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tau Cet planetary system

tau Cet is a Sun-like main-sequence star of spectral type G8.5V approximately 11.8 light-years from Earth (3.60 parsecs). It hosts 4 confirmed exoplanets.

Host star

Name: tau Cet
Spectral type: G8.5V
Effective temperature: 5,310 K
Mass: 0.78 M☉ (solar masses)
Radius: 0.83 R☉ (solar radii)
Distance: 3.60 pc (11.8 ly)
Hipparcos catalog: HIP 8102

Confirmed planets (4)

Planet	Class	Mass (M⊕)	Radius (R⊕)	Period (d)	Distance (AU)	Eq. temp (K)	Discovered
tau Cet g	Earth-sized	1.75	1.18	20.00	0.1330	—	2017
tau Cet h	Earth-sized	1.83	1.19	49.41	0.2430	—	2017
tau Cet e	Super-Earth	3.93	1.81	162.87	0.5380	—	2017
tau Cet f	Super-Earth	3.93	1.81	636.13	1.3340	—	2017

The planets in detail

tau Cet g is an Earth-sized world with about 1.18 Earth radii and 1.75 Earth masses. It orbits tau Cet at 0.1330 AU with a 20.0-day year, and no published equilibrium temperature. It was confirmed in 2017 via radial velocity (Doppler) measurements.

tau Cet h is an Earth-sized world with about 1.19 Earth radii and 1.83 Earth masses. It orbits tau Cet at 0.2430 AU with a 49.4-day year, and no published equilibrium temperature. Its orbit is notably eccentric (e = 0.23), meaning the distance to its star — and the irradiation it receives — varies substantially over each year. It was confirmed in 2017 via radial velocity (Doppler) measurements.

tau Cet e is a Super-Earth with about 1.81 Earth radii and 3.93 Earth masses. It orbits tau Cet at 0.5380 AU with a 163-day year, and no published equilibrium temperature. It was confirmed in 2017 via radial velocity (Doppler) measurements.

tau Cet f is a Super-Earth with about 1.81 Earth radii and 3.93 Earth masses. It orbits tau Cet at 1.3340 AU with a 636-day year, and no published equilibrium temperature. It was confirmed in 2017 via radial velocity (Doppler) measurements.

Discovery

All 4 planets in the tau Cet system were detected in 2017 using radial velocity (Doppler) measurements. Detection facilities: Multiple Observatories.

Observing from Earth

Exoplanets cannot be resolved visually with amateur telescopes — the host star's glare is overwhelming and even space-based direct imaging requires sophisticated coronagraphs. What you can observe is the host star itself at right ascension 26.0093°, declination -15.9338°. Use the 3D orrery above to inspect orbital geometry, planetary scale, and the habitable-zone overlay — the orbits are computed from the published Keplerian elements and animate at user-controlled time rates.