide-Field Science Capabilities at the AAO Stuart Ryder Australian Gemini Office Australian Astronomical Observatory.

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Presentation on theme: "Wide-Field Science Capabilities at the AAO Stuart Ryder Australian Gemini Office Australian Astronomical Observatory."— Presentation transcript:

1 Wide-Field Science Capabilities at the AAO Stuart Ryder Australian Gemini Office Australian Astronomical Observatory

2 OutlineOutline Radio – Optical synergiesRadio – Optical synergies ATAC “open skies” access toATAC “open skies” access to –(UKST) –AAT –Gemini –Magellan –Time exchange Complementing ASKAP SurveysComplementing ASKAP Surveys

3 UKSTUKST United Kingdom Schmidt TelescopeUnited Kingdom Schmidt Telescope 1.2m aperture, >6° FoV.1.2m aperture, >6° FoV. 1973 – 2005: photographic surveys1973 – 2005: photographic surveys 2001 – 2012: 6dF multi-object spectroscopy (6dFGS, RAVE)2001 – 2012: 6dF multi-object spectroscopy (6dFGS, RAVE) “User pays” operation“User pays” operation TAIPAN: spectroscopic survey of ~500,000 galaxies to r <17.5 (cf. SDSS) via refurbished/replacement positioner & spectrograph.TAIPAN: spectroscopic survey of ~500,000 galaxies to r <17.5 (cf. SDSS) via refurbished/replacement positioner & spectrograph. Excellent complement to WALLABY and EMU.Excellent complement to WALLABY and EMU. Collaborators/benefactors welcome! Contact Andrew Hopkins (ahopkins@aao.gov.au).Collaborators/benefactors welcome! Contact Andrew Hopkins (ahopkins@aao.gov.au).

4 Anglo-Australian Telescope 3.9m aperture, commissioned 1975.3.9m aperture, commissioned 1975. UCLES/UHRF R>40,000 optical spectrographs.UCLES/UHRF R>40,000 optical spectrographs. IRIS2 1–2.5  m imager, R~2400 long-slit & multi-object spectrograph, 7'.7 FoV.IRIS2 1–2.5  m imager, R~2400 long-slit & multi-object spectrograph, 7'.7 FoV. GNOSIS OH-suppression fibre-feed for IRIS2.GNOSIS OH-suppression fibre-feed for IRIS2.

5 AAOmegaAAOmega Dual-beam spectrograph, R=1300–8000, VPH gratings.Dual-beam spectrograph, R=1300–8000, VPH gratings. 2dF robotic fibre positioner places 392 2" fibres within a 2° FoV (2dFGRS, 2QZ, WiggleZ, GAMA).2dF robotic fibre positioner places 392 2" fibres within a 2° FoV (2dFGRS, 2QZ, WiggleZ, GAMA). SPIRAL Integral Field Unit lenslet array covers FoV 22.4"  11.2" at 0.7" per lenslet.SPIRAL Integral Field Unit lenslet array covers FoV 22.4"  11.2" at 0.7" per lenslet. KOALA (2012/13) will double the SPIRAL FoV.KOALA (2012/13) will double the SPIRAL FoV.

6 SAMISAMI Sydney-AAO Multi-object IFSSydney-AAO Multi-object IFS 13 “hexabundles” of 61 lightly-fused fibres covering 14" at 1.6" per fibre, manually plugged into pre-drilled plates covering 1° FoV.13 “hexabundles” of 61 lightly-fused fibres covering 14" at 1.6" per fibre, manually plugged into pre-drilled plates covering 1° FoV.

7 HERMESHERMES R=28,000 in 4 channels centered on 478, 577, 661, and 774 nm; fed by 2dF.R=28,000 in 4 channels centered on 478, 577, 661, and 774 nm; fed by 2dF. S/N = 100 in 1 hr for V=14.S/N = 100 in 1 hr for V=14. “Galactic Archaeology”: chemical tagging to reconstruct assembly history of Milky Way.“Galactic Archaeology”: chemical tagging to reconstruct assembly history of Milky Way. Optics fabricated by KiwiStar Optics.Optics fabricated by KiwiStar Optics. Commissioning early-2013.Commissioning early-2013.

8 GeminiGemini 2  8.1 m diameter infrared-optimised telescopes on Cerro Pachon (Chile) and Mauna Kea (Hawaii).2  8.1 m diameter infrared-optimised telescopes on Cerro Pachon (Chile) and Mauna Kea (Hawaii). Cassegrain foci only.Cassegrain foci only. ~90% queue-scheduled observing, ~25% ToO.~90% queue-scheduled observing, ~25% ToO. Australia has 6.2% share in partnership with USA, UK (till end 2012), Canada, Argentina, Brazil, and Chile.Australia has 6.2% share in partnership with USA, UK (till end 2012), Canada, Argentina, Brazil, and Chile.

9 Gemini North Reaches Dec  37°.Reaches Dec  37°. GMOS: 0.36–0.94  m 5'.5 FoV imager, long-slit, multi- object, and IFU (5"  7") spectrograph.GMOS: 0.36–0.94  m 5'.5 FoV imager, long-slit, multi- object, and IFU (5"  7") spectrograph.

10 Gemini North Reaches Dec  37°.Reaches Dec  37°. GMOS: 0.36–0.94  m 5'.5 FoV imager, long-slit, multi- object, and IFU (5"  7") spectrograph.GMOS: 0.36–0.94  m 5'.5 FoV imager, long-slit, multi- object, and IFU (5"  7") spectrograph. Michelle: 10–20  m imager/spectrograph.Michelle: 10–20  m imager/spectrograph. GNIRS: 1–5  m long-slit and 0.9–2.5  m cross- dispersed spectrograph.GNIRS: 1–5  m long-slit and 0.9–2.5  m cross- dispersed spectrograph. NIRI: 1–5  m imager with 22", 51", or 120" FoV.NIRI: 1–5  m imager with 22", 51", or 120" FoV. NIFS: R=5000 1–2.4  m integral field spectrograph with 3" FoV.NIFS: R=5000 1–2.4  m integral field spectrograph with 3" FoV.

11 Gemini North Reaches Dec  37°.Reaches Dec  37°. GMOS: 0.36–0.94  m 5'.5 FoV imager, long-slit, multi- object, and IFU (5"  7") spectrograph.GMOS: 0.36–0.94  m 5'.5 FoV imager, long-slit, multi- object, and IFU (5"  7") spectrograph. Michelle: 10–20  m imager/spectrograph.Michelle: 10–20  m imager/spectrograph. GNIRS: 1–5  m long-slit and 0.9–2.5  m cross- dispersed spectrograph.GNIRS: 1–5  m long-slit and 0.9–2.5  m cross- dispersed spectrograph. NIRI: 1–5  m imager with 22", 51", or 120" FoV.NIRI: 1–5  m imager with 22", 51", or 120" FoV. NIFS: R=5000 1–2.4  m integral field spectrograph with 3" FoV.NIFS: R=5000 1–2.4  m integral field spectrograph with 3" FoV. ALTAIR: Natural or Laser guide star adaptive optics system, delivering FWHM <0".1 at 2  m.ALTAIR: Natural or Laser guide star adaptive optics system, delivering FWHM <0".1 at 2  m.

12 Gemini South GMOS: 0.36–0.94  m 5'.5 FoV imager, long-slit, multi- object, and IFU (5"  7") spectrograph.GMOS: 0.36–0.94  m 5'.5 FoV imager, long-slit, multi- object, and IFU (5"  7") spectrograph. T-ReCS: 8–26  m imager and spectrograph.T-ReCS: 8–26  m imager and spectrograph. NICI: 1–5  m coronagraphic dual-channel adaptive optics imager, 18" FoV.NICI: 1–5  m coronagraphic dual-channel adaptive optics imager, 18" FoV. FLAMINGOS-2: 0.95–2.4  m imager, long-slit, and multi-object R=1200–3000 spectrograph, 6'.1 FoV.FLAMINGOS-2: 0.95–2.4  m imager, long-slit, and multi-object R=1200–3000 spectrograph, 6'.1 FoV. GSAOI: 0.9–2.4  m imager, 85" FoV.GSAOI: 0.9–2.4  m imager, 85" FoV.

13 Gemini South GMOS: 0.36–0.94  m 5'.5 FoV imager, long-slit, multi- object, and IFU (5"  7") spectrograph.GMOS: 0.36–0.94  m 5'.5 FoV imager, long-slit, multi- object, and IFU (5"  7") spectrograph. T-ReCS: 8–26  m imager and spectrograph.T-ReCS: 8–26  m imager and spectrograph. NICI: 1–5  m coronagraphic dual-channel adaptive optics imager, 18" FoV.NICI: 1–5  m coronagraphic dual-channel adaptive optics imager, 18" FoV. FLAMINGOS-2: 0.95–2.4  m imager, long-slit, and multi-object R=1200–3000 spectrograph, 6'.1 FoV.FLAMINGOS-2: 0.95–2.4  m imager, long-slit, and multi-object R=1200–3000 spectrograph, 6'.1 FoV. GSAOI: 0.9–2.4  m imager, 85" FoV.GSAOI: 0.9–2.4  m imager, 85" FoV. GeMS: Multi-Conjugate Adaptive Optics, 5  10 W laser guide star constellation.GeMS: Multi-Conjugate Adaptive Optics, 5  10 W laser guide star constellation.

14 GeMS in action

15 MagellanMagellan 2  6.5m telescopes at Las Campanas Observatory, Chile.2  6.5m telescopes at Las Campanas Observatory, Chile. Australia purchases 15 nights per year from Carnegie Institution for Science.Australia purchases 15 nights per year from Carnegie Institution for Science. MIKE: 0.34–0.95 mm R>20,000 spectrograph.MIKE: 0.34–0.95 mm R>20,000 spectrograph. IMACS: optical imager, long-slit, MOS, IFU, and tunable filter spectrograph, FoV up to 27'.IMACS: optical imager, long-slit, MOS, IFU, and tunable filter spectrograph, FoV up to 27'. FourStar: 0.9–2.4  m imager, 11' FoV.FourStar: 0.9–2.4  m imager, 11' FoV. Megacam: optical CCD mosaic 25' FoV.Megacam: optical CCD mosaic 25' FoV. MMIRS: 1–2.4 mm imager, long-slit, and multi-object R=1500/2800 spectrograph, 6'.9 FoV.MMIRS: 1–2.4 mm imager, long-slit, and multi-object R=1500/2800 spectrograph, 6'.9 FoV. MagE, FIRE, PFS.MagE, FIRE, PFS.

16 Time exchange Gemini time exchange with Keck (5n/semester, HIRES 0.3–1.0  m R>25,000 spectrograph only) and Subaru (up to 10n/semester) on any of:Gemini time exchange with Keck (5n/semester, HIRES 0.3–1.0  m R>25,000 spectrograph only) and Subaru (up to 10n/semester) on any of: –FMOS: 0.9–1.8  m spectrograph, 400 fibre positioner, 30' FoV. –Suprime-Cam: optical CCD mosaic, 34'  27 ' FoV. –MOIRCS: 0.9 – 2.5 mm imager, long-slit, and multi- object R=500–3000 spectrograph, 4'  7' FoV. –COMICS, HDS, IRCS

17 Time exchange AAO and CTIO have agreed to swap 20 nights/year each on the AAT and Blanco 4 m telescopes from 2012B.AAO and CTIO have agreed to swap 20 nights/year each on the AAT and Blanco 4 m telescopes from 2012B. –ISPI: 1–2.4  m imager, 10' FoV. –Hydra: 0.32–0.9  m R<50,000 138  2" multi-object fibre spectrograph, 40' FoV. –DECam: 62 CCD (570 Mpixel) mosaic, FoV 2.2° (!)

18 Meeting the Need EMU WALLABY FLASH VAST GASKAPPOSSUM CRAFT DINGO VLBI COAST 2dF / Hydra / TAIPAN KOALA / SAMI HERMES GMOS / IMACS IRIS2 / F2 / 4Star / MMIRS / MOIRCS / ISPI GeMS Suprime-Cam / DECam / Megacam

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