The first satellites of a Chinese broadband constellation are significantly brighter than those of Western systems, posing a new challenge for astronomers.
Observed magnitudes of Qianfan spacecraft range from 4 when they are near zenith to 8 when low in the sky.
Since this is the first run of the Qianfan satellite constellation, the most appropriate comparison would be to Starlink's original satellites. As you can see below, the notion that China's satellites are "significantly brighter than those of Western systems" is a inaccurate.
The Original spacecrafts have a relatively flat phase function, so they are comparatively bright over a wide range of phase angle. [...] the characteristic magnitudes are: 4.7 (Original) [...]
The mean apparent magnitude of Starlink Mini Direct-To-Cell (DTC) satellites is 4.62 while the mean of magnitudes adjusted to a uniform distance of 1000 km is 5.50.
Clearly, even the newest Starlink satellites are well above the magnitude 7 limit astronomers recommend for satellite brightness.
The primary source of the linked article: https://arxiv.org/abs/2409.20432
Since this is the first run of the Qianfan satellite constellation, the most appropriate comparison would be to Starlink's original satellites. As you can see below, the notion that China's satellites are "significantly brighter than those of Western systems" is a inaccurate.
A 2022 paper on Starlink Original, VisorSat and Post-VisorSat models: https://arxiv.org/pdf/2210.17268
A 2024 paper on Starlink newer Direct-to-Cell satellites: https://arxiv.org/abs/2407.03092
Clearly, even the newest Starlink satellites are well above the magnitude 7 limit astronomers recommend for satellite brightness.