The TESS mission has several data products ranging from the TESS input catalog to a catalog of planet candidates. Here we give an overview of what information is in each data product. More information on downloading products at MAST is covered in Section 5. On this page... |
TESS obtains time-series photometry at a few different cadences with a baseline ranging from ~27 days to a full year, depending on sector overlap. An overview of the primary pixel-level science products is shown above. The entirety of the CCDs is known as a Full Frame Image (FFI). Certain groups of pixels are also downloaded at a faster cadence for a subset of targets; these are known as Target Pixel (TP) files. The pixels around a selected star are stored as arrays in these target-pixel files, one image per time stamp. Aperture photometry is performed on each image, creating an array of fluxes; these are known as Light Curve (LC) files. See the Science Product Handbook for more detailed information on file formats and content. See the Levels Of Data Processing page to better understand how SAP, PDCSAP, and Co-trending Basis Vectors relate to TESS data products.
Cotrending Basis Vectors (CBV) (_cbv.fits): The cotrending basis vectors represent the set of systematic trends present in the ensemble light curve data for each CCD and can be used to remove common instrument systematics from the data. These vectors are created by the pipeline to produce the detrended flux time series (PDCSAP_FLUX) in the light curve files. The CBVs can be fit to individual aperture photometry light curves (SAP_FLUX) on the same channel to fine-tune the detrending. (There are no CBVs associated with the fast, 20-second light curves.)
Sector 27 is the first set of data associated with the TESS extended mission that began in July 2020. There are a few changes to the observing mode following the mission extension. The FFIs are now read out at a 10-minute cadence instead of a 30-minute cadence. Also, a select set of targets are being read out at a 20-second cadence in addition to the 2-minute cadence. These short cadence observations are delivered as target pixel and light curve files. No Data Validation files are created for the 20-second data products.
Sector 56 is the first set of data associated with the second TESS extended mission that began in September 2022. The FFIs are now read out at a 200-second cadence instead of a 10-minute cadence.
Table: Cadence Quality FlagsThe TESS pipeline populates a series of quality flags to indicate when a cadence may have been taken during an anomalous event. These flags are available in the light curve files, the target pixel files, and a subset are available for the FFIs. Those in the FFIs are created by taking a logical AND across the short cadences. The following table describes the meaning of each flag.
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Table: Aperture Mask Image FlagsThe light curve and target pixel files contain an image in the APERTURE FITS extension that describes how each pixel was used in the processing. The integer values of this image are the bit-wise OR of the bits described in the following table.
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TESS provides several catalogs of target stars to choose which stars will be observed at the 2-minute cadence.
The flux time series for each star observed in short cadence is then further detrended and searched for transits. The repeating signals identified in this way are known as Threshold Crossing Events (TCE). The TESS Science Processing Pipeline produces the following products for each target star that generates a TCE.
The TESS mission searches each sector individually for planets and performs multi-sector searches for targets observed in more than one sector. The DV products listed below exist for these multi-sector searches and can be found in their own Observation when searching for data in the MAST portal or using astroquery. The single-sector DV products can be found next to the 2-minute light curves after removing the check mark for minimum recommended products. The DV reports and summaries are also available in bulk from the bulk downloads page.
Exoplanet Result Catalogs
TESS produces several catalogs of possibly transit-like, periodic signals found in the TESS data. Each successive catalog represents a more intense vetting process. The catalog of signals with the least amount of vetting is the Threshold Crossing Events (TCEs), which the SPOC Pipeline produces. Other groups may also search the short cadence light curves or the longer cadence FFIs for signals consistent with transiting exoplanets. Since these signals have little-to-no vetting, the reliability can be quite low. Signals found in the data are then turned into TESS Objects of Interest (TOI) once the signal is vetted and determined to be sufficiently consistent with a transit or eclipse. The TOI list contains planet candidates and false positives, but all signals are worthy of follow-up observations. Once follow-up measurements, or additional analysis, reveal the mass of the transiting object or remove all doubt that an eclipsing binary could cause the signal, the planet is considered confirmed.
These files include the Pixel Response Function, the flat field models, the 2D black model, and the engineering mnemonics. See the full listing of the data products.
The PRF models were created by the SPOC by fitting to micro-dithered data taken during PRF commissioning exercises. See the Instrument Handbook for details on the data collection. The pixel response functions in FITS or Matlab format are available from the models/prf_fitsfiles directory. There are two versions of the PRF. Those in the directory start_s0001/ apply to the data taken in Sectors 1–3, and those in start_s0004/ apply to the data taken in Sector 4 and beyond.
For each CCD, the pixel response function is provided for 5x5 locations across the detector. For each CCD location, there is an associated FITS file. The reference row/column of the grid points is provided in the image file names and FITS headers. These reference locations define the center of the PRF image in the TESS CCD coordinate system. The images are composed of 9x9 intra-pixel samples per physical TESS CCD pixels. The size of the PRF provided for each intra-pixel sample is 13x13 pixels. Each FITS file contains two extensions: the primary header contains the PRF image data itself, and the 2nd extension contains the uncertainties. Users can interpolate between both the location on the CCD and the intra-pixel location to obtain a PRF for an arbitrary location on the detector.
The 'PHYSICAL' WCS solutions can be used to convert the PRF image coordinates to the corresponding locations on the TESS CCDs. The TESS CCD coordinate systems are defined so that row,col = 1,1 is the center of the lower left pixel of each CCD. Note that the PRF locations do not always map to "real" TESS pixels: in the adopted coordinate system, there may be negative TESS pixels or pixels larger than the total number in the CCD imaging arrays (> 2048). These locations are well-defined in the instrument's focal plane even though no light-sensitive pixels are present. Bilinear interpolation on the images between the grid points can be used to estimate the PRF at arbitrary locations and is accurate to 1%-5%. This coordinate system is offset from the FFIs/TPF coordinate system by 44 columns, owing to the presence of collateral pixels in the science data products (overscan regions).