This artist's concept animation shows the orbital
dynamics of KOI-134 system which, in 2025, a paper revealed to have two
planets: KOI-134 b and KOI-134 c.
NASA/JPL-Caltech/K. Miller (Caltech/IPAC)
The Planets
KOI-134 b and KOI-134 c
This artist's concept shows the KOI-134 system which,
in 2025, a paper revealed to have two planets: KOI-134 b and KOI-134 c.
NASA/JPL-Caltech/K. Miller (Caltech/IPAC)
The Discovery
A new investigation into old Kepler
data has revealed that a planetary system once thought to house zero planets
actually has two planets which orbit their star in a unique style, like an
old-fashioned merry-go-round.
Key Facts
The KOI-134 system contains two
planets which orbit their star in a peculiar fashion on two different orbital
planes, with one planet exhibiting significant variation in transit times. This
is the first-discovered system of its kind.
Details
Over a decade ago, scientists used
NASA's Kepler Space Telescope to observe the KOI-134 system and thought that it
might have a planet orbiting, but they deemed this planet candidate to be a
false positive, because its transits (or passes in front of its star) were not
lining up as expected. These transits were so abnormal that the planet was
actually weeded out through an automated system as a false positive before it
could be analyzed further.
However, NASA’s commitment to
openly sharing scientific data means that researchers can constantly revisit
old observations to make new discoveries. In this new study, researchers
re-analyzed this Kepler data on KOI-134 and confirmed that not only is the
"false positive" actually a real planet, but the system has two planets
and some really interesting orbital dynamics!
First, the "false
positive" planet, named KOI-134 b, was confirmed to be a warm Jupiter (or
a warm planet of a similar size to Jupiter). Through this analysis, researchers
uncovered that the reason this planet eluded confirmation previously is because
it experiences what are called transit timing variations (TTVs), or small
differences in a planet's transit across its star that can make its transit
"early" or "late" because the planet is being pushed or
pulled by the gravity from another planet which was also revealed in this
study. Researchers estimate that KOI-134 b transits across its star as much as
20 hours "late" or "early," which is a significant
variation. In fact, it was so significant that it's the reason why the planet
wasn't confirmed in initial observations.
As these TTVs are caused by the
gravitational interaction with another planet, this discovery also revealed a
planetary sibling: KOI-134 c. Through studying this system in simulations that
include these TTVs, the team found that KOI-134 c is a planet slightly smaller
than Saturn and closer to its star than KOI-134 b.
This artist's concept shows the KOI-134 system which,
in 2025, a paper revealed to have two planets: KOI-134 b and KOI-134 c.
NASA/JPL-Caltech/K. Miller (Caltech/IPAC)
KOI-134 c previously eluded observation because it orbits on a tilted
orbital plane, a different plane from KOI-134 b, and this tilted orbit prevents
the planet from transiting its star. The two orbital planes of these planets
are about 15 degrees different from one another, also known as a mutual
inclination of 15 degrees, which is significant. Due to the gravitational push
and pull between these two planets, their orbital planes also tilt back and
forth.
Another interesting feature of this
planetary system is something called resonance. These two planets have a 2 to 1
resonance, meaning within the same time that one planet completes one orbit,
the other completes two orbits. In this case, KOI-134 b has an orbital period
(the time it takes a planet to complete one orbit) of about 67 days, which is
twice the orbital period of KOI-134 c, which orbits every 33-34 days.
Between the separate orbital planes
tilting back and forth, the TTVs, and the resonance, the two planets orbit
their star in a pattern that resembles two wooden ponies bobbing up and down as
they circle around on an old-fashioned merry go round.
Fun Facts
While this system started as a
false positive with Kepler, this re-analysis of the data reveals a vibrant
system with two planets. In fact, this is the first-ever discovered compact,
multiplanetary system that isn't flat, has such a significant TTV, and experiences
orbital planes tilting back and forth.
Also, most planetary systems do not
have high mutual inclinations between close planet pairs. In addition to being
a rarity, mutual inclinations like this are also not often measured because of
challenges within the observation process. So, having measurements like this of
a significant mutual inclination in a system, as well as measurements of
resonance and TTVs, provides a clear picture of dynamics within a planetary
system which we are not always able to see.
The Discoverers
A team of scientists led by Emma Nabbie of the University of Southern Queensland published a paper on June 27 on their discovery, "A high mutual inclination system around KOI-134 revealed by transit timing variations," in the journal "Nature Astronomy." The observations described in this paper and used in simulations in this paper were made by NASA's Kepler Space Telescope and the paper included collaboration and contributions from institutions including the University of Geneva, University of La Laguna, Purple Mountain Observatory, the Harvard-Smithsonian Center for Astrophysics, the Georgia Institute of Technology, the University of Southern Queensland, and NASA’s retired Kepler Space Telescope.
Source: Discovery Alert: Scientists Spot a Planetary Carousel - NASA Science
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