26-29 March, 2007Arena Workshop, Tenerife1 SIAMOIS Sismomètre Interférentiel A Mesurer les Oscillations des Intérieurs Stellaires Seismic Interferometer.

Slides:

Advertisements

Similar presentations

THESIS – the Terrestrial and Habitable-zone Exoplanet Spectroscopy Infrared Spacecraft a concept for a joint NASA/ESA exoplanet characterization mission.

Advertisements

15/05/2006kickoff meeting / introduction1 SIAMOIS Sismomètre Interférentiel A Mesurer les Oscillations des Intérieurs Stellaires Seismic Interferometer.

Lead ~ Discover ~ Develop ~ Deliver Air Force Research Laboratory Multimodal Data and Anomaly Detection in SSA at AMOS 15 Oct 2012 Dr. Keith Knox Air Force.

1 SIAMOIS Sismomètre Interférentiel A Mesurer les Oscillations des Intérieurs Stellaires Asteroseismology in Antarctica at Dome C Benoît Mosser, Michel.

Observatorio de Sierra Nevada Susana Martín Ruiz (IAA-CSIC)

June 15, 2006ARENA workshop1 SIAMOIS Sismomètre Interférentiel A Mesurer les Oscillations des Intérieurs Stellaires Seismic Interferometer to Measure Oscillations.

Paris may HELLO SIAMOIS in Dome-C. Paris may Overall Description Divided in four sub-systems : –A dedicated Telescope with its.

System-wide issues Before we get to the telescope System integration and verification at the telescope Operations Maintenance and support.

Construction and Interfacing of a Solar Telescope Jon Turner University of Northern Colorado.

Catania 09/08SIAMOIS1/26 Benoît Mosser, for the SIAMOIS team Ground-based Doppler asteroseismology after CoRoT and Kepler.

PLATO kick-off meeting 09-Nov-2010 PLATO Payload overall architecture.

PLAnetary Transits and Oscillations of stars Thierry Appourchaux for the PLATO Consortium

SDW2005, juin, Taormina The Corot Space instrument.

M.Lintz, Laser ranging OHP Colloq.23-27/09/ work on absolute laser ranging of long distances at laboratoire ARTEMIS two posters: µm scale accuracy,

ARENA workshop on Telescope and Instrument robotization at Dome-C Playa la Arena, Tenerife, Aligning robotic telescopes within the inversion.

“Milliarcsecond imaging in the UV- Optical domains: Preparing the way to space borne Fresnel Imagers”, Nice, Sept INSTALLING A FRESNEL IMAGER.

2.4m Telescope Group Yunnan Observatory of CAS Status of LiJET Project & The Coude Echelle Spectrograph for the Lijang 1.8m Telescope China-Japan Collaboration.

HARPS... North Geneva Observatory, Switzerland Francesco Pepe et al.

1st Eddington Workshop. Córdoba, June 14th, 2001 J. Miguel Mas-Hesse 1 EddiCam: The Eddington Photometric Camera Preliminary design.

Optical Anchor / Interferometer Status: June, 2004 Josef Frisch.

Cophasing activities at Onera

SIAMOIS, kickoff meeting, Paris, may, SIAMOIS: optical test bench BOSS (Banc Optique SiamoiS) Pernelle Bernardi Observatoire de Paris-Meudon,

Application of a High-Pulse-Rate, Low-Pulse-Energy Doppler Lidar for Airborne Pollution Transport Measurement Mike Hardesty 1,4, Sara Tucker 4*,Guy Pearson.

September 17, 20072nd ARENA Conference Postdam1 Asteroseismology, from space and from the ground Benoît Mosser Observatoire de Paris/LESIA.

Hunt for Molecules, Paris, 2005-Sep-20 Software Development for ALMA Robert LUCAS IRAM Grenoble France.

Dale E. Gary Professor, Physics, Center for Solar-Terrestrial Research New Jersey Institute of Technology 1 03/15/2012Preliminary Design Review.

Max-Planck-Institut für Gravitationsphysik (Albert-Einstein-Institut) Institut für Atom- und Molekülphysik Detector Characterization of GEO 600 during.

August 2006SOHO 18/GONG 2006/HELAS I Asteroseismology in Antarctica SIAMOIS : Seismic Interferometer Aiming to Measure Oscillations in the Interiors of.

The Field Camera Unit Project definition, organization, planning S. Scuderi INAF – Catania.

CHARA Collaboration Year-Five Science Review Remote Operation (Control & DRS) VEGA on CHARA “GROC” Jean-Michel Clausse.

PicoTRAIN IC Only oscillator (no MOPA design)  more simplicity and reliability Dimensions: 480*200*101.6mm3 ongoing volume production High stability.

Research and Imaging Program for the SVAS. Current Situation Society supports beginners well –Messier Group –Community Outreach programs Monthly star.

SSG Workshop 경희대 김은빈 김민배 천경원 The GMT-CfA, Carnagie, Catolica, Chicago Large Earth Finder (G-CLEF)

18-April-2006XRT Team1 Initial Science Observations Solar-B XRT Ed DeLuca for the XRT Team.

Utilities 14 October 2008 Martin Nordby, Gordon Bowden.

MKT May 2012 C850: Fast sliding gate operator. MKT May 2012 Summary  Why a fast slider operator?  USPs  Applications  Details  Technical specifications.

FIRST/Planck 12 December 2000PT The FIRST Mission Implementation Status and Schedule T. Passvogel The Promise of FIRST.

HD This star is found periodic. The possible period is days. We present the phase curve with this period. HD This star is not variable.

星網計劃 The NETS Project: The NEtwork of Transit Survey 江瑛貴 Ing-Guey Jiang National Tsing-Hua Univ., Taiwan.

Characterising exoplanetary systems with space-based Bracewell interferometers ARC meeting Denis Defrère Liege, 19 February 2009.

March 21, 2006SONG workshop1/27 SIAMOIS Sismomètre Interferentiel A Mesurer les Oscillations des Intérieurs Stellaires An asteroseismic network with 1.

DECam Daily Flatfield Calibration DECam calibration workshop, TAMU April 20 th, 2009 Jean-Philippe Rheault, Texas A&M University.

A STEP Expected Yield of Planets … Survey strategy The CoRoTlux Code Understanding transit survey results Fressin, Guillot, Morello, Pont.

Nov 3, 2008 Detection System for AdV 1/8 Detection (DET) Subsystem for AdV  Main tasks and requirements for the subsystem  DC readout  Design for: the.

CW9 - Asteroseismology with HARPS 1 Observations with HARPS Benoît Mosser Obs. Paris, LESIA François Bouchy LAM/OHP/IAP

System Performance Metrics and Current Performance Status George Angeli.

Granada: /04/ 08Spectroscopy at Dome C1 SIAMOIS : asteroseismic observations after CoRoT: the need for spectroscopic measurements Benoit Mosser -

September 30th, 2008 Patrick Levacher. Plato Instrument System Group.

PLAnetary Transits and Oscillations of stars Claude CATALA Observatoire de Paris, LESIA Main Science Requirements.

Caltech, February 12th1 Virgo central interferometer: commissioning and engineering runs Matteo Barsuglia Laboratoire de l’Accelerateur Lineaire, Orsay.

MPI Semiconductor Laboratory, The XEUS Instrument Working Group, PNSensor The X-ray Evolving-Universe Spectroscopy (XEUS) mission is under study by the.

The Field Camera Unit Results from technical meeting S. Scuderi INAF – Catania.

Assembly 12/14/06 #1 Assembly and Commissioning Paul Huffman.

Seungyu Rah (Pohang Accelerator Laboratory, POSTECH, Korea) Nov

DECam Spectrophotometric Calibration DECam calibration workshop, TAMU April 20 th, 2009 Jean-Philippe Rheault, Texas A&M University.

Pi of the Sky off-line experiment with GLORIA Ariel Majcher National Centre for Nuclear Research Warsaw, Poland 10th INTEGRAL/BART Workshop, April.

Blanco Telescope and DECam Alistair Walker ACTR meeting 22 March 2013

Digital Light Sources First introduced in 2001.

The Kepler Mission S. R. Kulkarni.

ComCam Hardware and Interfaces James Howard ComCam CAM LSST 2017 Project & Community Workshop 2017 Aug 15.

ComCam Hardware and Interfaces James Howard ComCam CAM LSST 2017 Project & Community Workshop 2017 Aug 15.

Is there a future for LIGO underground?

Recent Results and Future Improvements

HMI Reliability Dale Wolfe Reliability Engineer LMSSC*ATC*LMSAL

Launch and On-orbit Checkout

P Fritschel LSC Meeting LLO, 22 March 2005

TEC assembly and commissioning at Lyon

Fast cooling of interferometer payload

CHEOPS - CHaracterizing ExOPlanet Satellite

Optical fiber based sensors for low temperature and superconductors

Presentation transcript:

26-29 March, 2007Arena Workshop, Tenerife1 SIAMOIS Sismomètre Interférentiel A Mesurer les Oscillations des Intérieurs Stellaires Seismic Interferometer to Measure Oscillations in the Interior of Stars Tristan Buey, Benoît Mosser, Claude Catala, Pernelle Bernardi, Jean-Christophe Leclech, Alain Piacentino, Thierry Appourchaux, Jean-Pierre Maillard, François-Xavier Schmider, Jean-Baptiste Daban, François Fressin, Frédéric Thévenin, Stéphane Charpinet, Michel Dupieux, Denis Fappani, Philippe Mathias et al. Observatoire de Paris/LESIA, IAS, UNSA/LUAN, OMP/LATT, IAP, OCA

26-29 March, 2007Arena Workshop, Tenerife2 Asteroseismology Two methods : photometry = space-based observations spectrometry = ground-based observations Advantages of Doppler measurements:- complementary observations Bright stars Low mass stars reduced granulation noise, modes l=3 Scientific requirements: continuous observations & long duration

26-29 March, 2007Arena Workshop, Tenerife3 SIAMOIS at Dome C Observing conditions Consequences SeeingFibre = 5" on the sky No big telescope available at Dome C Science with a 40-cm telescope Only circumpolar targetsEnough interesting bright targets for more than 6 winters Duty cycle ~ 90% !Scientific specification #1 : duty cycle > 85% Polar night = 3 monthsScientific specification #2 : 100-day long run on the same target Demanding site Project ~ spatial organization Quasi-automatic, simple setup Reduced mass, power, telemetry

26-29 March, 2007Arena Workshop, Tenerife4 Instrument Thermo-mechanical structure. Optical bench. Interferometer Camera Dedicated Telescope Bonnette Calibration Optical fibers : signal and calibration Command/control system: Acquisition,image processing … Vacuum pump

26-29 March, 2007Arena Workshop, Tenerife5 Overall description Divided in four sub-systems : –a dedicated Telescope with its Bonnette (telescope guiding and fiber coupling). –an Interferometer and a CCD Camera. –a structure for thermal and mechanical control. –a command/control software system (CCS). Divided among five laboratories : –GIGT / OMP (Observatoire Midi-Pyrénées): Bonnette –LUAN / OCA (Observatoire Côte d’Azur): Telescope –IAS (Institut d’Astrophysique Spatiale): Thermal structure –LESIA / OPM (Observatoire Paris-Meudon): Interferometer –CSIC from Institutode Astrofisica de Andalusia (in discussion).CCS One associated private contractor : –SESO (Société Européenne de Systèmes Optiques).Optics

26-29 March, 2007Arena Workshop, Tenerife6 Instrument 40-cm telescope low cost, dedicated to the project Interferometer monolithic instrument no moving parts, reduced size fiber fed Post-dispersion efficiency, photon noise limited performances, wide spectral range from 400 to 560nm. Optical Fiber For more technical details have a look at the poster.

26-29 March, 2007Arena Workshop, Tenerife7 Planning design - Achievement of the feasibility phase thermo-mechanical analysis - Qualification tests PDR - FDR integration tests - summer campaign: Dome C first winter at Dome C Cost : 860 k€ Including ANR : 460 k€ For phase A in 2006 (ACI + CSA + PNPS) : 116 k€

26-29 March, 2007Arena Workshop, Tenerife8 The constraints Of development: Small budget and short planning… Observation requirements : 90% of duty cycle. Of the site: Very difficult to fix anything at Dome C Wintering assumes a minimum maintenance. Rather hard environmental conditions; large temperature range, long travel to the site; shocks and vibrations. Design: Highly reliable instrument with easy set up and maintenance. Qualification like a space instrument for the critical components Commercial approach for the delivery Minimal customization and technological developments. Fully automated instrument for the main (and very simple) mode of observation. Spares to replace the malfunctioning elements.

26-29 March, 2007Arena Workshop, Tenerife9 Response to the Dome-C constraints Qualification : Telescope and bonnette outside --> Fully qualified (-100°C/+25°C). Mechanical bench, thermal control --> No need to be qualified. Optical components --> Light qualification(-30°C/+25°C), care during transportation, inside a heated shelter. Simplification : The instrument is completely tested and set up before arriving in Dome-C. Only standard mechanical integration and simple good health tests are needed. Apart from calibration modes at the beginning of the observation, only one observation mode, requiring no human intervention (or by remote control). Apart from the active tracking control loop, no complex control inside the instrument, no critical moving parts (simple shutter). Specific optical fiber connector to be qualified (soon) at -100°C.

26-29 March, 2007Arena Workshop, Tenerife10 Response to the Dome-C constraints Automation: Pointing and tracking star: Telescope may point a region of the sky, the bonnette uses a guiding CCD to track the target (control loop). The telescope makes a U-turn every 24 hours to follow the movement of the Earth (specific mechanism allows the rolling-up of the cables). Frame Acquisition: the spectra are automatically acquired by the control/command system with all the house-keeping of the instrument. The thermal control is based on a simple heating system and passive filtering and is naturally automatic. The mechanical control is based on active autonomous suspension. The data during the main observation mode are processed via a constant pipeline for: visualization (remote control), data sending to Europe, storage.

26-29 March, 2007Arena Workshop, Tenerife11 The Command/Control System First estimation around 200ko/day

26-29 March, 2007Arena Workshop, Tenerife12 Dome C: a unique site for Asteroseismology 3-month of continuous observation with duty cycle ~ 90% A specific scientific program after High performances possible with a 40-cm collector –Pioneering project at Dome C –FT seismometer: suitable concept for installation and setup at Dome C –Multiplex advantage of FT spectrometry –Small instrument : < 300kg, < 2m 3, < 1kW, … –Fairly fast development with a demonstrated feasibility. –Fully automated for the main observational mode. Conclusion ‘‘Big science’’ at Dome C with a budget < 1 M€, with little maintenance and limited human intervention.