We present a new method for fitting simple hydrodynamical models to the (l, v) distribution of atomic and molecular gas observed in the Milky Way. The method works by matching features found in models and observations. It is based on the assumption that the large-scale features seen in (l, v) plots, such as ridgelines and the terminal velocity curve, are influenced primarily by the underlying large-scale Galactic potential and are only weakly dependent on local interstellar medium heating and cooling processes. In our scheme one first identifies by hand the features in the observations: this only has to be done once. We describe a procedure for automatically extracting similar features from simple hydrodynamical models and quantifying the 'distance' between each model's features and the observations. Application to models of the Galactic bar region (vertical bar l vertical bar < 30 degrees) shows that our feature-fitting method performs better than chi(2) or envelope distances at identifying the correct underlying galaxy model.

Recognizing the fingerprints of the Galactic bar: a quantitative approach to comparing model (l, v) distributions to observations

Sormani M
;
2015-01-01

Abstract

We present a new method for fitting simple hydrodynamical models to the (l, v) distribution of atomic and molecular gas observed in the Milky Way. The method works by matching features found in models and observations. It is based on the assumption that the large-scale features seen in (l, v) plots, such as ridgelines and the terminal velocity curve, are influenced primarily by the underlying large-scale Galactic potential and are only weakly dependent on local interstellar medium heating and cooling processes. In our scheme one first identifies by hand the features in the observations: this only has to be done once. We describe a procedure for automatically extracting similar features from simple hydrodynamical models and quantifying the 'distance' between each model's features and the observations. Application to models of the Galactic bar region (vertical bar l vertical bar < 30 degrees) shows that our feature-fitting method performs better than chi(2) or envelope distances at identifying the correct underlying galaxy model.
2015
2014
methods: data analysis – ISM: kinematics and dynamics – Galaxy: kinematics and dynamics
Sormani, M; Magorrian, J
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11383/2170748
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