wave propagation via laser ultrasound ir laser focused on 19 mm line laser line source
TRANSCRIPT
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wave propagation via laser ultrasound
IR laser focused on 19 mm lineLaser line source
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Transmitted EM phase image of granite at 150 GHz
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Measuring electrical and mechanical properties of rocks on the
submillimeter scale
JS, M. Batzle, M. Prasad, N. Greeney & A. Yuffa
Colorado School of Mines
Collaboration between Physics, Geophsysics and Petroleum Engineering
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All data and software will be available
• http://mesoscopic.mines.edu
• http://physics.mines.edu/~jscales
• Common Ground free database of rock properties
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High spatial resolution techniques now available
• Laser ultrasound
• millimeter/submillimeter wave EM
• Strain microscopy
• Acoustic microscopy (Prasad)
• Micro-CT scan (Batzle)
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Motivation
• Complimentary measurements
• Submillimeter waves sample on same length scale as ultrasound.
• measurements fully noncontacting and can be done on same samples without other preparation.
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Length scale of measurement easily controlled optically
'low' frequency normal mode
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Laser spot size measured in microns
'high' frequency normal mode
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But how to get local elastic properties from waveforms?
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Electrical properties at sub-mm resolution
CSM submillimeter system covers from microwaves (8-10 GHz) to 1 THz (1000 GHz)
Allows us to do bulk dielectric spectroscopy And now, near-field scanning
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ABMillimetre submm VNA
Funded by NSF MRI
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Unique instrument
• measure amplitude and phase of the electric field over broad range of millimeter to submillimeter wave frequencies
• In free-space or in waveguide
• Produces linearly polarized Gaussian beams of high optical quality: quasi-optics
• Allows 'easy optics'
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quasi-optics
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Dielectric spectroscopy
Fit E field with 1D Fabry-Perot model to get complex permittivity
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Measuring water content
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Measuring anisotropy in shale
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MMW rock physics applicationsScales and Batzle APL papers
• Measure organic content in rocks and oil/water emulsions
• Resolve sedimentation at the 100 micron level (implications for climate models)
• Check mixing models (such as Maxwell-Garnett)
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Recent: cavity perturbation
• Have recently built ultra-high-Q millimeter wave cavity for measuring (e.g.,) conductivity of thin films.
• Use ultrasonic cavity perturbation to measure minute changes in samples
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Getting high-resolution EM results
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First work at 150 GHz
Greeney & JS, Appl. Phys. Letts. Bare teflon probes Later, went to higher frequency, 260 GHz Clad teflon in aluminum Small hole at tip to prevent leakage Weiss et al, J. Appl. Phys. Finite element modeling of tip surface coupling
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Transmitted phase image of granite at 150 GHz
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Transmitted phase image of shale at 150 GHz
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Seeing inside dielectrics: rfid card @ 260 GHz
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Seeing vascular structure
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True near-field scanning
Tip-sample distance .2mm Wavelength about 1 mm
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Can see standing waves in the shadow (backside of dime)
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Circular drum modes
Tip-sample distance .6mm
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small scale effects of Pyrolisis
McEvoy et al, 2009 oil shale conf.
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Comparison with acoustic microscopy (M. Prasad's lab)
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Laser ultrasound analog
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Pulsed laser sources
• Pulses from 10 ns to 100 fs
• Looking at first arriving energy as we scan across the sample.
• Scanning resolution measured in nm
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Measuring spatial strain in real time at video frame rates
• Illuminate a surface with laser speckle
• Take a picture of the speckle
• Apply a strain
• Take another picture
• Subtract the two
• The result is an interferogram
Electronic Speckle Pattern Interferometry
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ESPI through a microscope
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Speckle interferograms of concrete
Are grains floating?
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Trick is in the image processing
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Skeletonization by nonlinear pde filtering
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conclusion
• Are acquiring independent high-spatial resolution data sets for relevant rocks
• Expect to have high-res mechanical properties soon.
• Batzle now has micro-CT scanner. Again, no rock prep required.
• Have a high-speed video camera for the ESPI