Christian M. Petrie, Ph.D.
Affiliations: | 2014 | Nuclear Engineering | Ohio State University, Columbus, Columbus, OH |
Area:
Nuclear Physics, Nuclear Engineering, Materials Science Engineering, Optics PhysicsGoogle:
"Christian Petrie"Parents
Sign in to add mentorThomas E. Blue | grad student | 2014 | Ohio State | |
(Characterization of the Performance of Sapphire Optical Fiber in Intense Radiation Fields, when Subjected to Very High Temperatures.) |
Children
Sign in to add traineeDaniel C. Sweeney | post-doc | 2019- | Oak Ridge National Laboratory (BME Tree) |
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Publications
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Sweeney DC, Birri A, Petrie CM. (2022) Hybrid method for monitoring large Fabry-Pérot cavity displacements with nanometer precision. Optics Express. 30: 29148-29160 |
Sweeney DC, Petrie CM. (2022) Expanding the range of the resolvable strain from distributed fiber optic sensors using a local adaptive reference approach. Optics Letters. 47: 269-272 |
Sweeney DC, Sweeney DM, Petrie CM. (2021) Graphical Optimization of Spectral Shift Reconstructions for Optical Backscatter Reflectometry. Sensors (Basel, Switzerland). 21 |
Sweeney DC, Schrell AM, Petrie CM. (2021) An Adaptive Reference Scheme to Extend the Functional Range of Optical Backscatter Reflectometry in Extreme Environments Ieee Sensors Journal. 21: 498-509 |
Birri A, Petrie CM, Blue TE. (2020) Analytic Thermal Model of an Optical Fiber Based Gamma Thermometer and its Application in a University Research Reactor Ieee Sensors Journal. 20: 7060-7068 |
Petrie C, Sridharan N. (2020) In situ measurement of phase transformations and residual stress evolution during welding using spatially distributed fiber-optic strain sensors Measurement Science and Technology |
Sweeney DC, Schrell AM, Liu Y, et al. (2020) Metal-embedded fiber optic sensor packaging and signal demodulation scheme towards high-frequency dynamic measurements in harsh environments Sensors and Actuators a: Physical. 312: 112075 |
Petrie CM, Sridharan N, Hehr A, et al. (2019) High-temperature strain monitoring of stainless steel using fiber optics embedded in ultrasonically consolidated nickel layers Smart Materials and Structures. 28: 085041 |
Petrie CM, Sridharan N, Subramanian M, et al. (2019) Embedded metallized optical fibers for high temperature applications Smart Materials and Structures. 28: 055012 |
Field KG, McDuffee JL, Geringer JW, et al. (2019) Evaluation of the continuous dilatometer method of silicon carbide thermometry for passive irradiation temperature determination Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions With Materials and Atoms. 445: 46-56 |