Presentation is loading. Please wait.

Presentation is loading. Please wait.

Propane on Titan H.G. Roe 1, T. Greathouse, M. Richter, J. Lacy 1 Div. Of Geological and Planetary Sciences, CalTech Roe, H. et al. 2003, ApJ, 597, L65.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Propane on Titan H.G. Roe 1, T. Greathouse, M. Richter, J. Lacy 1 Div. Of Geological and Planetary Sciences, CalTech Roe, H. et al. 2003, ApJ, 597, L65."— Presentation transcript:

1 Propane on Titan H.G. Roe 1, T. Greathouse, M. Richter, J. Lacy 1 Div. Of Geological and Planetary Sciences, CalTech Roe, H. et al. 2003, ApJ, 597, L65. “Propane on Titan”

2 Why study propane on Titan? Titan is the only moon in our solar system to have a substantial atmosphere. Titan's thick atmosphere is simultaneously analogous to and extraordinarily different from that of Earth. Both atmospheres are composed mostly of nitrogen. Both atmospheres have a major component that can exist as a solid, liquid, or gas (water on Earth, methane on Titan). Both have similar vertical temperature-pressure structures, but Titan's atmosphere is ~200 K cooler. On Titan a complicated network of photochemical reactions leads from methane (CH 4 ) to the formation of numerous heavier hydrocarbons, including propane (C 3 H 8 ). Eventually these heavier hydrocarbons land on Titan's surface through rain, snow, haze deposition, and/or other condensation processes. Propane is one of many end-products of the complicated chemistry of Titan's atmosphere. Measuring the abundances of Titan's hydrocarbons provides an important test of models of Titan's atmospheric chemistry and of our fundamental understanding of chemical and physical processes in an unusual atmosphere.

3 What’s new? We observed Titan with a spectral resolution of R~100,000 using the Univ. of Texas high-resolution 10 micron spectrograph. As a result we are able to spectrally resolve propane features from acetylene features and for the first time unambiguously detect propane and measure its abundance in Titan's atmosphere. The next figure shows one section of the spectrum we obtained. We measured a propane fractional number abundance of (6.2 ± 1.2)x10 -7.

4 In the upper panel we fit a model using only C 2 H 2 and HCN, leaving many obvious residual features. In the lower panel we include propane in the model and find that nearly every feature is now fitted well.

5 The upper panel shows the Infrared Space Observatory spectrum of Titan. Overplotted on the ISO spectrum are the model spectra (with and without propane) from our work. The lower panel shows our new high resolution spectrum of Titan. Note the different vertical scales. The high resolution of TEXES is clearly required for a definitive detection of propane.

Download ppt "Propane on Titan H.G. Roe 1, T. Greathouse, M. Richter, J. Lacy 1 Div. Of Geological and Planetary Sciences, CalTech Roe, H. et al. 2003, ApJ, 597, L65."

Similar presentations

LIFE ON SATURN Researchers believe they have discovered vital clues that indicate that primitive aliens could be living on one of Saturn’s moons. Project.

LIFE ON SATURN Researchers believe they have discovered vital clues that indicate that primitive aliens could be living on one of Saturn’s moons. Project.
Colors of Alien Worlds from Direct-Imaging Exoplanet Missions Renyu Hu Hubble Fellow Jet Propulsion Laboratory California Institute of Technology With.

Colors of Alien Worlds from Direct-Imaging Exoplanet Missions Renyu Hu Hubble Fellow Jet Propulsion Laboratory California Institute of Technology With.
Nitrogen Chemistry in Titan’s Upper Atmosphere J. A. Kammer 1, D. E. Shemansky 2, X. Zhang 1, Y. L. Yung 1 1 Division of Geological and Planetary Sciences,

Nitrogen Chemistry in Titan’s Upper Atmosphere J. A. Kammer 1, D. E. Shemansky 2, X. Zhang 1, Y. L. Yung 1 1 Division of Geological and Planetary Sciences,
Enceladus and Titan: Prime targets in the search for life.

Enceladus and Titan: Prime targets in the search for life.
[ ] Section 8: Key Features of the Jovian Planets See Chapter 6,

[ ] Section 8: Key Features of the Jovian Planets See Chapter 6,
The Earthshine Spectrum in the Near Infrared M. Turnbull 1, W. Traub 2, K. Jucks 3, N. Woolf 4, M. Meyer 4, N. Gorlova 4, M. Skrutskie 5, J. Wilson 5 1.

The Earthshine Spectrum in the Near Infrared M. Turnbull 1, W. Traub 2, K. Jucks 3, N. Woolf 4, M. Meyer 4, N. Gorlova 4, M. Skrutskie 5, J. Wilson 5 1.
By: Laurence, Leslee, Kassie, and Jessica  Our first decision was to go to Saturn and to it’s biggest moon Titan. That alone will cost $350 million.

By: Laurence, Leslee, Kassie, and Jessica  Our first decision was to go to Saturn and to it’s biggest moon Titan. That alone will cost $350 million.
ACE Linelist Needs for the Atmospheric Chemistry Experiment Chris Boone and Peter Bernath Univ. of Waterloo, Waterloo, Ontario, Canada HITRAN 2006 Conference.

ACE Linelist Needs for the Atmospheric Chemistry Experiment Chris Boone and Peter Bernath Univ. of Waterloo, Waterloo, Ontario, Canada HITRAN 2006 Conference.
Modeling Carbon Species in the Atmosphere of Neptune and Comparison with Spitzer Observations Xi Zhang 1, Mao-Chang Liang 2, Daniel Feldman 1, Julianne.

Modeling Carbon Species in the Atmosphere of Neptune and Comparison with Spitzer Observations Xi Zhang 1, Mao-Chang Liang 2, Daniel Feldman 1, Julianne.
Titan 21 October 2011. Titan [2003] Second-largest moon in SS Density ~1900 kg/m 3 thick atmosphere! Sublimation N 2 (90%), methane, ethane ethane may.

Titan 21 October Titan [2003] Second-largest moon in SS Density ~1900 kg/m 3 thick atmosphere! Sublimation N 2 (90%), methane, ethane ethane may.
METO 637 Lesson 22. Jupiter Jupiter and Saturn are known as the gas planets They do not have solid surfaces, their gaseous materials get denser with.

METO 637 Lesson 22. Jupiter Jupiter and Saturn are known as the gas planets They do not have solid surfaces, their gaseous materials get denser with.
Molecules in planetary atmospheres Emmanuel Lellouch Observatoire de Paris.

Molecules in planetary atmospheres Emmanuel Lellouch Observatoire de Paris.
Titan’s Atmospheric Chemistry Emily Schaller GE/AY 132 March 2004.

Titan’s Atmospheric Chemistry Emily Schaller GE/AY 132 March 2004.
Hydrogen Peroxide on Mars Th. Encrenaz 1, B. Bezard, T. Greathouse, M. Richter, J. Lacy, S. Atreya, A. Wong, S. Lebonnois, F. Lefevre, F. Forget 1 Observatoire.

Hydrogen Peroxide on Mars Th. Encrenaz 1, B. Bezard, T. Greathouse, M. Richter, J. Lacy, S. Atreya, A. Wong, S. Lebonnois, F. Lefevre, F. Forget 1 Observatoire.
Composition, Physical State and Distribution of Ices at the Surface of Triton Laura Brenneman ASTR688R Project, 12/9/04.

Composition, Physical State and Distribution of Ices at the Surface of Triton Laura Brenneman ASTR688R Project, 12/9/04.
Astronomy News 2007/03/20 HEAG meeting Astronomers Puzzled by Spectra of Transiting Planet Orbiting Nearby Star.

Astronomy News 2007/03/20 HEAG meeting Astronomers Puzzled by Spectra of Transiting Planet Orbiting Nearby Star.
Astronomy190 - Topics in Astronomy Astronomy and Astrobiology Lecture 20 : Biosignatures Ty Robinson.

Astronomy190 - Topics in Astronomy Astronomy and Astrobiology Lecture 20 : Biosignatures Ty Robinson.
Chapter 7 The Outer Planets. What do you think? Is Jupiter a “failed star” or almost a star? What is Jupiter’s Great Red Spot? Does Jupiter have continents.

Chapter 7 The Outer Planets. What do you think? Is Jupiter a “failed star” or almost a star? What is Jupiter’s Great Red Spot? Does Jupiter have continents.
New Results from Ground-Based Transit Spectroscopy Observations Jacob Bean Harvard-Smithsonian CfA University of Chicago.

New Results from Ground-Based Transit Spectroscopy Observations Jacob Bean Harvard-Smithsonian CfA University of Chicago.
SATURN’S MYSTERIOUS MOON TITAN

SATURN’S MYSTERIOUS MOON TITAN

Similar presentations

Ads by Google