Peering inside rocks: Trent professor helps make ground breaking discovery

Professor Aaron Slepkov

Two leading publications are drawing attention to a recent discovery by an interdisciplinary team of scientists that includes Dr. Aaron Slepkov, Trent University’s Canada Research Chair in physics of biomaterials.

The group demonstrated that a technique entrenched in the biomedical imaging industry can be used by geologists to analyze pockets of fluid trapped in rock. The article appears in the November 2012 issue of Physics Today and the November 19, 2012 issue of Chemical & Engineering News.

Prof. Slepkov, who is a professor in Trent’s department of physics and astronomy, was integral to the project helping to develop the methodology, design the experiment, collect and analyze the data and write the report. The team included researchers from Canada’s National Research Council and the US Geological Survey.

The team used a technique known as coherent anti-Stokes Raman scattering (CARS) microscopy that has been gaining popularity in the biomedical sciences. CARS microscopy creates high-resolution, chemically specific images, based on bondvibration frequencies. The technique can be used to build up three-dimensional images even in relatively turbid samples.

The breakthrough came when Prof. Slepkov and his fellow researchers saw the potential application in other disciplines. “We wanted to broaden the utility of CARS microscopy, beyond biomedical imaging,” said Prof. Slepkov. “Seeing it as a tool for geologists is an idea that came right out of left field, when Bob Burruss of the US Geological Survey came to the National Research Council for Albert Stolow’s CARS microscopy workshop.”

The researchers demonstrated that the CARS microscopy tool could be used to examine rock samples for pockets of methane gas and other organic matter, without destroying the samples. Previously, one had to crush the samples to examine its contents in this way.

“This is just the beginning,” said Prof. Slepkov. “We are trying to show a range of potential applications that may be of interest to a wide swath of scientists, including mineralogists, archeologists, crystallographers, petroleum chemists, and fluid inclusion researchers.”

Prof. Slepkov sees this discovery as the first step towards creating demand for the technique in the geosciences but he also thinks there are commercial applications.

“This technique allows the petrochemical industry to develop new ideas of what they might be able to do. In the long term, it’s going to assist in surveying and in determining in situ ratios of methane to crude oil content and various other chemical contents of crude oil.”

The technique was largely developed by Ph.D. student and co-author Adrian Pegoraro in Dr. Albert Stolow’s world-class lab at the National Research Council. Prof. Slepkov is currently working to build up research capabilities at Trent, including a laser microscopy lab to investigate biomaterials. Prof. Slepkov plans to continue working with his colleagues at the National Research Council and the US Geological Survey on this work, but he also hopes to collaborate with researchers in other disciplines at Trent.

Leave a Reply

Your email address will not be published. Required fields are marked *

*

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>