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Stellar HostProfile

rho CrB

G0 V • 17.47 pc

Records

35

literature rows

Planets

3

system count

References

20

distinct source labels

TIC: TIC 458494003HIP: HIP 78459HD: HD 143761

Approximate color

from effective temperature

Canonical Summary

Adopted host values from all rows

Numeric fields use the median of non-null measurements. Disagreement stays visible through ranges, counts, and provenance.

Temperature

5814.5 K

5627 to 5852.5

10 values • 9 distinct

Mass

0.96 Msun

0.89 to 1.05

10 values • 8 distinct

Radius

1.35 Rsun

1.31 to 1.36

9 values • 7 distinct

Age

11.04 Gyr

10 to 12.90

5 values • 4 distinct

Luminosity

0.26 log(Lsun)

0.23 to 0.27

6 values • 6 distinct

Distance

17.47 pc

single adopted value

35 values • 1 distinct

Spectral Type

G0 V

Multiple classifications reported

G0 V (3), F8 (1), G0 (1), G2V (1)

Planets

3

Stable across source rows

3

Scale Comparison

Radius against the Sun

Current adopted radius: 1.35 R☉ • circles scaled linearly by radius

Sun

1.0 R☉ baseline

rho CrB

1.35 R☉

System Layout

Known planets

3 planets linked to this host

rho CrB b

Radial Velocity

Discovery

1997

Period

39.65 days

Radius

Mass

349.6 M⊕

Eq. Temp

rho CrB e

Radial Velocity

Discovery

2023

Period

12.90 days

Radius

Mass

3.71 M⊕

Eq. Temp

rho CrB c

Radial Velocity

Discovery

2016

Period

102.6 days

Radius

Mass

28.13 M⊕

Eq. Temp

Provenance

Underlying measurements and references

Evidence Summary

Rows

35

Stellar refs

19

System refs

1

Distancestable

35 values • 1 distinct

Parallaxstable

35 values • 1 distinct

Temperaturedisputed

10 values • 9 distinct

Massdisputed

10 values • 8 distinct

Radiusdisputed

9 values • 7 distinct

Agedisputed

5 values • 4 distinct

Luminositydisputed

6 values • 6 distinct

Surface Gravitydisputed

7 values • 6 distinct

Metallicitydisputed

8 values • 7 distinct

Spectral Typedisputed

6 values • 4 distinct

ST TEFFST MASSST RADST AGEST LUMST SPECTYPESY DISTStellar RefSystem Ref
58331.051.320.2617.47TICv8TICv8
58350.9517.47Santos et al. 2003TICv8
5770.30.911.3617.47Rosenthal et al. 2021TICv8
58170.951.3410.200.2617.47Brewer et al. 2023TICv8
17.47Nidever et al. 2002TICv8
17.47Wright et al. 2004TICv8
17.47Duncan et al. 1991TICv8
1G017.47Zhao et al. 2026TICv8
17.47Valenti & Fischer 2005TICv8
17.47Duncan et al. 1991TICv8
17.47Nordstrom et al. 2004TICv8
17.47Duncan et al. 1991TICv8
56270.891.360.23G0 V17.47Fulton et al. 2016TICv8
0.961.3511.0417.47Takeda et al. 2007TICv8
17.47Duncan et al. 1991TICv8
17.47Duncan et al. 1991TICv8
17.47Duncan et al. 1991TICv8
577711.311017.47Noyes et al. 1997TICv8
17.47Duncan et al. 1991TICv8
17.47Duncan et al. 1991TICv8
17.47Duncan et al. 1991TICv8
F817.47Cannon & Pickering 1918TICv8
17.47Duncan et al. 1991TICv8
17.47Duncan et al. 1991TICv8
17.47Duncan et al. 1991TICv8
G0 V17.47Gray et al. 2003TICv8
58230.971.3511.040.26G2V17.47Turnbull 2015TICv8
17.47Duncan et al. 1991TICv8
17.47Duncan et al. 1991TICv8
56270.911.3612.900.23G0 V17.47von Braun et al. 2014TICv8
17.47Duncan et al. 1991TICv8
5852.51.330.2717.47Gaia DR2TICv8
17.47Duncan et al. 1991TICv8
17.47Duncan et al. 1991TICv8
581217.47Harada et al. 2025TICv8