English
Related papers

Related papers: CO ice photodesorption: A wavelength-dependent stu…

200 papers

A longstanding problem in astrochemistry is how molecules can be maintained in the gas phase in dense inter- and circumstellar regions. Photodesorption is a non-thermal desorption mechanism, which may explain the small amounts of observed…

Astrophysics · Physics 2015-05-13 Karin I. Oberg , Ewine F. van Dishoeck , Harold Linnartz

UV ice photodesorption is an important non-thermal desorption pathway in many interstellar environments that has been invoked to explain observations of cold molecules in disks, clouds and cloud cores. Systematic laboratory studies of the…

The overabundance of gas molecules in the coldest regions of space point to a non-thermal desorption process. Laboratory simulations show an efficient desorption of CO ice exposed to ultraviolet radiation, known as photodesorption, which…

Instrumentation and Methods for Astrophysics · Physics 2022-09-20 N. -E. Sie , Y. -T. Cho , C. -H. Huang , G. M. Muñoz Caro , L. -C. Hsiao , H. -C. Lin , Y. -J. Chen

Non-thermal desorption from icy grains containing H$_2$CO has been invoked to explain the observed H$_2$CO gas phase abundances in ProtoPlanetary Disks (PPDs) and Photon Dominated Regions (PDRs). Photodesorption is thought to play a key…

CO$_2$ is a major component of the icy mantles surrounding dust grains in planet and star formation regions. Understanding its photodesorption is crucial for explaining gas phase abundances in the coldest environments of the interstellar…

Ultraviolet photodesorption of molecules from icy interstellar grains can explain observations of cold gas in regions where thermal desorption is negligible. This non-thermal desorption mechanism should be especially important where UV…

At the high densities and low temperatures found in star forming regions, all molecules other than H2 should stick on dust grains on timescales shorter than the cloud lifetimes. Yet these clouds are detected in the millimeter lines of…

Gaseous H2O has been detected in several cold astrophysical environments, where the observed abundances cannot be explained by thermal desorption of H2O ice or by H2O gas phase formation. These observations hence suggest an efficient…

Astrophysics · Physics 2011-02-11 Karin I. Oberg , Harold Linnartz , Ruud Visser , Ewine F. van Dishoeck

CO$_2$ ice has a phase transition at 35 K when its structure changes from amorphous to crystalline. Using Reflection absorption Infrared Spectroscopy (RAIRS), \"Oberg et al. observed that the photodesorption yield of CO$_2$ ice deposited at…

Astrophysics of Galaxies · Physics 2020-01-07 N. -E. Sie , G. M. Muñoz Caro , Z. -H. Huang , R. Martín-Doménech , A. Fuente , Y. -J. Chen

Non-thermal desorption of inter- and circum-stellar ice mantles on dust grains, in particular ultraviolet photon-induced desorption, has gained importance in recent years. These processes may account for the observed gas phase abundances of…

Astrophysics of Galaxies · Physics 2019-05-08 C González Díaz , H Carrascosa de Lucas , S Aparicio , G M Muñoz Caro , N-E Sie , L-C Hsiao , Y-J Chen

We study the photo-desorption occurring in H$_2$O:CO:NH$_3$ ice mixtures irradiated with monochromatic (550 and 900 eV) and broad band (250--1250 eV) soft X-rays generated at the National Synchrotron Radiation Research Center (Hsinchu,…

Astrophysics of Galaxies · Physics 2018-11-28 A. Jimenez-Escobar , A. Ciaravella , C. Cecchi-Pestellini , C. -H. Huang , N. -E. Sie , Y. -J. Chen , G. M. Munoz Caro

Ice mantles that formed on top of dust grains are photoprocessed by the secondary ultraviolet (UV) field in cold and dense molecular clouds. UV photons induce photochemistry and desorption of ice molecules. Experimental simulations…

Solar and Stellar Astrophysics · Physics 2015-10-20 R. Martín-Doménech , J. Manzano-Santamaría , G. M. Muñoz Caro , G. A. Cruz-Díaz , Y. -J. Chen , V. J. Herrero , I. Tanarro

The VUV absorption cross sections of most molecular solids present in interstellar ice mantles with the exception of H2O, NH3, and CO2 have not been reported yet. Models of ice photoprocessing depend on the VUV absorption cross section of…

Solar and Stellar Astrophysics · Physics 2014-06-02 G. A. Cruz-Diaz , G. M. Munoz Caro , Y. -J. Chen , T. -S. Yih

In regions where stars form, variations in density and temperature can cause gas to freeze-out onto dust grains forming ice mantles, which influences the chemical composition of a cloud. The aim of this paper is to understand in detail the…

Solar and Stellar Astrophysics · Physics 2017-11-08 S. Cazaux , R. Martin-Domenech , Y. J. Chen , G. M. Munoz Caro , C. Gonzalez Diaz

The study and quantification of UV photon-induced desorption of frozen molecules furthers our understanding of the chemical evolution of cold interstellar regions. Nitric oxide (NO) is an important intermediate species in both gas-phase and…

Astrophysics of Galaxies · Physics 2017-10-05 R. Dupuy , G. Féraud , M. Bertin , X. Michaut , T. Putaud , P. Jeseck , L. Philippe , C. Romanzin , V. Baglin , R. Cimino , J. -H. Fillion

Vacuum-UV (VUV) photodesorption from water-rich ice mantles coating interstellar grains is known to play an important role in the gas-to-ice ratio in star- and planet-forming regions. Quantitative photodesorption yields from water ice are…

Context. Methane is among the main components of the ice mantles of insterstellar dust grains, where it is at the start of a rich solid-phase chemical network. Quantification of the photon-induced desorption yield of these frozen molecules…

Solid-phase photo-processes involving icy dust grains greatly affect the chemical evolution of the interstellar medium by leading to the formation of complex organic molecules and by inducing photodesorption. So far, the focus of laboratory…

Electronic excitations near the surface of water ice lead to the desorption of adsorbed molecules, through a so far debated mechanism. A systematic study of photon-induced indirect desorption, revealed by the spectral dependence of the…

The detection of high gas-phase abundances of SO2 and SO in the cold envelope of an intermediate mass protostar suggests that these molecules might form on icy dust grains and subsequently desorb to the gas phase by non-thermal desorption…

‹ Prev 1 2 3 10 Next ›