International audienceContext. Interstellar dust grain particles are immersed in vacuum ultraviolet (VUV) and cosmic ray radiation environments influencing their physicochemical composition. Owing to the energetic ionizing interactions, carbonaceous dust particles release fragments that have direct impact on the gas phase chemistry. Aims. The exposure of carbonaceous dust analogues to cosmic rays is simulated in the laboratory by irradiating films of hydrogenated amorphous carbon interstellar analogues with energetic ions. New species formed and released into the gas phase are explored. Methods. Thin carbonaceous interstellar dust analogues were irradiated with gold (950 MeV), xenon (630 MeV), and carbon (43 MeV) ions at the GSI UNILAC acce...
texttexttexttexttexttexttexttexttexttexttextAuthor Institution: Space Science Division, NASA-Ames Re...
texttexttexttexttexttexttexttexttexttexttextAuthor Institution: Space Science Division, NASA-Ames Re...
Hydrogenated amorphous carbons, an important component of the interstellar carbonaceous du...
International audienceContext. Interstellar dust grain particles are immersed in vacuum ultraviolet ...
International audienceContext. Interstellar dust grain particles are immersed in vacuum ultraviolet ...
Context. Interstellar dust grain particles are immersed in vacuum ultraviolet (VUV) and cosmic ray r...
Context. Interstellar dust grain particles are immersed in vacuum ultraviolet (VUV) and cosmic ray r...
Context. Interstellar dust grain particles are immersed in vacuum ultraviolet (VUV) and cosmic ray r...
Context. Interstellar dust grain particles are immersed in vacuum ultraviolet (VUV) and cosmic ray r...
International audienceContext. Top-down chemistry is believed to be responsible for the formation of...
International audienceContext. Top-down chemistry is believed to be responsible for the formation of...
Carbonaceous compounds, both solids and gas-phase molecules, are found in very diverse astronomical ...
Context. Top-down chemistry is believed to be responsible for the formation of the large molecular c...
Context. Top-down chemistry is believed to be responsible for the formation of the large molecular c...
Abstract. Hydrogenated amorphous carbons, an important component of the interstellar carbonaceous du...
texttexttexttexttexttexttexttexttexttexttextAuthor Institution: Space Science Division, NASA-Ames Re...
texttexttexttexttexttexttexttexttexttexttextAuthor Institution: Space Science Division, NASA-Ames Re...
Hydrogenated amorphous carbons, an important component of the interstellar carbonaceous du...
International audienceContext. Interstellar dust grain particles are immersed in vacuum ultraviolet ...
International audienceContext. Interstellar dust grain particles are immersed in vacuum ultraviolet ...
Context. Interstellar dust grain particles are immersed in vacuum ultraviolet (VUV) and cosmic ray r...
Context. Interstellar dust grain particles are immersed in vacuum ultraviolet (VUV) and cosmic ray r...
Context. Interstellar dust grain particles are immersed in vacuum ultraviolet (VUV) and cosmic ray r...
Context. Interstellar dust grain particles are immersed in vacuum ultraviolet (VUV) and cosmic ray r...
International audienceContext. Top-down chemistry is believed to be responsible for the formation of...
International audienceContext. Top-down chemistry is believed to be responsible for the formation of...
Carbonaceous compounds, both solids and gas-phase molecules, are found in very diverse astronomical ...
Context. Top-down chemistry is believed to be responsible for the formation of the large molecular c...
Context. Top-down chemistry is believed to be responsible for the formation of the large molecular c...
Abstract. Hydrogenated amorphous carbons, an important component of the interstellar carbonaceous du...
texttexttexttexttexttexttexttexttexttexttextAuthor Institution: Space Science Division, NASA-Ames Re...
texttexttexttexttexttexttexttexttexttexttextAuthor Institution: Space Science Division, NASA-Ames Re...
Hydrogenated amorphous carbons, an important component of the interstellar carbonaceous du...