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Jackson School of Geosciences, The University of Texas at Austin, Austin, Texas, 78712, U.S.A., ketcham@mail.utexas.edu
| The first 20% of the full text of this article appears below. |
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INTRODUCTION |
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Once a forward model has been created and verified, it then becomes possible to apply it in the inverse sense: given a measured ending condition and an assumed starting one, find the intervening time-temperature history. In general, because of information loss, limited precision of measurements, and lack of system uniqueness, more than one history is consistent with a given ending condition. As a result, an inverse model solution usually consists of a set of thermal histories that are consistent with the measured data, as judged by some statistical criterion.
This chapter will concentrate on two low-temperature thermochronometers: fission-track (primarily for apatite) and (U-Th)/He. All of the calculations described here are implemented in a computer program called "HeFTy," which is available with this volume (see Ehlers et al. 2005).
A theme that will be touched upon throughout this chapter is that forward and inverse models are only as good as the data and assumptions behind them. Although this principle of course holds for all scientific investigations, it is often obscured when such details are packaged in user-friendly software that produces publication-ready graphics.
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FORWARD MODELING OF THE FISSION-TRACK SYSTEM |
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