Last Updated 2019-04-30 ** ATTENTION THIS PAGE IS CURRENTLY UNDER CONSTRUCTION **
The data release notes are updated by the TESS Stellar Parameter Working Group as issues are found.
Updates to the TICv8 release notes, different from the previous version
This document should be considered a ‘living-document’, which will be updated as issues are identified, or as descriptions are made more accurate. This section of the release notes highlights major changes to this document between versions, identified by the version date in the title. The major document changes will also be identified in the text as bolded text.
List of document updates:
- This is the first publication of the TICv8 release notes, and no bolded changes appear in the text below.
Updates to the TICv8 CTL
This section of the release notes highlights major changes to how stars are selected for the TICv8 CTL as new versions of the CTL are generated.
List of changes to the TICv8 CTL:
- The current version of the CTLv8.01, and is the original CTL for TICv8.
Introduction
These release notes describe the schema, and content, of the eighth version of the TESS Input Catalog (TICv8) produced entirely by the Target Selection Working Group (TSWG). TICv8 was finalized, and prepared for delivery to the TESS Science Office (TSO), on 2019 April 10.
TICv8 has a number of minor issues (see below) that have not been fixed in this version due to time constraints during preparation. Specific details of the method of production, and the contents of this TIC, will be described in the to-be-published full TICv8 Documentation. The full documentation for TICv7, and earlier TIC versions, can currently be found in Stassun et al. (2018, AJ, 156, 102), and on the arXiv at (https://arxiv.org/abs/1706.00495).
The design of TICv8 is nearly identical to TICv7, in that the original columns and their formats are the same, but there have been updates to various parameter calculations, and additional columns have been added to allow for more user flexibility. The TIC IDs have not been changed, and all future deliveries of the TIC will use the same TIC IDs for specific objects, preserving backwards compatibility. New objects added to the TIC will always receive new IDs. Objects may be removed from the TIC, if they are found to be spurious, but TIC IDs will always be unique, and a new TIC object will never receive the ID of an old TIC object.
Major changes in TICv8 compared to TICv7
This delivery contains major changes in computed quantities compared to TICv7. It should be noted that the methods used to estimate a variety of stellar parameters are still under active development, and can be affected by poor catalog photometry when there is no acceptable alternative photometry for a given star.
The major changes compared to previous versions are:
- The base catalog for TICv8 is now the Gaia DR2 catalog. This differs from the previous versions of the TIC, which were based on 2MASS. 2MASS and Gaia DR2 objects were matched using the Gaia- provided 2MASS-to-Gaia look-up table (tmass_best_neighbour). All 2MASS objects retained their original TICv7 TIC-ID. All Gaia objects not found in 2MASS, or earlier versions of the TIC, were given new TIC-IDs.
- Stars identified in 2MASS as a single source, but identified in Gaia as multiple sources, are identified with the disposition = SPLIT (column 86). In this case, the 2MASS object remains in the TIC with the original TIC-ID, and two or more new sources have been added to the TIC with new TIC-IDs. In these cases, the new TIC objects will have the TIC-ID of the original object in the duplicate_id column (column 87).
- Stars are selected to be in the CTL if they meet the following requirements: Tmag < 13 (column 61), the Gaia quality flag is set to 1 (column 112), the star has a dwarf-like radius (the star’s radius is smaller than the line in figure 10 of the full documentation), and the star’s placement on the absolute Gmag (based on column 59) vs. gaiabp (column 108) - gaiarp (column 110) color-magnitude diagram suggests the star is not a white dwarf. Please see section 3.1 of the full documentation for more details.
- There is no longer a specially curated ‘Bright Star’ list, and as a result, stars no longer have their priorities set to be 1 if their TESS magnitude is brighter than Tmag = 6 (column 61). Thus ‘Bright stars’ are no longer automatically added to the CTL.
- There is no longer a specially curated ‘Known-Planets’ list. The stellar parameters for such objects in existing catalogs were found to be too inhomogeneous to properly calculate a priority. Thus ‘Known planets are no longer automatically added to the CTL.
- CTL stars with calculated masses and radii that result in an unphysical value of log(g) > 5 (column 67) have had their CTL priorities set to 0. This was done to avoid prioritizing stars that may have poorly measured effective temperatures (column 65), extinction values (column 82) , and/or parallaxes (column 22), but that still pass the quality assurance cuts. Stars in specially curated lists have been excluded from this criterion.
- In all cases, physical parameters have been calculated using the reported effective temperature (column 65), radius (column 71), and mass (column 73) in the TIC. This includes stars that may have measured physical parameters, such as log(g) (column 67), in spectroscopic catalogs matched to TICv8. The only stellar parameters that have been adopted directly from spectroscopic catalogs are effective temperatures (column 65) and metallicities (column 69), provided the error on the effective temperature (column 66) is less than 300 K.
- When multiple spectroscopic parameters exist for a single star, in a single catalog, these values have been combined using a weighted mean.
- The coordinates (columns 14,15, 25-28) and their uncertainties (columns 117-118) are provided in epoch 2000 due to mission requirements. Positional errors (columns 117-118) and proper motion errors (columns 18, 20) have been propagated. It should be noted that this leads to much larger errors than those in the nominal Gaia DR2 positions. Especially for Gaia DR2 stars, users should not try to propagate forward the TIC coordinates (columns 14, 15) using the proper motions (columns 17, 19) listed. Instead, users should use the original Gaia DR2 positions (columns 119, 120), proper motions (columns 14, 15), and corresponding errors for propagation (columns 121, 122). We provide RA and Dec, with errors, as given in the source catalog (Gaia DR2, 2MASS etc) in additional columns (119 - 122).
- Stars in the CTL have their priorities (column 88) multiplied by a factor of 0.1 if they are within 10 degrees of the Galactic plane (column 26). This was done to avoid prioritizing stars for two-minute cadence which may be affected by large amounts of extinction. This is a change from previous version of the TIC that de-boosted priorities if |b| < 15 degrees.
- Many stars in the TIC have stellar parameters provided, regardless of their inclusion in the CTL. However, stars have their masses (column 73) calculated only if they have radii (column 71) smaller than the line shown in figure 10 of the full documentation. This was to avoid providing masses for stars that may be giants using an empirical relation valid only for dwarf stars. If a star is identified as a subgiant, the mass (column 71) and log(g) (column 67) should not be considered to be reliable; however, the luminosity (column 78) and effective temperature (column 65) for these stars are considered to be reliable.
- A number of additional columns have been provided for users on MAST; see columns 89-122 below.
- The Tmag (column 61) is now calculated using colors that have been corrected for reddening. Gaia colors are preferred if they are given and match the Gaia quality criteria (gaiaqflag = 1, column 112). As a result, some stars may have different Tmags compared to previous versions of the TIC.
- The cool dwarf list was updated in TICv8 to only include cool dwarfs with reliable parallaxes (< 20% error). Stars in the previous version of the cool dwarf catalog, retain their TICv7 stellar parameters, but no longer have a priority calculated.
- The only stars from the specially curated cool dwarf list which are included in CTLv8.01 are those with T<16. This was done to limit the size of CTLv8.01 to be less than 10 million stars. Future versions of the CTL may include fainter cool dwarf stars.
Currently known quirks and issues with TICv8
There are a number of minor issues, and quirks, which have been identified by the TSWG. Users should read this section carefully, before accepting TIC quantities at face value.
- Some stars may have reported stellar parameter errors that are larger than the parameter quantity. Users are cautioned against using these parameters in calculations for publications.
- Users are reminded that stars that have ecliptic latitudes between -6 and 6 degrees have their priorities set to zero. This “gap” in priority is meant to mimic the expected gap in camera coverage for the two year primary TESS mission.
- Some stars in the hot subdwarf list do not have errors for their stellar parameters. These were adopted ‘as-is’ for consistency.
- The disposition column identifies objects that are included in the TIC, but are likely spurious, or related to other TIC objects in a non-trivial, non-astrophysical way. Currently, this column is populated as a NULL, DUPLICATE (6), ARTIFACT (7), or SPLIT (8). When a single star in a previous TIC is found to be two or more actual sources due to the enhanced resolution of Gaia DR-2, the original TICID gets the disposition SPLIT. New TICIDs are assigned to the objects and the original TICID is in column DUP_ID (column 87). The original star “SPLIT” star will have NULL in the dup_id. The DUPLICATE flag means the star is listed twice (or more) in the TIC due to prior cross-matching difficulties. In this case, DUP_ID contains the TICID of the real star.
- Users should note the metallicity (column 69) has been adopted when available from a spectroscopic catalog, but it is not directly used in any calculation. This may result in physical parameters that are not strictly consistent with the reported metallicity.
- The listed RA (column 14) and Dec (column 15) are not measured positions, but positions which have been propagated to EPOCH J2000.0. Users should not try to propagate forward the TIC coordinates using the proper motions listed. Instead, users should use the original catalog position (column 119 & 120), proper motions (columns 17 & 19), and corresponding errors for propagation.
- If a star is identified as a subgiant, and a mass and log(g) are provided, users should not consider these parameters to be reliable, because the empirical relations designed to calculate the mass are valid for dwarf stars. However the luminosity and effective temperature should be accurate.
- Asymmetric errors are computed using a Monte Carlo method and are only provided for CTL stars which are not in a specially curated list. There are borderline cases where the peak of the property-distribution was too close to the validity-limit of the property-relation in order to compute reliable errors. These stars will have no or asymmetric errors for just some properties.
TICv8 Column Schema - Executive Summary
Column Number | Column Name | Data Type | Description | Units |
1 | ID | long | TESS Input Catalog identifier | |
2 | Version | string | Version Identifier for this entry | yyyymmdd |
3 | HIP | long | Hipparcos Identifier | |
4 | TYC | string | Tycho2 Identifier | |
5 | UCAC | string | UCAC4 Identifier | |
6 | TWOMASS | string | 2MASS Identifier | |
7 | SDSS | string | SDSS DR9 Identifier | |
8 | ALLWISE | string | ALLWISE Identifier | |
9 | GAIA | string | GAIA Identifier | |
10 | APASS | string | APASS Identifier | |
11 | KIC | long | KIC Identifier | |
12 | Objtype | string | Object Type | |
13 | Typesrc | string | Source of the object | |
14 | RA | double | Right Ascension epoch 2000 | deg |
15 | Dec | double | Declination epoch 2000 | deg |
16 | Posflag | string | Source of the position | |
17 | pmRA | double | Proper Motion in Right Ascension | mas/yr |
18 | e_pmRA | double | Uncertainty in PM Right Ascension | mas/yr |
19 | pmDec | double | Proper Motion in Declination | mas/yr |
20 | e_pmDec | double | Uncertainty in PM Declination | mas/yr |
21 | PMFlag | string | Source of the Proper Motion | |
22 | plx | double | Parallax | mas |
23 | e_plx | double | Error in the parallax | mas |
24 | PARFlag | string | Source of the parallax | |
25 | GalLong | double | Galactic Longitude | deg |
26 | GalLat | double | Galactic Latitude | deg |
27 | EcLong | double | Ecliptic Longitude | deg |
28 | EcLat | double | Ecliptic Latitude | deg |
29 | Bmag | float | Johnson B | mag |
30 | e_Bmag | float | Uncertainty in Johnson B | mag |
31 | Vmag | float | Johnson V | mag |
32 | e_Vmag | float | Uncertainty in Johnson V | mag |
33 | umag | float | Sloan u | mag |
34 | e_umag | float | Uncertainty in Sloan u | mag |
35 | gmag | float | Sloan g | mag |
36 | e_gmag | float | Uncertainty in Sloan g | mag |
37 | rmag | float | Sloan r | mag |
38 | e_rmag | float | Uncertainty in Sloan r | mag |
39 | imag | float | Sloan I | mag |
40 | e_imag | float | Uncertainty in Sloan I | mag |
41 | zmag | float | Sloan z | mag |
42 | e_zmag | float | Uncertainty in Sloan z | mag |
43 | Jmag | float | 2MASS J | mag |
44 | e_Jmag | float | Uncertainty in 2MASS J | mag |
45 | Hmag | float | 2MASS H | mag |
46 | e_Hmag | float | Uncertainty in 2MASS H | mag |
47 | Kmag | float | 2MASS K | mag |
48 | e_Kmag | float | Uncertainty in 2MASS K | mag |
49 | TWOMflag | string | Quality Flags for 2MASS | |
50 | prox | float | Distance to 2MASS nearest neighbor | arcsec |
51 | W1Mag | float | WISE W1 | mag |
52 | e_W1Mag | float | Uncertainty in WISE W1 | mag |
53 | W2Mag | float | WISE W2 | mag |
54 | e_W2Mag | float | Uncertainty in WISE W2 | mag |
55 | W3Mag | float | WISE W3 | mag |
56 | e_W3Mag | float | Uncertainty in WISE W3 | mag |
57 | W4mag | float | WISE W4 | mag |
58 | e_W4Mag | float | Uncertainty in WISE W4 | mag |
59 | Gmag | float | GAIA G Mag | mag |
60 | e_Gmag | float | Uncertainty in GAIA G | mag |
61 | Tmag | float | TESS Magnitude | mag |
62 | e_Tmag | float | Uncertainty in TESS Magnitude | mag |
63 | TESSFlag | string | TESS Magnitude Flag | |
64 | SPFlag | string | Stellar Properties Flag | |
65 | Teff | float | Effective Temperature | K |
66 | e_Teff | float | Uncertainty in Effective Temperature | K |
67 | logg | float | log of the Surface Gravity | cgs |
68 | e_logg | float | Uncertainty in Surface Gravity | cgs |
69 | M/H | float | Metallicity | dex |
70 | e_M/H | float | Uncertainty in the Metallicity | dex |
71 | Rad | float | Radius | solar |
72 | e_Rad | float | Uncertainty in the Radius | solar |
73 | Mass | float | Mass | solar |
74 | e_Mass | float | Uncertainty in the Mass | solar |
75 | rho | float | Stellar Density | solar |
76 | e_rho | float | Uncertainty in the Stellar Density | solar |
77 | LumClass | string | Luminosity Class | |
78 | Lum | float | Stellar Luminosity | solar |
79 | e_Lum | float | Uncertainty in Luminosity | solar |
80 | d | float | Distance | pc |
81 | e_d | float | Uncertainty in the distance | pc |
82 | e(b-v) | float | Applied Color Excess | mag |
83 | e_e(b-v) | float | Uncertainty in Applied Color Excess | mag |
84 | numcont | long | Number of Contamination Sources | |
85 | contratio | float | Contamination Ratio | |
86 | disposition | string | Disposition type | |
87 | dup_id | long | Points to the duplicate object TIC ID | |
88 | priority | double | CTL priority |
The following columns have been added to the public release of TICv8 on MAST
Column Number | Column Name | Data Type | Description | Units |
89 | eneg_EBV | float | Negative error for EBV | mag |
90 | epos_EBV | float | Positive error for EBV | mag |
91 | EBVFlag | string | Source of EBV | |
92 | eneg_Mass | float | Negative error for Mass | solar |
93 | epos_Mass | float | Positive error for Mass | solar |
94 | eneg_Rad | float | Negative error for Radius | solar |
95 | epos_Rad | float | Positive error for Radius | solar |
96 | eneg_rho | float | Negative error for Density | solar |
97 | epos_rho | float | Positive error for Density | solar |
98 | eneg_logg | float | Negative error for Surface Gravity | cgs |
99 | epos_logg | float | Positive error for Surface Gravity | cgs |
100 | eneg_lum | float | Negative error for Luminosity | solar |
101 | epos_lum | float | Positive error for Luminosity | solar |
102 | eneg_dist | float | Negative Error for Distance | pc |
103 | epos_dist | float | Positive Error for Distance | pc |
104 | distFlag | string | Source of distance | |
105 | eneg_Teff | float | Negative error for effective temperature | K |
106 | epos_Teff | float | Positive error for effective temperature | K |
107 | TeffFlag | string | Source of effective Temperature | |
108 | gaiabp | float | Gaia Bp magnitude | mag |
109 | e_gaiabp | float | Error in Gaia Bp magnitude | mag |
110 | gaiarp | float | Gaia Rp magnitude | mag |
111 | e_gaiarp | float | Error in Gaia Rp magnitude | mag |
112 | gaiaqflag | int | Quality of Gaia information | |
113 | starchareFlag | float | Error of asymmetric errors | |
114 | VmagFlag | float | Source of V magnitude | |
115 | BmagFlag | float | Source of B magnitude | |
116 | splists | string | Identifies if star is in a specially curated list. | |
117 | e_RA | double | Error in RA | deg |
118 | e_Dec | double | Error in Dec | deg |
119 | RA_orig | double | RA from original catalog | deg |
120 | Dec_orig | double | Dec from original catalog | deg |
121 | e_RA_orig | double | Ra error as given in original catalog | deg |
122 | e_Dec_orig | double | Dec error as given in original catalog | deg |
123 | raddflag | int | 1 - dwarf by radius, 0 - giant by radius | |
124 | wdflag | int | 1 - star in Gaias photometric ”White Dwarf region” |