Measurements of thermodynamic quantities in Titan’s atmosphere during the descent of Huygens in 2005 are used to predict the vertical profiles for the speed and intrinsic attenuation (or absorption) of sound. The calculations are done using one author’s previous model modified to accommodate non-ideal equations of state. The vertical temperature profile places the tropopause about 40 km above the surface. In the model, a binary nitrogen-methane composition is assumed for Titan’s atmosphere, quantified by the methane fraction measured by the gas chromatograph/mass spectrometer (GCMS) onboard Huygens. To more accurately constrain the acoustic wave number, the variation of thermophysical properties (specific heats, viscosity, and thermal conductivity) with altitude is included via data extracted from the NIST Chemistry WebBook [URL webbook.nist.gov, National Institute of Standards and Technology Chemistry WebBook (Last accessed 10/20/2011)]. The predicted speed of sound profile fits well inside the spread of the data recorded by Huygens’ active acoustic sensor. In the N2-dominated atmosphere, the sound waves have negligible relaxational dispersion and mostly classical (thermo-viscous) absorption. The cold and dense environment of Titan can sustain acoustic waves over large distances with relatively small transmission losses, as evidenced by the small absorption. A ray-tracing program is used to assess the bounds imposed by the zonal wind—measured by the Doppler Wind Experiment on Huygens—on long-range propagation.
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May 04 2012
A model for the vertical sound speed and absorption profiles in Titan’s atmosphere based on Cassini-Huygens data
Andi Petculescu;
Andi Petculescu
a)
Department of Physics,
University of Louisiana at Lafayette
, P.O. Box 44210, Lafayette, Louisiana 70504
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Peter Achi
Peter Achi
Department of Physics,
University of Louisiana at Lafayette
, P.O. Box 44210, Lafayette, Louisiana 70504
Search for other works by this author on:
a)
Author to whom correspondence should be addressed. Electronic mail: andi@louisiana.edu
J. Acoust. Soc. Am. 131, 3671–3679 (2012)
Article history
Received:
December 01 2011
Accepted:
March 04 2012
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Citation
Andi Petculescu, Peter Achi; A model for the vertical sound speed and absorption profiles in Titan’s atmosphere based on Cassini-Huygens data. J. Acoust. Soc. Am. 1 May 2012; 131 (5): 3671–3679. https://doi.org/10.1121/1.3699217
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