Thomas J. Corona

Thomas J. Corona

Senior R&D Engineer

T.J. Corona joined Kitware in August, 2015 as a Senior R&D Engineer in the Scientific Computing team. T.J. received his B.S. in Physics and Russian Language and Culture from Duke University in 2006, his M.S. in Physics from Massachusetts Institute of Technology in 2009, and his Ph.D. in Physics and Astronomy from the University of North Carolina at Chapel Hill in 2014. While in graduate school, T.J. was a member of the Karlsruhe Tritium Neutrino (KATRIN) experiment, where he developed high performance computing algorithms for a Boundary Element Method designed to characterize the electrostatic fields of KATRIN’s apparatus.

  1. J. Barrett, J. Formaggio, and T. Corona, "A method to calculate the spherical multipole expansion of the electrostatic charge distribution on a triangular boundary element," Progress In Electromagnetics Research B, vol. 63, p. 123–143, Jan. 2015.
  2. B. Wall, W. B.L., A. J. F., B. A., B. T., B. H. C., B. L. I., B. N. M., B. T. H., C. Z., C. T. J., D. P. J., E. S., H. F., H. G. C., H. M. A., M. E. L., P. D. S., P. D. A., P. L., R. P., R. R. G. H., S. J., S. M., V. T. D., V. B. A., W. S., W. K. J., and W. J. F., "Dead layer on silicon p-i-n diode charged-particle detectors," Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 744, p. 73–79, Apr. 2014.
  3. A. J. F., B. J., B. A., B. T., B. H., B. L. I., B. J., B. N. M., B. T. H., C. Z., C. S., C. T.J., D. P. J., D. J. A., E. S., F. J., F. J. A., F. F. M., F. D., G. H., G. F., H. F., H. G. C., H. J., H. M. A., K. A., K. J., K. M., K. A., L. M. L., M. E. L., M. K. J., M. A. W., O. N. S., P. D. S., P. D. A., and P. L., "Focal-plane detector system for the katrin experiment," Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 744, p. 73–70, Apr. 2014.
  4. J. Formaggio, P. Lazic, T. Corona, H. Stefancic, H. Abraham, and F. Gluck, "Solving for micro- and macro-scale electrostatic configurations using the robin hood algorithm," Progress In Electromagnetics Research B, vol. 39, p. 1–37, Jan. 2012.