As the company SHRIMP driver, I do a fair bit of
demonstration analyses for potential customers.
One thing that has become increasingly common over the past two years is
demonstration of the ability to successfully date jailbait zircons. For those of you unfamiliar with the term, a jailbait
zircon is a zircon so young that dating it while making all the usual
assumptions will get you into all sorts of trouble.
The chief problem is that for deep geologic time, we assume
that the 238U to 206Pb decay is a simple process. In
actuality, there are eight alpha decays and more beta decays than I can
remember in this process, but most of the intermediate daughter products are
short-lived relative to the age of the analyst, much less the Earth.
However, if you are dating a phase that is much, much
younger than the Earth, then these intermediate decay products can become
important. Corrections need to be made
relating to whether or not now-extinct intermediate species were incorporated
into the target mineral more or less efficiently than uranium.
For minerals which are a few hundred thousand years old, or
younger, you can abandon the uranium-lead system entirely, and use
uranium-thorium dating instead. This
simply looks at how close to secular equilibrium 230Th and 234U
have grown after their initial incorporation into the target mineral in a
unequilibrated ratio. The linked
wikipedia explanation is good (at least qualitatively). Check it out.
Of course, even for targets old enough for uranium-lead
dating, in addition to the theoretical problems above, there is the practical
problem of measuring a statistically significant amount of very low levels of
radiogenic lead, while somehow keeping common Pb contamination to an absurdly
low level. Because one of the nasty
things about the disequilibrium species is that they disrupt many of the
assumptions that are needed to accurately and precisely correct for common
lead. Which means that if you can’t keep
the blank down, you’re screwed.
That's very interesting. I worked recently with some very young rocks (5 years old volcanic rocks). So, we observed some huge U-Th-Ra disequilibrium (for whole rock).
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