Researcher Bios - Biography

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David Hurley, Ph.D.

David Hurley received a Ph.D. in Materials Science and Engineering from Johns Hopkins University and is currently a Laboratory Fellow at Idaho National Laboratory. Dr. Hurley has an extensive research background involving theoretical and experimental studies of laser-based characterization of materials. Since coming to INL, he has focused on characterizing material behavior in extreme environments. Dr. Hurley’s research background and expertise encompass elements of physics, mechanical engineering, and materials science. This middle ground between science and engineering has given him a unique perspective on many materials issues facing the nuclear industry. Connecting microstructure to mechanical properties of nuclear fuel provides an important example of this perspective. As part of this effort his group at INL contributed significantly to the foundation of a new field of mechanical characterization termed laser resonant ultrasonic spectroscopy. On the science side his research has focused on understanding the influenced of irradiation defects on thermally driven transport of electrons and phonons. Currently, Dr. Hurley is the founding director of the Center for Thermal Energy Transport under Irradiation (TETI). The mission of this $12.6M Energy Frontier Research Center (EFRC) is to provide the foundational work necessary to accurately model and ultimately control electron- and phonon-mediated thermal transport in 5 f electron materials in extreme irradiation environments. He is also leading the development of key instruments that will populate the thermal properties cell in the Irradiated Materials Characterization Laboratory at INL. These instruments are enabling the nuclear fuels community the unique ability to perform detailed thermal properties measurements on highly radioactive materials.

<div class="ExternalClassFDF465AE4D2C4C72BCED2D2A3F140886"> Ph.D., Materials Science and Engineering, -Johns Hopkins University M.S., Mechanical Engineering - Montana State University B.S., Physics - University of North Carolina, Chapel Hill</div>

<div class="ExternalClassA264980818DF43DAAF1B76E6A1C8D7F7">Characterization of mechanical and thermal properties of nuclear materials Understanding the influence of irradiation microstructure on thermal transport in nuclear fuel In situ monitoring of material properties in high temperature environments (e.g. thermal properties, corrosive film growth, recrystallization) Electronic and thermal properties of photovoltaic and thermoelectric materials Ultrafast optical characterization of thin films and nanostructures Theoretical and experimental study of laser ultrasonics</div>

<div class="ExternalClass6210516E9F3E46448245D32408922F8E">M. Khafizov, Janne Pakarinen, Lingfeng He, D. H. Hurley, Journal of the American Ceramic Society, Impact of irradiation induced dislocation loops on thermal conductivity in ceramics, 102, 7533, (2019). David H. Hurley, Characterization of material nanostructure using Pump-probe laser ultrasonics, IEEE Nano-Magazine, 29-38, June (2019). Yuzho Wang, David H Hurley, Zilong Hua, Goafeng Sha, Samuel Raetz, Vitalyi Gusev, Marat Khafizov, Nondestructive characterization of polycrystalline 3D microstructure with time-domain Brillouin scattering, Scripta Materialia, 166, 34 (2019). Yuzhou Wang, David H Hurley, Erik P Luther, Miles F Beaux II, Douglas R Vodnik, Reuben J Peterson, Bryan L Bennett, Igor O Usov, Pengyu Yuan, Xinwei Wang, Marat Khafizov, Characterization of ultralow thermal conductivity in anisotropic pyrolytic carbon coating for thermal management applications, Carbon 129, 476-485, (2018). M. Khafizov, V. Chauhan, Y. Wang, F. Riyad, N. Hang, and D. H. Hurley, “Investigation of Thermal Transport in Composites and Ion Beam Irradiated Materials for Nuclear Applications, J. Mater. Res.,32, 204 (2017). M. Khafizov, J. Pakarinen, L. He, H. B. Henderson, M. V. Manuel, A. T. Nelson, B. J. Jaques, D. P. Butt, D. H. Hurley, Subsurface Imaging of Grain Microstructure Using Picosecond Ultrasonics, Acta Materialia, 112, 209 (2016). T.Y. Wang, S. Xu, D. H. Hurley, Y. N. Yue, X. W. Wang, Frequency-resolved Raman for Transient Thermal Probing and Thermal Diffusivity Measurement, Opt. Lett., 41, 80 (2016). D. H. Hurley, R. S. Schley, M. Khafizov, B. L. Wendt, Local Measurement of Thermal Conductivity and Diffusivity, Rev. Sci. Instrum. 86, 123901 (2015). Zilong Hua, Heng Ban and David Hurley, The Study of Frequency-scan Photothermal Reflectance Technique for Thermal Diffusivity, 86, 054901 (2015). Shen Xu, TY Wang, David Hurley, YN Yue, XW Wang, Development of Time-domain Differential Raman for Transient Thermal Probing of Materials, 23, 10040 (2015). J. Pakarinen, M. Khafizov, L. He, C. Wetteland, J. Gan, A. Nelson, D. H. Hurley, A. El-Azab, and T. R. Allen, Microstructure changes and thermal conductivity reduction in UO2 following 3.9 MeV He2+ ion irradiation, Journal of Nuclear Materials, 454, 283 (2014). B. Deng, A. Chernatynskiy, M. Khafizov, D. H. Hurley and S. R. Phillpot, Journal of Applied Physics, 115, 084910 (2014). M. Khafizov, C. Yablinsky, T. Allen, D. H. Hurley, Measurement of Thermal Conductivity in Proton Irradiated Silicon, Nuclear Instruments and Methods in Physics Research B, 325, 11 (2014). M. Khafizov, In-Wook Park, A. Chernatynskiy, L. He, J. Lin, J. J. More, D. Swank, T. Lilo, S. R. Phillpot, A. El-Azab, D. H. Hurley, Thermal Conductivity in Nanocrystalline Ceria Thin Films, J. Am. Ceram. Soc., 97, 562 (2014). D. Hurley, E. Piekos, S. Shinde, Book Chapter, "Interaction of Therman Phonons with Interfaces," in Length-Scale Dependent Phonon Interactions (pp 175-205), Springer, (2013). D. H. Hurley, M. Khafizov, R. J. Kennedy, E. Burgett, "Mechanical Properties of Nuclear Fuel Surrogates using Picosecond Laser Ultrasonics," in Proceedings of the 2013 International Congress on Ultrasonics, 686 (2013). In-Wook Park, Jianliang Lin, J. J. Moore, M. Khafizov, D. Hurley, M. V. Manuel, T. Allen, "Grain Growth and Mechanical Properties of CeO2-x Films Deposited on Si(100) Substrates by Pulsed DC Magnetron Sputtering, Surface and Coatings Technology, 217 34 (2013). R.S. Schley, David H. Hurley, and Z. Hua, "Optical Fiber Technique for in-reactor mechanical properties measurement," in Review of Progress in Quantitative Nondestructive Evaluation, 32B, 1701 (2013). S. J. Reese, Z. N. Utegulov, F. Farhad, R. S. Schley, D. H. Hurley, "Examination of the Epicentral Waveform for Laser Ultrasound in the Melting Regime," Ultrasonics, 53, 799 (2013). S. Bragg-Sitton, K. Barrett, I. van Rooyen, D. H. Hurley, M. Khafizov, Studying Silicon Carbide for Nuclear Fuel Cladding, "Nuclear Engineering International, May (2013). C. Xing, C, Jensen, Z. Hua, H. Ban D. H. Hurley, M. Khafizov, R. J. Kennedy, "Parametric Study of the Frequency-Domain Thermoreflectance Technique," Journal of Applied Physics, 112 (2012). F. Farzbod and D. H. Hurley, "Resonant Ultrasound Spectroscopy: Using Mode Shapes," IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 59, 2470 (2012). Article featured on Journal Cover Z. Hua, Heng Ban, M. Khafizov, R. Schley, R. Kennedy, D. H. Hurley, Spatially localized measurement of thermal conductivity using a hybrid photothermal technique, Journal of Applied Physics, 111 (2012). D. H. Hurley, S. J. Reese, F. Farzbod, Application of laser-based resonant ultrasound spectroscopy to study texture in copper, Journal of Applied Physics, 111, 53527 (2012). M. Khafizov, D. Hurley, Measurement of Thermal Transport Using Time-resolved Thermal Wave Microscopy, Journal of Applied Physics, 110, 83525 (2011). D. H. Hurley, M. Khafizov, S. Shinde, Hurley, D. Measurement of Kaptiza Resistance Across a Bicrystal Interface, Journal of Applied Physics, 109, 83504 (2011). D. H. Hurley, S. L. Shinde, V. E. Gusev, Lateral-looking Time-resolved Thermal Wave Microscopy, Journal of the Korean Physical Society, 57, 384 (2010). Seung-Kyu Park, Sung-Hoon Baik, Hyung-Ki Cha, S. J. Reese and D. H. Hurley, Characteristics of a Laser Resonant Ultrasonic Spectroscopy System for Measuring the Elastic Constants of Materials, Journal of the Korean Physical Society, 57, 375 (2010). D. H. Hurley, S. J. Reese, S. Park, Z. Utegulov, J. R. Kennedy, K. Telschow, In situ laser-based resonant ultrasound measurements of microstructure mediated mechanical property evolution, Journal of Applied Physics, 107, 063510 (2010). D. H. Hurley, O. B. Wright, O. Matsuda, and S. L. Shinde, Time Resolved Imaging of Carrier and Thermal Transport in Silicon, Journal of Applied Physics, 106 023521 (2009). Benjamin Clough, David H. Hurley, Pengyu Han, Jun Liao, Rena Huang and X.-C. Zhang, Detection of Terahertz Pulses Using a Modified Sagnac Interferometer, Sensing and Imaging, 10, 14-21 (2009). D. H. Hurley, O. B. Wright, O. Matsuda, B. E. McCandless, S. Shinde, Carrier and phonon transport in Si using ultrashort optical pulses, Proc. of SPIE, 7214, 721406, 2009. D. H. Hurley, M. Fig, Parametric Study of Thermal Interface Resistance Using Laser-Based Thermal Wave Imaging, Journal of Applied Physics, 104 123703 (2008). D. H. Hurley, R. Lewis, O. B. Wright, O. Matsuda, Coherent control of gigahertz surface acoustic and bulk phonons using ultrafast optical pulses, Applied Physics Letters, 93 113101 (2008). O. Matsuda, O.B. Wright, D.H. Hurley, M. Msall, V.E. Gusev, K. Shimizu, Coherent shear phonon generation and detection with laser picosecond acoustics, Physical Review B, 77 224110 (2008).S.J. Reese, K.L. Telschow, D.H. Hurley, On the establishment of a method for the characterization of material microstructure through laser based resonant ultrasound spectroscopy, Ultrasonics Ferroelectrics and Frequency Control (IEEE), 55, 770 (2008). Article featured on Journal cover D.H. Hurley, R. Lewis, Coherent control of optically generated and detected picosecond surface acoustic phonons, Journal of the Korean Physical Society, 51, 368 (2007). T. Tachizaki, T. Muroya, O. Matsuda, Y. Sugawara, D.H. Hurley, O.B. Wright, Scanning ultrafast Sagnac interferometry for imaging two-dimensional surface wave propagation, Review of Scientific Instruments, 77, 43713 (2006). D.H. Hurley, Optical generation and spatially distinct interferometric detection of ultrahigh frequency surface acoustic waves, Applied Physics Letters, 88, 191106 (2006). D. H. Hurley, O. B. Wright, O. Matsuda, T. Suzuki, S. Tamura, Y. Sugawara, Time-Resolved Surface Acoustic Wave Propagation Across a Single Grain Boundary, Physical Review B, 73 125403 (2006). S. Reese, D. H. Hurley, H. Rollins, Effect of Surface Acoustic Waves On The Catalytic Decomposition of Ethanol Employing a Comb Transducer for Ultrasonic Generation, , Ultrasonics Sonochemistry, 13, 283 (2006). D. H. Hurley, K. L. Telschow, Simultaneous Microscopy of Elastic and Thermal Anisotropy, Physical Review B, Rapid Communications, 71, 241410 (2005). D. H. Hurley, J. B. Spicer, Line-Source Representation for Laser-Generated Ultrasound in an Elastic Transversely Isotropic Half-Space, Journal of the Acoustical Society of America, 116, 2914 (2004). D. H. Hurley, Laser-Generated Thermoelastic Acoustic Sources in Anisotropic Materials, Journal of the Acoustical Society of America, 115, 2054, (2004). O. Matsuda, O. B. Wright, D. H. Hurley, V. E. Gusev, K. Shimizu, Coherent Shear Phonon Generation and Detection with Ultrashort Optical Pulses, Physical Review Letters, 93, 95501 (2004). D. H. Hurley,K. L. Telschow, V. Deason, Y. Sugawara, O. B. Wright, Microscopic Laser Ultrasonics for Determining Microstructure Changes due to Material Degradation, Material Science and Technology, 3, 223 (2004). D. H. Hurley, K. L. Telschow, Picosecond Surface Acoustic Waves Using a Suboptical Wavelength Absorption Grating, Physical Review B., Brief Reports, 66, 153301 (2002). D. H. Hurley, K. L. Telschow, Probing Acoustic Nonlinearity on Length-Scales Comparable to Material Grain Dimensions, Ultrasonics, 40, 617, (2002). D. H. Hurley, K. L. Telschow, Probing Acoustic Nonlinearity by Mixing Surface Acoustic Waves, Review of Progress in Quantitative Nondestructive Evaluation, 20, 1236 (2001). D. H. Hurley, O. B. Wright, O. Matsuda, V. E. Gusev and O. V. Kolosov, Laser Picosecond Acoustics in Isotropic and Anisotropic Materials, Ultrasonics, 38, 470 (2000).P. J. Shull, D. H. Hurley, J. B. Spicer, J. W. M. Spicer, Spatial and Temporal Control of the Degree of Cure in Composite Structures, Polymer Eng. Sci., 40, 1157 (2000). D. H. Hurley, O. B. Wright, Detection of Ultrafast Phenomena Using a Modified Sagnac Interferometer, Journal of Optics Letters, 24, 1305 (1999). D. H. Hurley, J. B. Spicer, Point-Source Representation for Laser-Generated Ultrasound in an Elastic Transversely Isotropic Half Space, Journal of Applied Physics, 86, 3423 (1999). D. H. Hurley, J. B. Spicer, An Investigation of the Effects of Material Anisotropy and Heterogeneity on Pulsed, Laser-Generated Acoustic Signals, Ultrasonics Ferroelectrics and Frequency Control, 46, 1387 (1999). D. H. Hurley, J. B. Spicer, Laser Generated Ultrasound in Single-Crystal Mindlin-Type Plates: Theory and Experiment, Ultrasonics, 36, 987 (1998). D. H. Hurley, J. B. Spicer, T. W. Murray, J. W. Wagner, Investigation of the Anisotropic Nature of Laser Generated Ultrasound in Zinc and Unidirectional Carbon Fiber Epoxy Composites, Ultrasonics, 36, 355 (1998). Coefficient via Analysis of Laser Generated Plate Waves, Ultrasonics Ferroelectrics and Frequency Control, 44, 902 (1997). D. H. Hurley, J. B. Spicer, J. W. Wagner, T. W. Murray, Investigation of the Anisotropic Nature of Laser Generated Ultrasound in HCP Crystals and Unidirectional Carbon Epoxy Composites, Review of Progress in Quantitative Nondestructive Evaluation, 16, 475 (1997). J. B. Spicer, D. H. Hurley, Epicentral and Near Epicenteral Displacement on Pulsed Laser Irradiated Metallic Surfaces, Applied Physics Letters, 68, 3561 (1996). J. Diaci, D. Hurley, J. W. Wagner, J. Mozina, Simultaneous Monitoring of Ablative Shocks in Air by High-Speed Cineholography and Multiple-Pass Deflection Probe, Applied Surface Science, 96-98, 154-155 (1996). </div>

Materials Characterization

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<div class="ExternalClassA56C54E78B43430F82ABE9E41821FD47">Wright, Oliver B., Hurley, David H., Matsuda, Osamu, 2003. "Two-arm sagnac interferometer with two beam splitters," Patent 6,552,799, April 22, 2003.</div>

Laboratory Fellow

<div class="ExternalClassE788DA7541A84150A657943BD803D509">Presentations (invited)M. Khafizov, J. Pakarinen, D. H. Hurley, "Laser Based Experimental Methods for Validation of Atomic Level Modeling in Nuclear Fuel," Top Fuel, Zurich, Switzerland (2015). D. H. Hurley, M. Khafizov, R. S. Schley, and E. Burgett, "Physical Properties of Nuclear Fuel Surrogates Using Laser Ultrasonics," TMS Spring Meeting, New Horizons for Mechanical Spectroscopy in Materials Science, Orlando, FL (2015). D. H. Hurley, Marat Khafizov, R. S. Schley, S. J. Reese, "Laser Resonant Ultrasound Spectrscopy," 2013 Workshop on New Directions in Resonant Ultrasound Spectroscopy, University of Chile, Santiago, Chile, August 2013. D. H. Hurley, Marat Khafizov,J. Rory Kennedy and Eric Burgett, "Mechanical Properties of Nuclear Fuel Surrogates using Picosecond Laser Ultrasonics," 2013 International Congress on Ultrasonics, Singapore, May 2013. D. H. Hurley, "Investigation of thermal transport across interfaces using time resolved thermal wave microscopy," Eighteenth Symposium on Thermophysical Properties, Boulder CO, June 2012. D.H. Hurley, S.J. Reese, R. Kennedy, F.Farzbod, R.N. Wright, Characterization of High Temperature Mechanical Properties Using Laser Ultrasound, High Power Laser Ablation Conference, Santa Fe, NM, May 2012. J. Rory Kennedy, Matthew K. Fig, David Hurley, James I. Cole, Dawn E. Janney, Advanced Measurement Techniques for Highly Radioactive Fuels and Materials, 11th Information Exchange Meeting on Actinide and Fission Product Partitioning and Transmutation, San Francisco, CA (2010). D. H. Hurley, S. J. Reese, S. L. Shinde, O. B. Wright, O. Matsuda, Bad Phonon Good Phonon, Physics Department Symposium Series, Idaho State University, Pocatello, ID (2010). D. H. Hurley, S. L. Shinde, and Sylvie Aubry, Time Resolved Thermal Transport Measurements Across a Si-Si Twist Boundary, MRS Fall Meeting, Boston, MA (2010). D. H. Hurley, S. L. Shinde, and V. E. Gusev, Lateral Looking Time-Resolved Thermal Wave Microscopy, Symposium on Laser Spectroscopy, Daejeon, Korea (2009). D. H. Hurley, O. B. Wright, O. Matsuda, B. E. McCandless, S. Shinde, Imaging carrier and phonon transport in Si using ultrashort optical pulses, Photonics West, San Jose, CA (2009). D. H. Hurley, Steve Reese, Measuring microstructure mediated elastic, plastic and thermal properties of materials using laser-based methods, Department of Mechanical Engineering Lecture Series, Utah State University, Logan (2008). D.H. Hurley, R. Lewis, S.J. Reese, Generation and detection of surface acoustic phonons using ultrafast optical pulses, MRS Fall Meeting, Phonon Engineering: Theory and Applications, Boston, MA (2007). D.H. Hurley, Simultaneous Imaging of Ballistic and Diffusive Phonon Transport Across Interfaces, MRS Spring Meeting, Symposium II: Nanoscale Heat Transport, San Francisco, CA (2007). D.H. Hurley, Laser-Based Methods for Determination of Thermal and Mechanical Properties of Materials in Harsh Environments, Nuclear Engineering Lecture Series, North Carolina State University, Raleigh, NC (2007). D.H. Hurley, R. Lewis, Overview of laser ultrasonics at Idaho National Laboratory, Symposium on Laser Spectroscopy, Daejeon, Korea (2006). D.H. Hurley, Laser Ultrasonics: Picoseconds to Milliseconds, Department of Mechanical Engineering Lecture Series, Boston University, Boston (2005). D. H. Hurley, Laser-Based Materials Characterization on Nano/Micro/Millimeter Length Scales, Department of Mechanical Engineering Lecture Series, University of Ljubljana, Slovenia (2005). D. H. Hurley, K. L. Telschow, Y. Sugawara, O.B. Wright, T. Lillo, In Situ Laser Ultrasonics for Determining Material Properties, INL Assuring Materials Performance in Extended Service Workshop, Salt Lake City, Utah (2004). D. H. Hurley, O. B. Wright, O. Matsuda, V. E. Gusev and O. V. Kolosov, Study of new transduction mechanisms for laser picosecond acoustics, Ultrasonics International, Copenhagen Denmark (1999). J. W. Wagner, J. B. Spicer, T. W. Murray, D. H. Hurley, M. Ehrlich, Fundamental Issues for Optimization of Laser Sources for Generation of Ultrasound, Third Joint Acoustical Society of America and Acoustical Society of Japan Meeting, Honolulu, Hawaii (1996). Presentations (contributed)Marat Khafizov, Janne Pakarinen, Lingfeng He, Aleksandr Chernatynskiy, Jian Gan, Simon Phillpot, Todd R. Allen, David H Hurley, Influence of Radiation Induced Microstructure on Thermal Transport In Ceramic Materials, MRS Fall Meeting, Boston, MA (2013). M. Khafizov, M. Gupta, J. Pakarinen, C. Yablinsky, L. He, B. Valderamma, M. V. Manuele, J. Gan, T. R. Allen, D. H. Hurley, Measurement of Thermal Conductivity in Ion Irradiated Materials, MRS Spring Meeting, San Francisco, CA (2013). M. Khafizov, I. Park, A. Chernatynskiy, B. Deng, J. Lin, J. J. Moore, S. Phillpot, and D. H. Hurley, Influence of grain boundary scattering on thermal transport in nuclear fuel, Phonons 2012, Ann Arbor, MI (2012). Z. Hua, M. Khafizov, D. Hurley, H. Ban and R. Kennedy, Laser-Based Measurement of Thermal Conductivity, 18th Symposium on Thermophysical Properties, Boulder, CO (2012). Zhandos Utegulov, Farhad Farzbod, Stephen Reese, Robert Schley and David Hurley, Localized Detection of Phase Transformation in Tungsten Using Laser Ultrasonics, 18th Symposium on Thermophysical Properties, Boulder, CO (2012). R. S. Schley, D. H. Hurley Z. Hua, "Optical Fiber Technique for In-reactor Mechanical Properties Measurements," 39th Annual Review of Progress in Quantitative Nondestructive Evaluation, Denver, CO, July 2012. M. Khafizov, A. Shulte, M. Gupta, Z. Hua, C. Yablinsky, T. Allen, D. H. Hurley, Gauging the Influence of Proton Irradiation on Phonon Mediated Thermal Transport, MRS Fall Meeting, Boston, MA (2011). F. Farzbod, S. J. Reese, S., D. H. Hurley, 2011, "Investigating Internal Friction with Laser Resonant Ultrasound Spectroscopy," ASME International Mechanical Engineering Congress and Exposition, Denver, Colorado, Nov. 11-17. F. Farzbod, D. H. Hurley, 2011, "Measuring Crystal Orientation by Resonant Ultrasound Spectroscopy," IEEE International Ultrasonics Symposium, Orlando, Florida, Oct. 18-21. In-Wook Park, J. Moore, J. Lin, D. H. Hurley, M. Khafizov, A. El-Azab, T. Allen, C. Yabinsky, M. Gupta, J. Gan, M. Manuel, H. Henderson, B. Valderrama, Deposition, Microstructure and Mechanical Properties of Mo-doped CeO2 Films Prepared by Pulsed Unbalanced Magnetron Sputtering, International Conference on Metallurgical Coatings and Thin Films 2012, April (San Diego). Marat Khafizov, David Hurley, I. Park, J. J. Moore, J. Lin, R. Deskins, A. El-Azab,, Thermal Transport in Ceria Thin Films Having Engineered Microstructure, Materials Research Society (MRS) Spring 2011 Meeting, April 25-29, San Francisco, CA. Marat Khafizov, David Hurley, Measurement of Thermal Transport Using Time-resolved Thermal Wave Microscopy, Materials Research Society (MRS) Spring 20011 Meeting, Aprill 25-29, San Francisco, CA. D. H. Hurley, S. J. Reese, M. K. Fig, K. L. Telschow, Laser ultrasound and thermal wave imaging used to characterize thermal, mechanical and dimensional properties of vertically inhomogeneous materials, 2007 KAERI-INL Joint Workshop: Laser Technology in Materials Characterization, Daejeon, Korea (2007). M. K. Fig, R. S. Schley, D.L. Cottle, K. L. Telschow, D. H. Hurley, R. Kennedy, Scanning Thermal Diffusivity Microscope in High Radiation Environments, 2007 KAERI-INL Joint Workshop: Laser Technology in Materials Characterization, Daejeon, Korea (2007). R. J. Reese, D. H. Hurley, S. K. Park, Characterization of microstructure using laser based resonant ultrasound spectroscopy, 2007 KAERI-INL Joint Workshop: Laser Technology in Materials Characterization, Daejeon, Korea (2007). M. K. Fig, R. S. Schley, D. L. Cottle, K. L. Telschow, D. H. Hurley, R. Kennedy, Scanning Thermal Diffusivity Microscope for High Radiation Environments, 29th International Thermal Conductivity Conference and the 17th International Thermal Expansion Symposium, Birmingham, Alabama (2007). O. Matsuda, O. B. Wright, D. H. Hurley, V. E. Gusev, K. Shimizu, Generation and Detection of Picosecond Shear Acoustic Pulses with Ultrashort Laser Pulses in Anisotropic Materials, World Congress on Ultrasonics/Ultrasonics International, Beijing, China (2005). D. H. Hurley, Simultaneous Microscopy of Elastic and Thermal Anisotropy, Seeing at the Nanoscale III, Santa Barbara, California (2005). D. H. Hurley,K. L. Telschow, V. Deason., Y. Sugawara, O. B. Wright, Microscopic Laser Ultrasonics for Determining Microstructure Changes due to Material Degradation, The Minerals, Metals & Materials Society Symposium on Materials Prognosis, New Orleans, Louisiana (2004). O. Matsuda, D. H. Hurley and O. B. Wright, Coherent TA phonon pulse generation and detection in laser picosecond acoustics, Proc. 58th Annual Meeting of the Physical Society of Japan, Okayama, Japan, Sept. 20-23, 2003, vol. 58, No. 2, pt. 4, p. 571. O. Matsuda, D. H. Hurley, K. Shimizu and O. B. Wright, Shear acoustic wave generation and detection in SiO2/Zn by laser picosecond acoustics, 5th World Congress on Ultrasound, Paris, France, Sept. 7-10, 2003, p. 143. O. Matsuda, T. Tachizaki, D. H. Hurley and O. B. Wright, Laser Picosecond Acoustics with Oblique Probe Light Incidence, Proc. Autumn Conference of the Physical Society of Japan, Kasugai, Japan, vol. 57, No. 2, pt. 4, p.638 (2002). K. L. Telschow, D. H. Hurley, Laser Acoustic Microstructure Analysis at the Micron and Nanometer Scale, Proceedings of the Twentieth Symposium on Energy Engineering Sciences, Argonne National Laboratory, Argonne, Illinois (2002). D. H. Hurley, K. L. Telschow, Probing Acoustic Nonlinearity on Length-Scales Comparable to Material Grain Dimensions, Ultrasonics International, Delft, Holland (2001). D. H. Hurley, K. L. Telschow, Probing Acoustic Nonlinearity by Mixing Surface Acoustic Waves, Review in Quantitative NDE, Ames, IA (2000). Y. Sugawara, D. H. Hurley and O. B Wright, Generation and Detection of picosecond bulk and surface waves in metal films with femtosecond optical pulses, The 6th International Workshop on Femtosecond Technology, Chiba, Japan, 1999, p. 118. D. H. Hurley, J. B. Spicer, Investigation of the Anisotropic Nature of Laser-Generated Ultrasound in Zinc and Unidirectional Carbon Epoxy Composites, Ultrasonics International, Delft, Holland (1997). D. H. Hurley, J. B. Spicer, Laser Generated Ultrasound in Single Crystal Zinc and in Unidirectional Carbon Epoxy Composites, 8th International Symposium on Nondestructive Evaluation, Boulder, Colorado (1997). D. H. Hurley, J. B. Spicer, J. W. Wagner, T. W. Murray, Investigation of the Anisotropic Nature of Laser Generated Ultrasound in HCP Crystals and Unidirectional Carbon Epoxy Composites, Review of Progress in Quantitative NDE, Brunswick, ME (1996). P. J. Shull, J. L. Champion, D. H. Hurley, J. W. Spicer, J. B. Spicer, Process Control to Reduce Over-Temperature of Resin Cure in Scrimp Manufactured Composites, 1996 Review of Progress in Quantitative NDE, Brunswick, ME (1996).</div>

david.hurley@inl.gov

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Biography