VUV spectroscopy and photo-processing of astrochemical ices: an experimental study

Mason, Nigel J.; Dawes, Anita; Holtom, P. D.; Mukerji, R. J.; Davis, Michael; Sivaraman, Bhalamurugan; Kaiser, Ralf I.; Hoffmann, Søren Vrønning; Shaw, David

doi:10.1039/b518088k

Cited by 105 publications

(166 citation statements)

References 32 publications

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“…Error margins corresponding to the values in the second and third column are ±0.4 nm and ±0.03 eV. The peak positions agree with previous works, see Mason et al (2006), Lu et al (2005), and Brith & Schnepp (1965). Table 4.…”

Section: Solid Carbon Monoxidesupporting

confidence: 77%

“…Figure 3 displays the CO fourth positive band system; it is attributed to the A 1 Π ← X 1 Σ + system. Table 3 summarizes the transition, band position, and area of each feature at 8 K. We were able to observe twelve bands identified as (0, 0) to (11,0) where the (0, 0), (1, 0), and (2, 0) bands present a Davydov splitting, in agreement with Mason et al (2006), Lu et al (2005), and Brith & Schnepp (1965). Like Mason et al (2006), we were unable to observe the (12, 0) transition reported by Brith & Schnepp (1965) and Lu et al (2005), because of the low intensity Fig.…”

Section: Solid Carbon Monoxidesupporting

confidence: 67%

“…O 2 , N 2 , and CH 4 were reported by Mason et al (2006), Kuo et al (2007), and Lu et al (2008). But the VUV-absorption cross sections were only estimated for solid H 2 O, NH 3 , and CO 2 (Mason et al 2006).…”

Section: Introductionmentioning

confidence: 99%

“…But the VUV-absorption cross sections were only estimated for solid H 2 O, NH 3 , and CO 2 (Mason et al 2006). Furthermore, all previous works have been performed using synchrotron monochromatic light as the VUV-source, scanning the measured spectral range.…”

Section: Introductionmentioning

confidence: 99%

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Vacuum-UV spectroscopy of interstellar ice analogs

Cruz-Díaz

Muñoz

Chen

et al. 2014

A&A

103

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Context. The vacuum-UV (VUV) absorption cross sections of most molecular solids present in interstellar ice mantles with the exception of H 2 O, NH 3 , and CO 2 have not been reported yet. Models of ice photoprocessing depend on the VUV absorption cross section of the ice to estimate the penetration depth and radiation dose, and in the past, gas phase cross section values were used as an approximation. Aims. We aim to estimate the VUV absorption cross section of molecular ice components. Methods. Pure ices composed of CO, H 2 O, CH 3 OH, NH 3 , or H 2 S were deposited at 8 K. The column density of the ice samples was measured in situ by infrared spectroscopy in transmittance. VUV spectra of the ice samples were collected in the 120−160 nm (10.33−7.74 eV) range using a commercial microwave-discharged hydrogen flow lamp. Results. We provide VUV absorption cross sections of the reported molecular ices. Our results agree with those previously reported for H 2 O and NH 3 ices. Vacuum-UV absorption cross section of CH 3 OH, CO, and H 2 S in solid phase are reported for the first time. H 2 S presents the highest absorption in the 120−160 nm range. Conclusions. Our method allows fast and readily available VUV spectroscopy of ices without the need to use a synchrotron beamline. We found that the ice absorption cross sections can be very different from the gas-phase values, and therefore, our data will significantly improve models that simulate the VUV photoprocessing and photodesorption of ice mantles. Photodesorption rates of pure ices, expressed in molecules per absorbed photon, can be derived from our data.

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Section: Solid Carbon Monoxidesupporting

confidence: 77%

Section: Solid Carbon Monoxidesupporting

confidence: 67%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Vacuum-UV spectroscopy of interstellar ice analogs

Cruz-Díaz

Muñoz

Chen

et al. 2014

A&A

103

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“…In our experiments molecular oxygen was deposited at a pressure of 1 × 10 −7 mbar onto a cold CaF 2 window, kept at ∼25 K, for different exposure times (15, 20, 25 and 32 second) and VUV spectra were recorded. The feature peaking at 180 nm was assigned to the (O 2 ) 2 , dimer (Mason et al 2006). The band was very weak when using thin O 2 ice layers but grew in intensity with increased deposition to form a thick O 2 ice (Figure 1).…”

Section: Oxygen Dimermentioning

confidence: 99%

Electron, proton and ion induced molecular synthesis and VUV spectroscopy of interstellar molecules in the ice phase

et al. 2008

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Abstract. Planets and their moons are constantly subjected to irradiation from both their respective planetary magnetospheres and the solar wind. Energetic particles (electrons, protons and ions) in such radiation may induce complex chemistry within the icy mantles of such bodies, producing many organic compounds. Such processes can be simulated in laboratory experiments. In this report we present recent results from experiments exploring both molecular synthesis and the morphology of such ices.The morphology of any ice may be characterised by IR and Vacuum Ultra-Violet (VUV) spectroscopy. The latter is particularly useful for studying ices in which infrared inactive molecules like oxygen (O 2 ) are common. We have shown that oxygen forms dimers in typical planetary ices and that, in contrast to previous analysis, many of the chemical reactions within the ice involve such dimer (and larger cluster) chemistry. We also present the results of a series of experiments that explore electron, proton and ion irradiation on Solar System relevant ices such as carbon dioxide (CO 2 ) at different temperatures. Infrared spectra recorded before and after irradiation are used to identify and quantify molecules formed in such irradiation, e. g. ozone. These experiments show that the morphology of the ice plays a critical role in the chemistry.

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