The story about the GJ 876 goes on as the extensive observations of this system led to a discovery of a Uranus-mass SHP099 purchase fourth planetary companion (Rivera et al. 2010). The new planet is in Laplace resonance with the giant planets b and c, and the system marks the first example of a three-body resonance among extrasolar planets. The resonances 2:1 (involving planets e and c) and 4:1 (involving planets e and b) are not so strong as the resonance 2:1 between planets b and c, but they are necessary for a long term stability of the system. This statement is based on the existing observational data. The situation may change when new data will be available. In the context of the newly suggested Laplace resonance
(Rivera et al. 2010), it is worth mentioning a new mechanism for stopping the inward migration of a low-mass planet embedded in a gaseous protoplanetary disc found by Podlewska-Gaca
et al. (2012). The mechanism operates when a low-mass planet encounters outgoing density waves excited by another source in the disc. This source could be a gas giant in an orbit interior to that of the low-mass planet. As the low mass planet passes through the wave field, angular momentum is transferred first to the disc matter and then communicated back to the planet through co-orbital dynamics. The consequence of this interchange of angular momentum is that the inward migration of the affected planet can be halted or even reversed.
It has been found in GDC-0449 supplier this way that a planet with mass in the super-Earth range cannot approach a Jupiter-mass planet close enough in order to form first- order mean-motion resonances with it. In fact, the migration was found to halt when the semi-major axis was ranging between 1.6 PD184352 (CI-1040) and 2.0 times that of the giant. Only when the low-mass planet exceeded 40 m ⊕ it was able to attain a 2:1 commensurability. For that reason, the formation of the 2:1 commensurability in GJ 876 between planets e and c through planet interaction with the gaseous disc alone would be problematic. This may indicate that the migration induced by planetesimals after the clearance of the gas disc may have been significant in the formation of GJ 876. Low-Mass Planets in Laminar Discs Low mass planets can undergo JAK inhibitor convergent migration too and form in this way a resonant structure (Papaloizou and Szuszkiewicz 2005). The pulsar planets around PSR B1257+12 might be an outcome of such scenario. Papaloizou and Szuszkiewicz (2005) performed an analytic and numerical study of the formation of first order commensurabilities in a system of two planets in the earth mass range migrating in a laminar disc. In Papaloizou and Szuszkiewicz (2010) the authors have extended their study to a larger range of migration rates and commensurabilities and compared the numerical work to the conditions for particular commensurabilities to form derived analytically.