Add to ORKGOne of the primary tasks of the Astrochemistry Laboratory at Ames Research Center is to use laboratory simulations to study the chemical processes that occur in dense interstellar clouds. Since new stars are formed in these clouds, their materials may be responsible for the delivery of organics to new habitable planets and may play important roles in the origin of life. These clouds are extremely cold (less than 50 kelvin), and most of the volatiles in these clouds are condensed onto dust grains as thin ice mantles. These ices are exposed to cosmic rays and ultraviolet (UV) photons that break chemical bonds and result in the production of complex molecules when the ices are warmed (as they would be when incorporated into a star-forming regi...
Interstellar ices are submitted to energetic processes (thermal, UV, and cosmic-ray radiations) prod...
This thesis treats the chemical behaviour of carbonaceous molecules in water-dominated interstellar ...
Tremendous strides have been made in our understanding of interstellar material over the past twenty...
Much of the volatiles in interstellar dense clouds exist in ices surrounding dust grains. Their low ...
Despite the low temperatures (T less than 20K), low pressures, and low molecular densities found in ...
More than 140 gas-phase molecules have been detected in the interstellar (IS) medium or in circumste...
Abstract. Infrared observations, combined with realistic laboratory simulations, have revolutionized...
Dust grains exert a major influence upon the chemical composition of the interstellar medium: photoe...
At the present time evidence continues to demonstrate the existence of organic molecules in interste...
Studying the chemical evolution of the interstellar medium (ISM) is critical for understanding chemi...
The basic theme of this program is the study of molecular complexity and evolution in interstellar a...
The formation of complex organic molecules that consist of more than four atoms in space is one of t...
Interstellar chemistry provides a natural laboratory for studying exotic species and processes at de...
The recent missions to Comet Halley detected large quantities of organic material on grains as well ...
703. WE-Heraeus-Seminar, Physikzentrum Bad Honnef, Germany, 23 Oct - 25 Oct 2019Far-UV photons (FUV,...
Interstellar ices are submitted to energetic processes (thermal, UV, and cosmic-ray radiations) prod...
This thesis treats the chemical behaviour of carbonaceous molecules in water-dominated interstellar ...
Tremendous strides have been made in our understanding of interstellar material over the past twenty...
Much of the volatiles in interstellar dense clouds exist in ices surrounding dust grains. Their low ...
Despite the low temperatures (T less than 20K), low pressures, and low molecular densities found in ...
More than 140 gas-phase molecules have been detected in the interstellar (IS) medium or in circumste...
Abstract. Infrared observations, combined with realistic laboratory simulations, have revolutionized...
Dust grains exert a major influence upon the chemical composition of the interstellar medium: photoe...
At the present time evidence continues to demonstrate the existence of organic molecules in interste...
Studying the chemical evolution of the interstellar medium (ISM) is critical for understanding chemi...
The basic theme of this program is the study of molecular complexity and evolution in interstellar a...
The formation of complex organic molecules that consist of more than four atoms in space is one of t...
Interstellar chemistry provides a natural laboratory for studying exotic species and processes at de...
The recent missions to Comet Halley detected large quantities of organic material on grains as well ...
703. WE-Heraeus-Seminar, Physikzentrum Bad Honnef, Germany, 23 Oct - 25 Oct 2019Far-UV photons (FUV,...
Interstellar ices are submitted to energetic processes (thermal, UV, and cosmic-ray radiations) prod...
This thesis treats the chemical behaviour of carbonaceous molecules in water-dominated interstellar ...
Tremendous strides have been made in our understanding of interstellar material over the past twenty...