JWST highlighted an excess of UV-bright galaxies at z>10, with a derived UVLF that exhibits a softer evolution than expected. In this work, we aim at characterizing the burstiness level of high-redshift galaxy SFHs and its evolution. We implement a stochastic SFH module in CIGALE using power spectrum densities, to estimate the burstiness level of star formation in galaxies at 66 galaxies, while smoother assumptions introduce biases when applied to galaxies with bursty star-formation activity. The assumed stochasticity level of the SFH also affects the constraints on galaxies' physical properties, including the main sequence. Successively assuming different levels of burstiness, we determined the best-suited SFH for each 6 8.8), the fraction of bursty galaxies increases from 0.42+/-0.08 to 0.76+/-0.20 from z=6 to 12, respectively. At all redshifts, only 10. Our results add further evidence that a combination with other mechanisms is likely responsible for the high-z UVLF.
Carvajal-Bohorquez et al. (Thu,) studied this question.