Add to ORKGWe have investigated whether the nu_4 feature of NH4+ is a viable candidate for the 6.85 micron absorption band seen towards embedded young stellar objects. To produce NH4+ astrophysical ice analogs consisting of H2O, CO2, NH3 and O2 were UV photolysed. The IR spectra reveal peaks that are identified with the NH4+, NO2-, NO3- and HCO3- ions. It is shown that the NH4+ matches two absorption features that are observed towards embedded young stellar objects, i.e., the strong 6.85 micron feature and the 3.26 micron feature. The characteristic redshift with temperature of the interstellar 6.85 micron feature is well reproduced. The abundance of NH4+ in interstellar ices would be typically 10 % relative to H2O. The experiments show that the count...
Interstellar CH4 may consume a fair amount of the carbon budget in dense molecular clouds, but proba...
We present new 4.5-5.1 mu m (2210-1970 cm(-1)) spectra of embedded protostars, W33 A, AFGL 961 E, AF...
International audienceContext. The nitrogen reservoir in planetary systems is a long-standing proble...
We have investigated whether the $\nu_4$ feature of $\rm NH_4^+$ is a viable candidate for the 6.85 ...
We present 2.5-30 mum spectra from the Short-Wavelength Spectrometer of the Infrared Space Observato...
We present 2.5-30 mum spectra from the Short-Wavelength Spectrometer of the Infrared Space Observato...
We have investigated the effects induced by ion bombardment of mixtures containing nitrogen-bearing ...
We present a study of the 3.1 micron absorption band, attributed to the OH stretching mode of the wa...
We have investigated the effects induced by ion bombardment of mixtures containing nitrogen-bearing ...
NH3 and CH3OH are key molecules in astrochemical networks leading to the formation of more complex N...
We conducted a systematic study of the near-IR and mid-IR spectra of ammonia-water ices at various N...
Context. Whereas observational astronomy now routinely extends to the far-infrared region of the spe...
We present observations of solid-state absorption features due to water ice, CO ice, and silicate du...
International audienceAs of early 2022, only six species bearing an N−Obond have been detected towar...
Interstellar CH4 may consume a fair amount of the carbon budget in dense molecular clouds, but proba...
We present new 4.5-5.1 mu m (2210-1970 cm(-1)) spectra of embedded protostars, W33 A, AFGL 961 E, AF...
International audienceContext. The nitrogen reservoir in planetary systems is a long-standing proble...
We have investigated whether the $\nu_4$ feature of $\rm NH_4^+$ is a viable candidate for the 6.85 ...
We present 2.5-30 mum spectra from the Short-Wavelength Spectrometer of the Infrared Space Observato...
We present 2.5-30 mum spectra from the Short-Wavelength Spectrometer of the Infrared Space Observato...
We have investigated the effects induced by ion bombardment of mixtures containing nitrogen-bearing ...
We present a study of the 3.1 micron absorption band, attributed to the OH stretching mode of the wa...
We have investigated the effects induced by ion bombardment of mixtures containing nitrogen-bearing ...
NH3 and CH3OH are key molecules in astrochemical networks leading to the formation of more complex N...
We conducted a systematic study of the near-IR and mid-IR spectra of ammonia-water ices at various N...
Context. Whereas observational astronomy now routinely extends to the far-infrared region of the spe...
We present observations of solid-state absorption features due to water ice, CO ice, and silicate du...
International audienceAs of early 2022, only six species bearing an N−Obond have been detected towar...
Interstellar CH4 may consume a fair amount of the carbon budget in dense molecular clouds, but proba...
We present new 4.5-5.1 mu m (2210-1970 cm(-1)) spectra of embedded protostars, W33 A, AFGL 961 E, AF...
International audienceContext. The nitrogen reservoir in planetary systems is a long-standing proble...