International audienceMeasurements of the nitrogen isotopic ratio in Solar System comets show a constant value, ≈140, which is three times lower than the protosolar ratio, a highly significant difference that remains unexplained. Observations of static starless cores at early stages of collapse confirm the theoretical expectation that nitrogen fractionation in interstellar conditions is marginal for most species. Yet, observed isotopic ratios in N2H+ are at variance with model predictions. These gaps in our understanding of how the isotopic reservoirs of nitrogen evolve, from interstellar clouds to comets, and, more generally, to protosolar nebulae, may have their origin in missing processes or misconceptions in the chemistry of interstella...
International audienceThe ratio between the two stable isotopes of nitrogen, 14N and 15N, is well me...
A central issue for understanding the formation and evolution of matter in the early Solar System is...
Isotopic ratios in cometary molecules are diagnostic for the physico-chemical conditions where molec...
International audienceMeasurements of the nitrogen isotopic ratio in Solar System comets show a cons...
Context. Observations of the nitrogen isotopic ratio 14N/15N in the interstellar medium are becoming...
International audienceWe investigated the chemistry of nitrogen--containing species, principally iso...
Context. Isotopologue abundance ratios are important to understand the evolution of astrophysical ob...
International audienceNitrogen-bearing molecules display variable isotopic fractionation levels in d...
Context. The 15N isotopologue abundance ratio measured today in different bodies of the solar system...
Nitrogen-bearing molecules in cold molecular clouds exhibit a range of isotopic fractionation ratios...
We describe a mechanism for enhanced nitrogen isotope fractionation in dense molecular gas where mos...
Aims.We have studied the chemistry of nitrogen-bearing species during the initial stages of protoste...
International audienceThe ratio between the two stable isotopes of nitrogen, 14N and 15N, is well me...
A central issue for understanding the formation and evolution of matter in the early Solar System is...
Isotopic ratios in cometary molecules are diagnostic for the physico-chemical conditions where molec...
International audienceMeasurements of the nitrogen isotopic ratio in Solar System comets show a cons...
Context. Observations of the nitrogen isotopic ratio 14N/15N in the interstellar medium are becoming...
International audienceWe investigated the chemistry of nitrogen--containing species, principally iso...
Context. Isotopologue abundance ratios are important to understand the evolution of astrophysical ob...
International audienceNitrogen-bearing molecules display variable isotopic fractionation levels in d...
Context. The 15N isotopologue abundance ratio measured today in different bodies of the solar system...
Nitrogen-bearing molecules in cold molecular clouds exhibit a range of isotopic fractionation ratios...
We describe a mechanism for enhanced nitrogen isotope fractionation in dense molecular gas where mos...
Aims.We have studied the chemistry of nitrogen-bearing species during the initial stages of protoste...
International audienceThe ratio between the two stable isotopes of nitrogen, 14N and 15N, is well me...
A central issue for understanding the formation and evolution of matter in the early Solar System is...
Isotopic ratios in cometary molecules are diagnostic for the physico-chemical conditions where molec...