Download - HMI Major Science Objectives
HMI Major Science Objectives
The primary goal of the Helioseismic and Magnetic Imager (HMI) investigation is to study the origin of solar variability and to characterize and understand the Sun’s interior and the various components of magnetic activity. The HMI investigation is based on measurements obtained with the HMI instrument as part of the Solar Dynamics Observatory (SDO) mission. HMI makes measurements of the motion of the solar photosphere to study solar oscillations and measurements of the polarization in a spectral line to study all three components of the photospheric magnetic field. HMI produces data to determine the interior sources and mechanisms of solar variability and how the physical processes inside the Sun are related to surface magnetic field and activity. It also produces data to enable estimates of the coronal magnetic field for studies of variability in the extended solar atmosphere. HMI observations will enable establishing the relationships between the internal dynamics and magnetic activity in order to understand solar variability and its effects, leading to reliable predictive capability, one of the key elements of the Living With a Star (LWS) program.
The broad goals described above will be addressed in a coordinated investigation in a number of parallel studies. These segments of the HMI investigation are to observe and understand these interlinked processes:
• Convection-zone dynamics and the solar dynamo;• Origin and evolution of sunspots, active regions and complexes of activity;• Sources and drivers of solar activity and disturbances;• Links between the internal processes and dynamics of the corona & heliosphere;• Precursors of solar disturbances for space-weather forecasts.
These goals address long-standing problems that can be studied by a number of immediate tasks. The approaches to study these processes reflect our current level of understanding and will obviously evolve in the course of the investigation.
Mechanical Characteristics:Box: 0.84 × 0.55 × 0.16 mOver All: 1.19 × 0.83 × 0.30 mMass: 44.0 kgFirst Mode: 73 Hz
Z
YX
Optical Characteristics:Effective Focal Length: 495 cmTelescope Clear Aperture: 14 cm
Focal Plane Assembly
ISS Beam-splitter Assembly
Limb Sensor Assembly
ISS Pre-Amp Electronics Box
Camera Electronics Box
Telescope Assembly
Primary Lens Assembly
Front Window Assembly
Front Door Assembly
Fold Mirror Assembly
BDS Beam-splitter Assembly
Michelson Interferometer
Alignment Mechanism
Filter Oven Assembly
Lyot Filter Assembly
Oven Controller E-Box
Focus Mechanism
ISS Mirror Assembly
Hollow Core Motors
Secondary Lens Assembly
Structure
HMI Principal Optics Package Components
The Helioseismic & Magnetic Imager on the Solar Dynamics ObservatoryThe HMI Team – Stanford University, LMSAL, HAO, ++
HMI Implementation
The HMI instrument design and observing strategy are based on the highly successful MDI instrument, with several important improvements. HMI observes the full solar disk in the Fe I absorption line at 6173Å with a resolution of 1 arc-second. HMI consists of a refracting telescope, a polarization selector, an image stabilization system, a narrow band tunable filter and two 4096² pixel CCD cameras with mechanical shutters and control electronics. The continuous data rate is 55Mbits/s.
The polarization selector, a set of rotating waveplates, enables measurement of Stokes I, Q, U and V with high polarimetric efficiency. The tunable filter, a Lyot filter with one tunable element and two tunable Michelson interferometers, has a tuning range of 600 mÅ and a FWHM filter profile of 76 mÅ.
Images are made in a sequence of tuning and polarizations at a 4-second cadence for each camera. One camera is dedicated to a 45s Doppler and line-of-sight field sequence while the other to a 90s vector field sequence. All of the images are downlinked for processing at the HMI/AIA Joint Science Operations Center at Stanford University.
The solid lines show the HMI filter transmission profiles at 76 mÅ spacing. The black dashed line is the profile used for the continuum filtergram. The dotted line shows the Fe I line profile.
HMI Recent Progress & Current HMI Activities
(as of May 2010)
•SDO with HMI was launched on Feb 11, 2010.
•The HMI aperture door was opened on March 24.
•The SDO commissioning was complete on April 30.
•Regular observations with preliminary calibrations are available since May 4 for data from door opening to the current day – 1.
•Calibration and “observable” analysis code development activities are continuing.
•We expect stable data products to be regularly available starting mid June 2010.
•HMI “level-1” science data will be available within a day or so after observation.
•Regular processing of higher level products will begin during the next few months.
•There will be about 5 months of overlap with SOHO/MDI for cross-calibrations.
•Access to HMI data is available via the HMI/AIA JSOC (see right half of this poster) and VSO.
HMI/AIA JSOC (Joint Science & Operations Center)
•Data Capture from SDO ground system•Archive of telemetry and processed data•Distribution to team and exports to all users•HMI and AIA processing to “level-1”•HMI higher level science data products
•Expect to archive ~ 1000TB/yr•Metadata stored in PostgreSQL database•Image data is stored online and on tape (LTO-4)•“Pipeline” processing system to generate standard products•Special products computed automatically “on demand”
http://jsoc.stanford.edu
HMI – AIA Joint Science Operations (JSOC-SDP)Science Data Processing for the Solar Dynamics Observatory
The JSOC-SDP Team – Stanford University
HMI Data Products as of May 22, 2010
Higher level products will begin to be processed on a regular basis over the coming weeks.
JSOC SeriesName Product Notes
hmi_test.V_45s
Hmi_test.M_45s
Hmi_test.Ic_45s
Hmi_test.Ld_45s
HMI_test.Lw_45s
Dopplergrams, Line-of-Sight magnetograms, Continuum Proxy Intensity, 6173A line width, line depth respectively, observed at 45-second cadence.
“Final” products available after mid June will not have the “_test” suffix to the project name. Units are m/s, gauss, DN/s, mA, and DN/s resp.
Hmi_test.S_720s Stokes I,Q,U,V at 12 minute cadence.
24 quantities are saved for each time step. IQUV for each of 6 filter tuning positions.
HMI Team HEPL, Stanford University **Phil Scherrer *John. Beck *Richard. Bogart *Rock Bush *Tom Duvall, Jr. *J.Todd Hoeksema *Alexander Kosovichev *Yang Liu *Jesper Schou *XuePu. Zhao Jim Aloise Art Amezcua Kelly Beck Sudeepto Chakraborty Millie Chethik Keh-Cheng Chu Carl Cimilluca Sebastien Couvidat Nancy Christensen Romeo Durscher Thomas Hartlep Keiji Hayashi Tim Huynh Stathis Ilonidis Kevin Kempter Irina Kitiashvili Rasmus Larsen Tim Larson Leyan Lo Rakesh Nigam Konstantin Parchevsky Bala Poduval Brian Roberts Kim Ross Deborah Scherrer Jeneen Sommers Jennifer Spencer Margie Stehle Xudong Sun Hao Thai Karen Tian Jeff Wade Richard Wachter
Junwei Zhao HEPL Staff LMSAL *Alan. Title *Tom Berger *Karel Schrijver *TedTarbell Dave Akin Brett Allard Ron Baraze M. Baziuk E. Bogle Bob Caravalho Brock Carpenter C Cheung Roger Chevalier K. Chulick Tom Cruz Jerry Drake Dexter Duncan Jay Dusenbury Janet Embrich Chris Edwards Cliff Evans Peter Feher Barbara Fischer Chuck Fischer Sam Freeland Frank Friedlander Glen Gradwohl Hank Hacook Gary Heyman Bob Honeycutt Elizabeth Hui Bruce Imai Jerry Janecka Romona Jimenez Dwana Kacensky Pete Kacensky Claude Kam Noah Katz Karen Kao Dave Kirkpatrick Gary Kushner Michael Levay Russ Lindgren Gary Linford Andrea Lynch Dnyanesh Mathur
Ed McFeaters John Miles Keith Mitchell Sarah Mitchell Ruth Mix Margaret Morgan Rose Navarro Tom Nichols Tracey Niles Jackie Pokorny Roger Rehse Rick Rairden J-P Riley Lomita Rubio David Schiff Isella Scott Ralph Sequin Cherl Seeley Lawrence Shing Araya Silpikul Larry Springer Dick Shine Bob Stern R. Timmons Louie Tavarez Edgar Thomas Darrell Torgerson Angel Vargas Shan Varaitch Dale Wolf Jake Wolfson Carl Yanari Ross Yamamoto Kent Zickuhr HAO *Steve Tomczyk Bruce Lites Jonathan Graham Anthony Darnell Gregory L. Card Aimee Norton Juan Borrero Santiago Rebecca C. Elliott David Elmore Bruce Lites Hector Socas-Navarro Arturo Lopez Ariste
Matthias Rempel JPL Michael Turman JILA *Juri Toomre Deborah Haber Bradley Hindman Nicholas Fetherstone Regner Trampedach Swati Routh Benjamin Brown Gwen Dickenson0 NASA Ames *Nagi Mansour *Alan Wray NJIT, BBSO *Phil Goode Vasyl Yurchyshyn NWRA/CoRA *Doug.C. Braun *Charlie.A. Lindsey Graham Barnes Aaron Birch Ashley Crouch KD Leka *†Tom Metcalf Orion Poplawski Martin Woodard NSO *Frank Hill *Rachel Howe Igor Suarez-Sola Walter Allen Olga Burtseva Irene Gonzalez- Hernandez Rudi Komm Sushanta Tripathy Kiran Jain Shakur Kholikov Predictive Science Inc. *Jon. Linker
Zoran Mickic Pete Riley Janvier Wijaya Michael Choy Timofey Titov SAO *Sylvain Korzennik Alisdair Davey UCLA *Roger Ulrich U. of Hawaii *Jeff. R. Kuhn Marcelo Emilio Isabelle Scholl UMCP *Judit Pap USC *Ed J. Rhodes, Jr. Anthony Spinella Shawn Irish Johann Reiter Yale University *Sarbani Basu Charles Baldner International Aarhus University, DK *Joergen Christensen- Dalsgaard Cambridge, UK *Douglas Gough ESA *Bernhard Fleck IIAP, IN S. Paul Rajaguru Dipankar Banerjee Siraj Hasan
MPS, DE *Sami Solanki, Laurent Gizon Raymond Burston Yacine Saidi MSSL, UK *Len Culhane Elizabeth Auden NAOJ, JP *Takashi Sekii Kaori Nagashima RAL, UK *Richard Harrison Sheffield Univ. UK *Mike Thompson Univ. Tokyo, JP *Hiromoto Shibahashi Industrial e2v - CCDs Gary Auker Rob Wilson RAL - Cameras Nick Waltham LightMachinery - Michelson interferometers Ian Miller John Hunter Andover Corporation & Zygo Corporation - Filters John Cotton H. Magnetics - motors Ralph Horber
Contributors to the HMI development up through launch include:
HMI Data Products and Access
All HMI data is available. Science level data products are being placed on an open web server with a lag of a day or so of time of observation.
Lower level and intermediate products are available on request.
The data volume is large, more than a terabyte per day. Thus we encourage users to export only the data they actually need for immediate analysis. We are committed to provide tools to allow subsetting of the data and of providing multiple access tools appropriate for different data volumes for different users.
The JSOC consists of three components: The IOC (Instrument Operations Center) at LMSAL performs instrument operations for both HMI and AIA; The SDP (Science Data Processing) facility at Stanford handles data for both HMI and AIA by receiving it from the SDO ground system, short term and long term archive, processing to “level-1” products for both instruments, higher level processing for HMI and data access and export for both instruments; The AVC (AIA Visualization Center) provides tools for interactive inspection and analysis of AIA images and HMI magnetic data.
Products from Level-1 and above are served through the open server at the JSOC web site. The higher level products are in development and are expected to become available over the coming months.
HMI Data Analysis Pipeline
DopplerVelocity
HeliographicDoppler velocity
maps
Tracked TilesOf Dopplergrams
StokesI,V
Filtergrams
ContinuumBrightness
Tracked full-disk1-hour averagedContinuum maps
Brightness featuremaps
Solar limb parameters
StokesI,Q,U,V
Full-disk 10-minAveraged maps
Tracked Tiles
Line-of-sightMagnetograms
Vector MagnetogramsFast algorithm
Vector MagnetogramsInversion algorithm
Egression andIngression maps
Time-distanceCross-covariance
function
Ring diagrams
Wave phase shift maps
Wave travel times
Local wave frequency shifts
SphericalHarmonic
Time seriesTo l=1000
Mode frequenciesAnd splitting
Brightness Images
Line-of-SightMagnetic Field Maps
Coronal magneticField Extrapolations
Coronal andSolar wind models
Far-side activity index
Deep-focus v and cs
maps (0-200Mm)
High-resolution v and cs
maps (0-30Mm)
Carrington synoptic v and cs
maps (0-30Mm)
Full-disk velocity, v(r,Θ,Φ),And sound speed, cs(r,Θ,Φ),
Maps (0-30Mm)
Internal sound speed,cs(r,Θ) (0<r<R)
Internal rotation Ω(r,Θ)(0<r<R)
Vector MagneticField Maps
HMI DataData ProductHMI Data Processing
Level-1
Level-0
The JSOC web site includes a “wiki” for JSOC documentation, online code documents are maintained by the Doxygen system, the base infrastructrue code is maintained in the CVS system with online access. Basic tools (AJAX style) are available for inspection of image metadata and access to individual data files. Data is maintained in compressed FITS files with minimal headers. The data metadata is maintained in a PostGreSQL database. Metadata may be bound to data files on export. The metadata system and supporting software API is called the “Data Record Management System” (DRMS). The basic unit of storage is called a “Storage Unit” and maintained by SUMS (Storage Unit Management System). The DRMS/SUMS system has heritage in the SOHO/MDI data system. DRMS/SUMS make each of the expected many hundreds of millions of files individually available. SOHO/MDI data has been ingested into the JSOC DRMS/SUMS system as its Resident Archive and had been the source of most exported MDI data for several years.
SDO (HMI and AIA) is available through multiple channels: •Direct access via programming interface in “c” for pipeline processing and local analysis.•Basic access and export directly from the JSOC data servers, •High volume users are served by the netDRMS distributed data system.•Most Level-1 and selected higher level products via the Virtual Solar Observatory (VSO),•3rd party servers such as jhelioviewer.org will provide streaming access to images.•JSOC-AVC will provide daily images to science museums and planetariums.•The AVC will provide a “Sun Today” web service.•NASA SDO will provide high volume access for selected event image sequences.