Table 4
Prior probability distributions of the fitted parameters.
| Parameter | TOI-1442 | TOI-2445 | |
|---|---|---|---|
| Transit | p | 𝒰(0,1) | 𝒰(0, 1) |
| P (d) (a) | 𝒩 (0.409072, 0.000011) | 𝒩(0.371133, 0.000047) | |
| T0 (BT JD) (a) | 𝒩 (1683.45058, 0.00085) | 𝒩(1411.21732, 0.00188) | |
| ρ* (ρ⊙) | 𝒩 (9.50, 1.27) | 𝒩(12.45, 1.67) | |
| T14 (h) (a) | 𝒰(0.169, 1.036) | 𝒰(0, 1.289) | |
| Contamination | T*,eff (K) (b) | 3304 | 3306 |
| log g* (dex) (c) | 4.91 | 4.96 | |
| Tc,eff (K) | 𝒰(2300, 12000) | 𝒰(2300, 12000) | |
| log gc (dex) | 𝒰(2.0, 5.5) | 𝒰(2.0, 5.5) | |
| fc (d) | 𝒰(−1, 1000) | 𝒰(−1, 1000) | |
| βTESS | 𝒰(−0.2, 0.99) | 𝒰(-0.2, 0.99) | |
| LDCs (e) | q1,TESS | 𝒩(0.038667, 0.1) × 𝒰(0, 1) | 𝒩(0.038237,0.1) ×𝒰(0,1) |
| q2,TESS | 𝒩(0.005047, 0.1) ×𝒰(0, 1) | 𝒩(0.00067,0.1) ×𝒰(0,1) | |
| q1,g | 𝒩(0.104994,0.1) ×𝒰(0, 1) | 𝒩(0.104916,0.1) ×𝒰(0,1) | |
| q2,g | 𝒩(0.0,0.1) ×𝒰(0, 1) | 𝒩(0.0,0.1) ×𝒰(0,1) | |
| q1,r | 𝒩(0.126307,0.1) ×𝒰(0,1) | 𝒩(0.123358,0.1) ×𝒰(0,1) | |
| q1,r | 𝒩(0.102417,0.1) ×𝒰(0,1) | 𝒩(0.092309,0.1) ×𝒰(0,1) | |
| q1,i | 𝒩(0.047087,0.1) × 𝒰(0,1) | 𝒩(0.047093,0.1) ×𝒰(0,1) | |
| q2,i | 𝒩(0.0,0.1) ×𝒰(0,1) | 𝒩(0.0,0.1) ×𝒰(0,1) | |
 |
𝒩(0.031820,0.1) ×𝒰(0,1) | 𝒩(0.031817,0.1) ×𝒰(0,1) | |
 |
𝒩(0.0,0.1) ×𝒰(0,1) | 𝒩(0.0,0.1) ×𝒰(0,1) | |
| q1,I | 𝒩(0.028676,0.1) × 𝒰(0,1) | 𝒩(0.028667,0.1) ×𝒰(0,1) | |
| q2,I | 𝒩(0.0,0.1) ×𝒰(0,1) | 𝒩(0.0,0.1) ×𝒰(0,1) | |
| q1,I+z | – | 𝒩(0.022097,0.1) ×𝒰(0,1) | |
| q2,I+z | – | 𝒩(0.0,0.1) ×𝒰(0,1) | |
| Baseline | log10 σGP | 𝒰(−10,6) | 𝒰(−10, 6) |
| log10 ρGP | 𝒰(−10,6) | 𝒰(−10, 6) | |
| NTESS (f) | 𝒰(1000, 2000) | 𝒰(400, 1400) | |
| Nground (f) | 𝒰(0.5, 1.5) | 𝒰(0.5, 1.5) | |
| X1, X2 (g) | 𝒰(−1, 1) | 𝒰(−1, 1) | |
Notes. 𝒰(a, b) denotes a uniform prior delimited by a and b; 𝒩(μ, σ) denotes a normal prior with μ mean and σ width. (a) Centred on the ExoFOP values as of 2021 November 30. For the normal distributions, the prior σ equals three times the nominal error bars. For the uniform distributions, the whole interval equals six times the nominal error bars.(b) Arithmetic average between spectral synthesis and SED fitting estimates from Tables 2 and 3. (c)Obtained with empirical relations from Tables 2 and 3. (d)Negative contamination values are allowed to avoid bouncing effect at the physical boundary of zero contaminants; they could also be caused by systematic offsets. (e)Some ground-based detectors share the same LDCs if they have the same passband (see Table 1).(f)Normalisation factors (i.e. multiplicative factors for the contamination transit models). A factor is fitted for each TESS sector and for each ground-based observation. (g) Coefficients of the linear detrending models for ground-based observation, using up to two auxiliary parameters (see Table 1).
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