Add to ORKGIn star-forming regions in our own Galaxy, the 14N/15N ratio is found to vary from ~100 in meteorites, comets, and protoplanetary discs up to ~1000 in pre-stellar and star-forming cores, while in external galaxies the very few single-dish large-scale measurements of this ratio lead to values of 100-450. The extent of the contribution of isotopic fractionation to these variations is, to date, unknown. In this paper, we present a theoretical chemical study of nitrogen fractionation in external galaxies in order to determine the physical conditions that may lead to a spread of the 14N/15N ratio from the solar value of ~440 and hence evaluate the contribution of chemical reactions in the interstellar medium (ISM) to nitrogen fractionation. We f...
A central issue for understanding the formation and evolution of matter in the early Solar System is...
Primitive materials provide important clues on the processes that occurred during the formation and ...
International audienceThe line intensities of the fundamental rotational transitions of H13CN and HC...
In star-forming regions in our own Galaxy, the 14N/15N ratio is found to vary from ~100 in meteorite...
The fractionation of nitrogen (N) in star-forming regions is a poorly understood process. To put mor...
One of the most important tools to investigate the chemical history of our Galaxy and our own Solar ...
Nitrogen isotopic ratios are a key tool for tracing Galactic stellar nucleosynthesis. We present the...
International audienceNitrogen-bearing molecules display variable isotopic fractionation levels in d...
We have measured the 14N/15N ratio in a sample of 27 high-mass star forming cores, from observations...
Context. The ^(15)N isotopologue abundance ratio measured today in different bodies of the solar sys...
Context. Isotopologue abundance ratios are important to understand the evolution of astrophysical ob...
We report on the first measurements of the isotopic ratio 14N/15N in N2H+ toward a statistically sig...
Using the Green Bank Telescope, we have obtained accurate measurements of the ^(14)N/^(15)N isotopic...
Aims. The two stable isotopes of nitrogen, 14N and 15N, exhibit a range of abundance ratios both ins...
International audienceIsotopic ratios are keys to understanding the origin and early evolution of th...
A central issue for understanding the formation and evolution of matter in the early Solar System is...
Primitive materials provide important clues on the processes that occurred during the formation and ...
International audienceThe line intensities of the fundamental rotational transitions of H13CN and HC...
In star-forming regions in our own Galaxy, the 14N/15N ratio is found to vary from ~100 in meteorite...
The fractionation of nitrogen (N) in star-forming regions is a poorly understood process. To put mor...
One of the most important tools to investigate the chemical history of our Galaxy and our own Solar ...
Nitrogen isotopic ratios are a key tool for tracing Galactic stellar nucleosynthesis. We present the...
International audienceNitrogen-bearing molecules display variable isotopic fractionation levels in d...
We have measured the 14N/15N ratio in a sample of 27 high-mass star forming cores, from observations...
Context. The ^(15)N isotopologue abundance ratio measured today in different bodies of the solar sys...
Context. Isotopologue abundance ratios are important to understand the evolution of astrophysical ob...
We report on the first measurements of the isotopic ratio 14N/15N in N2H+ toward a statistically sig...
Using the Green Bank Telescope, we have obtained accurate measurements of the ^(14)N/^(15)N isotopic...
Aims. The two stable isotopes of nitrogen, 14N and 15N, exhibit a range of abundance ratios both ins...
International audienceIsotopic ratios are keys to understanding the origin and early evolution of th...
A central issue for understanding the formation and evolution of matter in the early Solar System is...
Primitive materials provide important clues on the processes that occurred during the formation and ...
International audienceThe line intensities of the fundamental rotational transitions of H13CN and HC...