R. K. Khanna scite author profile

AstrophysicsOrigin of the 6.85 µm band near young stellar objects:The ammonium ion (NH matches two absorption features that are observed towards embedded young stellar objects, i.e., the strong 6.85 µm feature and the 3.26 µm feature. The characteristic redshift with temperature of the interstellar 6.85 µm feature is well reproduced. The abundance of NH + 4 in interstellar ices would be typically 10% relative to H 2 O. The experiments show that the counterions produce little distinct spectral signature but rather a pseudo-continuum if a variety of them is present in a H 2 O dominated environment. The anions could therefore go undetected in IR spectra of interstellar ice. In the ISM, where additional mechanisms such as surface chemistry and additional elements such as sulfur are available many acids and an even wider variety of anions could be produced. These components may be detectable once the ices sublime, e.g., in hot cores.

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Studies of proton-irradiated cometary-type ice mixtures

Moore

Donn

Khanna

et al. 1983

Icarus

239

115

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Plausible condensates in Titan’s stratosphere from Voyager infrared spectra

Coustenis

Schmitt

Khanna

et al. 1999

Planetary and Space Science

135

103

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Infrared and mass spectral studies of proton irradiated H2O + CO2 ice: Evidence for carbonic acid

Moore¹,

Khanna²

1991

Spectrochimica Acta Part A: Molecular Spectroscopy

154

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The effects of proton irradiation on mixed H,O + COz (1:l) ices at 20 K were investigated by infrared and mass spectroscopy. Infrared bands due to several radical (HCO, CO,) and molecular (CO) product species were identified. In addition, several new broad and complex i.r. features were observed. On slow warming, the broad features evolved into a 215-250 K residual film whose absorptions have been tentatively assigned to carbonic acid. This identification agrees with the spectral data for irradiated H,O+ r3COz ice and the results of an approximate normal coordinate analysis.

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R. K. Khanna

Origin of the 6.85 $\mathsf{\mu}$m band near young stellar objects: The ammonium ion (NH_4^+) revisited

Studies of proton-irradiated cometary-type ice mixtures

Plausible condensates in Titan’s stratosphere from Voyager infrared spectra

Infrared and mass spectral studies of proton irradiated H2O + CO2 ice: Evidence for carbonic acid

Contact Info

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Resources

About

R. K. Khanna

Origin of the 6.85 $\mathsf{\mu}$m band near young stellar objects: The ammonium ion (NH4^+) revisited

Studies of proton-irradiated cometary-type ice mixtures

Plausible condensates in Titan’s stratosphere from Voyager infrared spectra

Infrared and mass spectral studies of proton irradiated H2O + CO2 ice: Evidence for carbonic acid

Contact Info

Product

Resources

About

Origin of the 6.85 $\mathsf{\mu}$m band near young stellar objects: The ammonium ion (NH_4^+) revisited