A Modified Algorithm and Open-source Computational Package for the Determination of Infrared Optical Constants Relevant to Astrophysics

Infrared (IR) telescopes, such as Spitzer and SOFIA, have revealed a rich variety of chemical species trapped in interstellar ices. The most fundamental parameters to be derived from observed IR spectra are the identity and abundance of each component. Several compounds have been conclusively or ten...

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Published inThe Astrophysical journal Vol. 901; no. 1; pp. 52 - 61
Main Authors Gerakines, Perry A., Hudson, Reggie L.
Format Journal Article
LanguageEnglish
Published Goddard Space Flight Center The American Astronomical Society 01.09.2020
American Astronomical Society / IOP Publishing
IOP Publishing
Subjects
Abundance
Algorithms
Astrochemistry
Astronomy
Astrophysics
Carbon dioxide
Chemical speciation
Ice
Infrared spectroscopy
Infrared telescopes
Interstellar chemistry
Interstellar ices
Interstellar matter
Iterative methods
Laboratory astrophysics
Molecular spectroscopy
Nitrous oxide
Programming languages
Refractive index
Refractivity
Source code
Space telescopes
Telescopes
Thin films
Online AccessGet full text
ISSN0004-637X
1538-4357
DOI10.3847/1538-4357/abad39

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Abstract Infrared (IR) telescopes, such as Spitzer and SOFIA, have revealed a rich variety of chemical species trapped in interstellar ices. The most fundamental parameters to be derived from observed IR spectra are the identity and abundance of each component. Several compounds have been conclusively or tentatively identified, but the band strengths and optical constants needed to derive accurate abundances for many of these are poorly constrained. We have developed a modified approach to the extraction of the real and imaginary parts of the refractive index (optical constants) of a thin film from a single transmission spectrum measured in the IR spectral range. Our algorithm is similar to those implemented by previous authors, with some major changes that yield results for strong absorptions where previous approaches fail: (1) an adaptive k-correction step size, (2) the use of a root-finding algorithm to obtain a more accurate k-correction at each iteration, and (3) a k-correction step that prevents non-physical results such as negative n-values that prevent convergence in the calculation algorithm. The algorithm is presented and described, with examples to show agreement with some existing results and improvements upon others. New optical-constants calculations for CH3OH, CO2, N2O, and CH4 are presented, and potential implications for the modeling of interstellar and planetary ice data from space telescopes are discussed. With the objective of being open-source and transparent, the full source code in the free Python programming language is made available along with the compiled version and the laboratory data used to produce the results shown.
AbstractList Infrared (IR) telescopes, such as Spitzer and SOFIA, have revealed a rich variety of chemical species trapped in interstellar ices. The most fundamental parameters to be derived from observed IR spectra are the identity and abundance of each component. Several compounds have been conclusively or tentatively identified, but the band strengths and optical constants needed to derive accurate abundances for many of these are poorly constrained. We have developed a modified approach to the extraction of the real and imaginary parts of the refractive index (optical constants) of a thin film from a single transmission spectrum measured in the IR spectral range. Our algorithm is similar to those implemented by previous authors, with some major changes that yield results for strong absorptions where previous approaches fail: (1) an adaptive k-correction step size, (2) the use of a root-finding algorithm to obtain a more accurate k-correction at each iteration, and (3) a k-correction step that prevents non-physical results such as negative n-values that prevent convergence in the calculation algorithm. The algorithm is presented and described, with examples to show agreement with some existing results and improvements upon others. New optical-constants calculations for CH3OH, CO2, N2O, and CH4 are presented, and potential implications for the modeling of interstellar and planetary ice data from space telescopes are discussed. With the objective of being open-source and transparent, the full source code in the free Python programming language is made available along with the compiled version and the laboratory data used to produce the results shown.
Infrared (IR) telescopes, such as Spitzer and SOFIA, have revealed a rich variety of chemical species trapped in interstellar ices. The most fundamental parameters to be derived from observed IR spectra are the identity and abundance of each component. Several compounds have been conclusively or tentatively identified, but the band strengths and optical constants needed to derive accurate abundances for many of these are poorly constrained. We have developed a modified approach to the extraction of the real and imaginary parts of the refractive index (optical constants) of a thin film from a single transmission spectrum measured in the IR spectral range. Our algorithm is similar to those implemented by previous authors, with some major changes that yield results for strong absorptions where previous approaches fail: (1) an adaptive k -correction step size, (2) the use of a root-finding algorithm to obtain a more accurate k -correction at each iteration, and (3) a k -correction step that prevents non-physical results such as negative n -values that prevent convergence in the calculation algorithm. The algorithm is presented and described, with examples to show agreement with some existing results and improvements upon others. New optical-constants calculations for CH 3 OH, CO 2 , N 2 O, and CH 4 are presented, and potential implications for the modeling of interstellar and planetary ice data from space telescopes are discussed. With the objective of being open-source and transparent, the full source code in the free Python programming language is made available along with the compiled version and the laboratory data used to produce the results shown.
Audience PUBLIC
Author Gerakines, Perry A.
Hudson, Reggie L.
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Snippet Infrared (IR) telescopes, such as Spitzer and SOFIA, have revealed a rich variety of chemical species trapped in interstellar ices. The most fundamental...
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SubjectTerms Abundance
Algorithms
Astrochemistry
Astronomy
Astrophysics
Carbon dioxide
Chemical speciation
Ice
Infrared spectroscopy
Infrared telescopes
Interstellar chemistry
Interstellar ices
Interstellar matter
Iterative methods
Laboratory astrophysics
Molecular spectroscopy
Nitrous oxide
Programming languages
Refractive index
Refractivity
Source code
Space telescopes
Telescopes
Thin films
Title A Modified Algorithm and Open-source Computational Package for the Determination of Infrared Optical Constants Relevant to Astrophysics
URI https://iopscience.iop.org/article/10.3847/1538-4357/abad39
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