MMIRS 1 MMIRS MMT and Magellan Infrared Spectrograph Brian McLeod.

Slides:



Advertisements
Similar presentations
M2FS SAC UpdateMarch 18, 2012 System Overview: M2FS Spectrograph Two independent, identical channels Each fed by 128 fibers Each with LoRes and HiRes modes.
Advertisements

University College London, Optical Science Laboratory bHROS Progress bench-mounted High Resolution Optical Spectrograph bHROS bHROS Progress General.
GLAO instrument specifications and sensitivities
1 ATST Imager and Slit Viewer Optics Ming Liang. 2 Optical layout of the telescope, relay optics, beam reducer and imager. Optical Layouts.
Área de Instrumentación NAHUAL Mechanical Concept Current Status F. Javier Fuentes Instituto de Astrofísica de Canarias September
Engineering performance of IRIS2 infrared imaging camera and spectrograph V. Churilov, J Dawson, G. Smith, L Waller, J Whittard, R Haynes, A Lankshear,
SHMS Design, Engineering & Construction Status for Hall C Users meeting Paul Brindza January 2010.
NGAO Instrumentation Overview September 2008 Updated Sean Adkins.
FLITECAM: The first light camera for SOFIA Amanda Mainzer, I. S. McLean, T. Aliado, E. E. Becklin, G. Brims, J. Goulter, E. Kress, N. Magnone, J. Milburn,
AURA New Initiatives Office S.C. Barden, M. Liang, K.H. Hinkle, C.F.W. Harmer, R.R. Joyce (NOAO/NIO) September 17, 2001 Instrumentation Concepts for the.
M2FS: Michigan/Magellan Fiber System. M2FS (Michigan/Magellan Fiber System) Fiber-fed MOS w/2 independent and identical spectrograph arms 256 total fibers.
Grism Spectroscopy with FLITECAM Erin C. Smith (UCLA) Ian S. McLean (UCLA)
SWIFT Team University of Oxford 12 th November 2007O-SWIFT Progress Report Fraser Clarke.
Figure 1, MODS exploded Figure 2, Blue Camera Design Figure 3, Blue Camera Structure Figure 4, MODS CCD Dewar Figure 5, MODS I 4k x 4k CCD Figure 6, QE.
F444W F300M F277W F356W F480M F335M F360M F460M F410M F430M LWF1 LWF2 LWF3 LWF4 LWF5 LWF6 LWF7 LWF8 LWF9 LWF10 LWF11 LWF12 F322W2 LWF F250M Imaging pupil.
The background for this poster shows a life size drawing of one NIRCam module. The other side is a mirror image. The two modules are mounted back-to-back.
MMT Magellan Infrared Spectrograph ( MMIRS ) P.I. Brian McLeod Warren R. Brown SAO/CfA.
KMOS Instrument Science Team Review Instrument overview.
Masahiro Konishi (IoA, UTokyo), SWIMS Team S W I M S.
SALT Technology Development Lisa Crause India-South Africa Astronomy Workshop – SAAO 6 August 2012.
Corner Raft Test Station Kirk Arndt, Ian Shipsey Purdue University LSST Camera Workshop SLAC Sept , 2008.
18/19 January 2003IMACS SAC meeting update1 IMACS: Inamori-Magellan Areal Camera and Spectrograph Magellan SAC Status Report 18/19 January 2003 OCIW, Pasadena,
Engineering: NAHUAL Ireland Acquisition Camera, Focal Plane Mechanisms and Layout Tully Peacocke, National University of Ireland Maynooth Carlos del Burgo,
Magellan F/5 System Status A.Szentgyorgyi/SAO/30 Apr 2005.
U NIVERSITY of C ALIFORNIA O BSERVATORIES LICK · KECK · TMT University of California Observatories Director: Michael Bolte (UCSC) Associate Director: Ian.
STATUS REPORT OF FPC SPICA Task Force Meeting March 29, 2010 MATSUMOTO, Toshio (SNU)
1 FRIDA Engineering Status 17/05/07 Engineering Status May 17, 2007 F.J. Fuentes InFraRed Imager and Dissector for Adaptive Optics.
17/18 May 2003IMACS SAC meeting update1 IMACS: Inamori-Magellan Areal Camera and Spectrograph Magellan SAC Status Report 17/18 May 2003 Univ. of Michigan,
Oct 17, 2001SALT PFIS Preliminary Design Review Optical Integration and Test Plan 1 Southern African Large Telescope Prime Focus Imaging Spectrograph Optical.
Magellan F/5 System Status A.Szentgyorgyi/SAO/25 Sept 2004.
Herschel Space ObservatoryPACS Science Verification ReviewMPE 22/23 June 2006 GJ / MPE 1 PACS Test Facility Capabilities – Cryogenics and OGSE Gerd Jakob.
Telescope Integration and Tests Tuesday Afternoon.
Mid-InfRAred Camera wo LEns (MIRACLE) for SPICA Takehiko Wada and team MIRACLE.
Magellan F/5 System Status A.Szentgyorgyi / Ann Arbor 25 Sept 2005.
6-7 October 2001Inamori-Magellan Areal Camera & Spectrograph 1 IMACS: Inamori-Magellan Areal Camera and Spectrograph Magellan SAC Status Report 6-7 October.
MIRI Optical System CDR, 6 th & 7 th December 2006 Mid InfraRed Instrument 07-1 Optical System Critical Design Review (CDR) TIPS Presentation: Margaret.
Two fiber-fed high-resolution echelle spektro- graphs at the Calar Alto 3.5 m telescope (R=82000) to find ~ low-mass planets around ~300 late M.
The Prime Focus Imaging Spectrograph Design and Capabilities
13-14 April 2002Inamori-Magellan Areal Camera & Spectrograph 1 IMACS: Inamori-Magellan Areal Camera and Spectrograph Magellan SAC Status Report April.
Current Status of SPICA FPI Mechanical I/F & resources April 6 th 2010 Hideo Matsuhara (ISAS/JAXA) & FPI team.
Test Readiness Review 23 October 2003 CRAL - LYON.
Binospec - Next Generation Optical Spectrograph for the MMT
Oct 24, 2006SSWG1 Robert Stobie Prime Focus Imaging Spectrograph Status On-telescope throughput analysis Ghost analysis Repair plan Status of other current.
FourStar Status Eric Persson (OCIW) Presented By.
SBS Magnet and Infrastructure Status Robin Wines July 2015.
Magellan SAC April 7-8, 2006 Pasadena, CA. Personnel New hires: –None Open positions: –Programmer –Scientists (two, through AAO) Changes –Pasadena EE.
The INS NIRCam Team.
Page 1HMI/AIA Science Meeting – February 13, 2006 HMI Instrument Status HM/AIA Science Meeting February 13, 2006 Barbara Fischer HMI Deputy Program Manager.
Apr 29, 2003SSWG1 Prime Focus Imaging Spectrograph Status Passed CDR- moving into fabrication phase Mechanism design complete: fabrication drawing packages.
FIRE: Status update and Preliminary Commissioning Plan Rob Simcoe (A. Burgasser, M. Smith, R. Bernstein, B. Bigelow, J. Pipher, C. McMurtry, W. Forrest)
MMIRS Status A.Szentgyorgyi/SAO 30 April Imaging 7 x 7 arcmin FOV 0.2 arcsec pixels Y,J,H & K wavelength coverage Spectroscopy Multislit (4’ x 7’)
FourStar Status SAC Meeting 13mar2010 Persson, Murphy, Birk, Monson, Kelson, Uomoto.
PACS IBDR MPE 27/28 Feb 2002 AIV 1 PACS IBDR Test Cryostat and OGSE Gerd Jakob MPE.
1 Harvard-Smithsonian Center for Astrophysics Magellan SAC 9/04 MMIRS Status Report Brian McLeod.
GMT’s Near IR Multiple Object Spectrograph - NIRMOS Daniel Fabricant Center for Astrophysics.
MMIRS 1 Harvard-Smithsonian Center for Astrophysics Magellan SAC 9/05 MMIRS Status Upate Presented by A. Szentgyorgyi P.I. B. McLeod.
F. Pepe Observatoire de Genève Optical astronomical spectroscopy at the VLT (Part 2)
The Prime Focus Imaging Spectrograph for the Southern African Large Telescope: Operational Modes Chip Kobulnicky – Instrument Scientist, University of.
NIRSpec - the JWST Multi-Object Spectrograph P. Ferruit (ESA), S. Arribas (CSIS), S. Birkmann (ESA), T. Böker (ESA), A. Bunker (Oxford), S. Charlot (IAP),
NIRSpec - the JWST Multi-Object Spectrograph P. Jakobsen (ESA), S. Arribas (CSIS), T. Beck (STScI), S. Birkmann (ESA), T. Böker (ESA), A. Bunker (Oxford),
Prime Focus Imaging Spectrograph Status
Agenda ComCam planning and scheduling (James & Jacques) CCS & CCS-TCS Interface (Tony) Software to use ComCam Software to get data out of ComCam (Mike)
Telescope Assembly, Integration and Verification (AIV) WBS 04C. 14 J
Single Object & Time Series Spectroscopy with JWST NIRCam
Prime Focus Imaging Spectrograph Status
ESAC 2017 JWST Workshop JWST User Documentation Hands on experience
An IFU slicer spectrometer for SNAP
Introduction to Spectroscopy
FourStar 4K x 4K JHK imager
Astronomical Observational Techniques and Instrumentation
Presentation transcript:

MMIRS 1 MMIRS MMT and Magellan Infrared Spectrograph Brian McLeod

MMIRS 2 Science Drivers – Brown dwarfs

MMIRS 3 Science Drivers – Star formation at high redshift

MMIRS 4 Basic Operational Modes Imaging 7 x 7 arcminute FOV 0.2 arcsecond pixels Y, J, H & K wavelength coverage Spectroscopy Multi-slit (4’x7’) or longslit (7’) –J, H, R=3000 R=1400

MMIRS 5 Optical Layout Corrector ~20C Slit Plane Collimator Camera Detector Sec II.1 MOS Section Camera Section 77K Design by H. Epps and D. Fabricant

MMIRS 6 Slit Mask Detector

MMIRS 7 Corrector Optics (warm) Guider/WFS (warm) Detector LN2 Tank/ Optical Bench Collimator Camera Slit Masks Dekker

MMIRS 8 MMIRS EXTERIOR TRUSS ELECTRONICS RACKS (2) GUIDER/ WFS MOS SECTION DETECTOR PRE-AMP’S CAMERA SECTION TELESCOPE TRUSS- WELDED ASSEMBLY WITH BOLT INTERFACES TO TELESCOPE & CRYOSTAT ELECTRONICS RACK TRUSS (2) MOS SECTION

MMIRS 9 MOS Wheel

MMIRS 10 Project Timeline TSIP Proposal Feb 2003 Start of Work Dec 2003 PDR July 2004 CDR May 2005 Optics orderedAugust 2005 Begin manufacture Oct 2005 Begin integration and testSummer 2006 Delivery to MMT  Late 2007

MMIRS 11 Cryogenic benches In fab by Meyer Tool Expected delivery June 2006

MMIRS 12 Vacuum housings Contract awarded to Atlas Technologies Delivery expected August 2006

MMIRS 13 Cart In fabrication. Delivery expected in approx one month.

MMIRS 14 OPTICS STATUS LensStatus 1IN POLISHING 2IN COATING 3ASPHERE--DROPPED WHEN NEARLY COMPLETE – START OVER 4RECEIVED 5ABOUT TO BE COATED 6 7RECEIVED 8IN COATING 9RECEIVED 10RECEIVED 11RECEIVED 12IN COATING 13RECEIVED 14RECEIVED LENS9 LENS13

MMIRS 15 Grisms Original Plan JH R=1200 HK R=1200 J R=3000 H R=3000 K R=3000 Revised Plan HK Prism R=1200 master already made for UF at RGL. MMIRS will purchase identical. J,H,K R= order grism Master being made by RGL for Florida. Option for cross-dispersion

MMIRS 16 Plan for next 6 months Detector characterization in test dewar Assemble main housings and G-10 rings Thermal/vacuum testing in September Build and test MOS wheel mechanism Finish remaining mechanical drawings