- Ph.D., The Ohio State University, 1989
- M.S., Tuskegee Institute, 1978
- B.S., Tsing-Hua University, Taiwan, 1976
Began at Tech in Fall 1991 as an Assistant Professor. Prior was an Assistant Professor at Kansas State University.
- Nuclear and Radiological Engineering/Medical Physics; Radiation detection, nuclear material assay, nanodosimetry, biophysical modeling of radiation-induced cell damages, and neutron therapies for cancer.
Dr. Wang recently developed a nanodosimetry-based biophysical model for predicting survival fractions of cells that have been irradiated with various types of ionizing radiation. This model is being fine-tuned to make it applicable to radiation therapy modalities using neutrons and carbon ions. The model is also being expanded to include chromosome aberrations as the end point so that it can be used to predict cancer risks for low dose exposure.
Dr. Wang has worked for many years with the Oak Ridge National Lab (ORNL) and recently succeeded in producing a new generation of miniature high-intensity Cf-252 sources for neutron brachytherapy (NBT) for treating radioresistant cancers. He is currently working on a dosimetry protocol for calibrating and characterizing the new-generation Cf-252 NBT sources.
Dr. Wang has also been working on a new type of neutron detector that employs gas electron multipliers (GEM). This new detector has a plate-like geometry as opposed to the traditional cylindrical or spherical geometry. The major advantage is that many GEM-based detectors can be stacked together to significantly increase detection efficiency. As such, applications of the detector are being proposed for radiation protection and homeland security.
- Advisor to the Sigma Xi (Georgia Tech) Best Ph.D. Thesis Award, 1997
- Registered Professional Engineer in Kansas
- Wang, C. K. and Zhang, X., “A Nanodosimetry-Based Linear-Quadratic Model of Cell Survival for Mixed-LET Radiations,” Physics in Medicine and Biology, Vol. 51, pp. 6087-6098, 2006.
- Yeo, I. and Wang, C. K., “A New Approach to Film Dosimetry for High-Energy Photon Radiotherapy,” Physics in Medicine and Biology, 44, pp. 3055-3069, 1999.
- Evans, T. M. and Wang, C. K., “Measurement of Distributions of Small-Scale Energy Depositions from Low-Linear Energy Transfer Particles Using the Superheated Drop Detector,” Radiation Research, 151, pp. 19-30, 1999.
- Wang, C. K., Lim, W. and Pan, L. K., "Superheated Liquid Dispersion Technique for Measuring Alpha-Emitting Actinides in Environmental Samples," Nuclear Instruments and Methods in Physics Research, A353, pp. 524-527, 1994.
- Wang, C.K., Blue, T. E. and Gahbauer, R., "A Neutronic Study of an Accelerator-Based Neutron Irradiation Facility for BNCT", Nuclear Technology, Vol. 84, No. 1, pp. 93-107, January 1989.