An Analysis of Spitzer Phase Curves for WASP-121b and WASP-77Ab
Abstract
We present analyses of Spitzer InfraRed Array Camera (IRAC) 3.6 μm and 4.5 μm phase curve observations of hot Jupiters WASP-77Ab and WASP-121b. For WASP-121b, we find amplitudes of 1771 95 ppm (3.6 μm) and 2048 109 ppm (4.5 μm), and near-zero offsets of -0.78 1.87 (3.6 μm) and 0.42 1.74 (4.5 μm), consistent within 2.2σ and 1.3σ, respectively, with JWST NIRSpec results. For WASP-77Ab, we find amplitudes of 535 52 ppm (3.6 μm) and 919 40 ppm (4.5 μm), and offsets of 33.45 2.79 (3.6 μm) and 16.28 2.52 (4.5 μm). We report day- and nightside brightness temperatures: for WASP-121b, 2779 40 K (3.6 μm) and 2905 51 K (4.5 μm) (day) and 1259 67 K (3.6 μm) and 1349 54 K (4.5 μm) (night), and for WASP-77Ab, 1876 23 K (3.6 μm) and 1780 25 K (day) and 1501 22 K (3.6 μm) and 1234 20 K (4.5 μm) (night). Comparing WASP-121b data to general circulation models, we find evidence for drag inhibiting day-to-night heat transfer, which our model reproduces using magnetic circulation. Further, comparing both planets' data to Energy Balance Models, we show suppressed circulation in WASP-121b and potential evidence for an unusually high Bond albedo in WASP-77Ab. We add both planets to the Spitzer population study of previously identified trends in offset versus orbital period, finding that a positive trend is weakened, but not eliminated, by including these planets.
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