HMI Magnetic Field Products

Line-of-sight Magnetograms

• LineofsightMagneticField : The line-of-sight magnetic field, hmi.M_*, is computed from the difference of the Doppler velocities observed in two circular polarizations, as was done for MDI. The fastest line-of-sight observing cadence is 45 seconds (hmi.M_45s) in which twelve 4096*4096 filtergrams from the HMI Doppler camera are combined, one in each circular polarization at each of six wavelengths. A lower noise version (hmi.M_720s) is calculated every 720s using selected filtergrams from nine 135s vector field sequences from the other HMI camera.

• The latest nrt HMI images are available at http://jsoc.stanford.edu/data/hmi/images/latest/.

• A browsable image catalog ofHMI magnetic field and intensity

• Colorized magnetograms use the IDL-compatible color table. The color map is explained in more detail here.

Vector Magnetic Field Image Data

• VectorMagneticField : The vector magnetic field is computed from Stokes parameters derived from an independent set of polarized filtergrams. The basic vector field observing cadence is 135 seconds and uses images from HMI's Magnetic camera. The 36 filtergrams measure six polarization states, I plus or minus Q,U,and V, at six fixed wavelengths. All filtergrams are corrected for instrumental effects and interpolated to the proper time. Most analysis is done with weighted averages computed every 720s using data collected over 1215 seconds (nine 135s intervals). The processing happens in three steps. First Stokes parameters (hmi.S_720s) are computed from level 1 filtergrams. Then a Milne-Eddington inversion is performed to determine the field and other plasma parameters (hmi.ME_720s_fd10). Finally disambiguation is performed to determine the field azimuth angle See Vector Field Pipeline Overview for a description.

• FullDiskDisamb : Full-disk disambiguated vector magnetic field images are available every 12 minutes starting on 19 December 2013 and can be found at hmi.B_720s. Magnetograms for earlier times can be computed upon request. These full disk disambiguation results are used to produce SHARPs starting on Jan 15, 2014.

• Vector Field in HMI Active Region Patches : (hmi.sharp_720s, hmi.sharp_cea_720s )

Synoptic Maps

• SynopticMap : HMI synoptic maps are computed from the 720s line-of-sight magnetograms. Standard radial field synoptic charts are assembled by combining the 20 best observations made nearest central meridian at each longitude. It takes approximately 27.27 days to complete a solar rotation. Synoptic maps are provided in two resolutions and as line-of-sight and inferred radial field. The basic SynopticRadial chart is used to compute the other kinds. DailySynopticMaps insert data observed within 60 degrees of central meridian averaged over a 4-hour interval into the most recent synoptic chart.

• A browsable catalog of MDI and HMI synoptic maps.

HARPs - HMI Active Region Patches (HARPs)

• HARPDataSeries : A HARP provides location information about a magnetic active region throughout its disk passage. Each 720s line-of-sight magnetogram is analyzed to generate a mask that indicates coherent regions of strong activity. The time series of masks is analyzed to identify persistent active regions. After the region rotates off the disk, a definitive time series is created that provides consistent geometric information about the HARP from before its first emergence to after its disappearance. HARPs are often associated with one or more NOAA active regions. For each numbered HARP at each time step a rectangular bitmap indicates which pixels on the CCD are part of the HARP and above a threshold.

SHARPs - HMI Active Region Patches (HARPs) with Computed Space Weather Quantities

• The SHARP data series collects maps of vector and scalar data products for each HARP region along with computed space-weather quantities. See the SHARP paper for details.

• SpaceWeatherProducts - SHARPs - Active regions quantities computed from the vector magnetic field for each HARP time step are stored in SHARP keywords. The SHARP data series also provides links to cut-outs and remapped images of the HARPS. For more detail, see SHARP Explanation.

• The nrt SHARP data are available since 2012.09.14 at hmi.sharp_720s_nrt or hmi.sharp_cea_720s_nrt.

• Source code is available for the SHARP module

Links to Currently Available Magnetogram Data

• Magnetic Image Data	Links to lookdata
  Line of sight Magnetograms	hmi.M_720s	hmi.M_45s
  Vector Magnetograms	hmi.B_720s
  Stokes Parameters	hmi.S_720s
  VFISV Inversion - ME	hmi.ME_720s_fd10	hmi.ME_720s_fd10_nrt
  Disambiguated Vector B SHARP	hmi.sharp_720s	hmi.sharp_cea_720s
  NRT SHARP	hmi.sharp_720s_nrt	hmi.sharp_cea_720s_nrt
  Old Disambiguated Vector B	hmi.B_720s_e15w1332_cutout	hmi.B_720s_e15w1332_CEA
  Obscure Data Products	Summary Information about Some ObscureDataProducts

Links to Synoptic Maps

• HMI synoptic maps provide a composite view of the entire observable solar surface. They are computed from the 720s line-of-sight magnetic field measurements and come in 3600*1440 and 720*360 sizes.

  Standard HMI Photospheric Field Carrington Synoptic Maps
  Line of sight synoptic map	hmi.Synoptic_Ml_720s	hmi.Synoptic_Ml_720s_small
  Assumed Radial component of LoS map	hmi.Synoptic_Mr_720s	hmi.Synoptic_Mr_720s_small
  DailySynopticMaps
  Daily Update LoS Synoptic Map	hmi.Mldailysynframe_720s	Soon: hmi.Mldailysynframe_720s_small
  Daily Update Radial Synoptic Map	hmi.Mrdailysynframe_720s	Soon: hmi.Mrdailysynframe_720s_small
  Daily NRT Synoptic Maps
  Daily Update NRT Los Synoptic Map	hmi.Mldailysynframe_720s_nrt	Soon: hmi.Mldailysynframe_720s_nrt_small
  Daily Update NRT Radial Synoptic Map	hmi.Mrdailysynframe_720s_nrt	Soon: hmi.Mrdailysynframe_720s_nrt_small

HMI Active Region Patches

A HARP (short for HMI Active Region Patch) is an enduring, coherent magnetic structure at the size scale of a solar active region. The primary purpose of the HARP data series is to provide the practical geometric information needed to follow an evolving region as it crosses the solar disk. A HARP is initially identified automatically in a sequence of HMI line-of-sight magnetograms. HARPs are typically observed over several days (possibly as long as a disk passage) and tracked from one image to the next. At each time step, the rectangular HARP bounding box is provided and a BITMAP that characterizes the pixels of the HARP is recorded. The bounding box encloses the maximum heliographic extent of the region during its life time. The BITMAP indicates which pixels in the box are part of the HMI active region patch and can be applied to an HMI image. Keywords provide summary information about the patch (e.g. the total line-of-sight magnetic flux) as well as geometric and heliographic specifics.

The HARP information is being used to determine regions of interest for vector field inversion processing, both for past data (hmi.ME_720s_fd10) and for near real time processing (hmi.ME_720s_fd10_nrt). Near real time HARPs (hmi.Mharp_720s_nrt) are a little different than definitive HARPs because the entire history or each region is not known; NRT and definitive HARP numbers differ.

See HARPDataSeries for details.

• HARP Data Series	Definitive	NRT
  Movie Description	Monthly Movies	Daily Movies
  Line of Sight	hmi.Mharp_720s	hmi.Mharp_720s_nrt
  Vector - ME	hmi.ME_720s_fd10	hmi.ME_720s_fd10_nrt
  SHARP - ccd	hmi.sharp_720s	hmi.sharp_720s_nrt
  SHARP - cea	hmi.sharp_cea_720s	hmi.sharp_cea_720s_nrt

• Links to HMI PipelineCode

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