Well the good news is that Proxima has at least one terrestrial planet in its habitable zone, and that planet has a mass of between 1.1 and 1.2 times Earth's mass. It's commonly referred to as Proxima b.

Now the bad news. Yeah Proxima b is in Proxima's habitable zone. But that tells us almost nothing because both Venus and Mars are also considered inside the Sun's habitable zone, albeit at the edges.

On the other hand, just Proxima being a red dwarf poses a lot of unexpected problems for the development of life on Proxima b. Red dwarfs output tiny amounts of heat compared to sun-like stars, so their habitable zone is much closer in proportionately. It's actually kind of impressive: Proxima b orbits Proxima at 1/10th the distance Mercury orbits the Sun. This means Proxima looks absolutely huge from its habitable zone, much, much larger than the sun looks from Earth.

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That's crazy considering Proxima's diameter is really only 14% of the Sun's.

At these short distances, tidal effects become huge, and they continuously help bleed angular momentum from the planet until the system reaches equilibrium where the planet is tidally locked to the star. And this process happens fast after formation, within a few million years tops. So Proxima b almost certainly has no day/night cycle. The lit side will be scorched, and the dark side will be frozen. The only suitable area for the development of life would be a thin strip around the planet on the day/night terminator that appears frozen in time.

Another problem with red dwarf stars is that they are somewhat surprisingly extremely, violently active in comparison to sun-like stars. Sometimes the things spontaneously decrease in brightness by 50 percent for months on end, sometimes they become twice as bright as they should be in a matter of minutes. They throw off these massive, dangerous flares and coronal mass ejections far more often than the Sun does, causing planetary magnetospheres to deflect and thereby enable atmosphere loss as charged particles from the stellar wind sand blast the shit out of a planet's unprotected upper atmosphere. And since the distances are so small, there is a much higher chance you get directly hit by such an event.

Unfortunately we probably won't be finding out whether any of this is truly the case for Proxima b any time soon because we don't have instruments capable of gathering any more data from the planet. Usually astronomers use spectroscopy to determine an exoplanet's atmospheric composition. It relies on comparing the star's natural light to that same light after it passes through a planet's atmosphere. Some wavelengths will be missing, and those tell you what chemicals and elements must've been present. Unfortunately that only works if the planet passes in front of its host star from our perspective, and Proxima b's orbit doesn't allow for that. So I'm not sure if pursuing this planet any further would be worthwhile, unfortunately