TEPCat: HIP 41378f


 

This page summarises the information held within TEPCat for the transiting planetary system HIP 41378f. Please see here for descriptions of the quantities given below.

 

Discovery and basic observable quantities:
 
Quantity Value Unit
Reference of discovery paper 2025A+A...701A.173G  
Date of discovery paper 2025 / 7 / 3 y / m / d
Data/telescope used for discovery K2  
Right ascension 08 26 27.85 h m s
Declination +10 04 49.4 d m s
Right ascension (decimal) 126.61604 degrees
Declination (decimal) 10.08039 degrees
V-band apparent magnitude 8.93 mag
K-band apparent magnitude 7.72 mag
Transit duration 0.787
( 18.89 )
day
hour
Transit depth 0.4 %
Time of mid-transit   2457186.9140 ± 0.0002     HJD or BJD
Orbital period 542.0797 ± 0.0001 days
Reference for orbital ephemeris   2026A+A...710A.275G  

 

Physical properties from the most recent detailed study:
 
Quantity Value Unit
Stellar effective temperature 6290 ± 77 K
Stellar metal abundance ([Fe/H] or [M/H])   −0.05 ± 0.10 dex
Stellar mass 1.22 +0.03 −0.02   Msun
Stellar radius 1.300 ± 0.009 Rsun
Stellar logarithmic surface gravity 4.298 ± 0.004 c.g.s.
Stellar mean density 0.557 ± 0.006
( 0.7859 ± 0.0085 )
ρsun
g cm-3
Orbital eccentricity 0.052 +0.025 −0.052  
Orbital semimajor axis     AU
Planetary mass 0.079 ± 0.016
( 25.1 ± 5.1 )
Mjup
Mearth
Planetary radius 0.8449 ± 0.0062
( 9.470 ± 0.069 )
Rjup
Rearth
Planetary surface gravity m/s2
log(cgs)
Planetary mean density 0.121 +0.023 −0.030
( 0.161 +0.031 −0.040 )
ρjup
g cm-3
Planetary equilibrium temperature K
Reference of detailed study 2026A+A...710A.275G  

 

Entries in the catalogue of orbital obliquity measurements:
 
Reference λ (degrees)
Grouffal et al. (2025)   21   ±   8  

 

 


Page generated on 2026/07/02           John Southworth   (Keele University, UK)