anthony.waker@ontariotechu.ca
905.721.8668 ext. 5520
- PhD in Radiation Physics London South Bank University, UK & European Joint Research Centre, Italy
- Bachelor of Science (Honours) in Applied Physics London South Bank University, UK
- H. Yamaguchi, H. Ohara and A.J. Waker, 2006, A Model for the Induction of DNA Damages and their Evolution into Cell Clonogenic Inactivation, Journal of Radiation Research, 47, pp 197-211, Japan;
- Aslam, W.V. Prestwich, F.E. McNeill and A.J. Waker, 2006, Monte Carlo Simulation Of A Neutron Irradiation Facility Developed For Accelerator Based In Vivo Neutron Activation Measurements In Human Hand Bones, Applied Radiation Isotopes 64, No 1, pp. 63-84;
- Aslam, W.V. Prestwich, F.E. McNeill and A.J. Waker, 2003, Investigating the TEPC Radiation Quality Response For Low Energy Accelerator Based Clinical Applications, Radiation Prot. Dosim. 103, No 4, pp. 311-322;
- J. Burmeister, C. Kota, R L Maughan and A. J. Waker, 2002, Characterization of Miniature Tissue-equivalent Proportional Counters for Neutron Radiotherapy Applications, Phys. Med. Biol. 47, pp. 1633-1645;
- J. Burmeister, C. Kota, R L Maughan and A. J. Waker, 2001, Miniature Tissue-equivalent Proportional Counters for BNCT and BNCEFNT Dosimetry, Med. Phys. 28 pp. 1911-1925;
- V.V. Moiseenko, A.J. Waker, R.N. Hamm, W.V. Prestwich, 2001, Calculation of Radiation-induced Damage from Photons and Tritium Beta Particles Part II. Tritium RBE and damage complexity, Radiat. Environ. Biophys 40, pp. 33-38; and
- V.V. Moiseenko, R.N. Hamm, A.J. Waker, W.V. Prestwich, 2001, Calculation of Radiation-induced Damage from Photons and Tritium Beta Particles Part I. Model formulation and basic results, Radiat. Environ. Biophys 40, pp. 23-31.
- J. Burmeister, C. Kota, R.L. Maughan, A.J. Waker, K. Riley and L. Wielopolski, 2002, Application of TEPC Microdosimetry to Boron Neutron Capture Therapy, Radiat. Prot. Dosim. 99, Number 1-4, pp. 351-352; and
- A.J. Waker, U. Schrewe, J. Burmeister, J. Dubeau and R. A. Surette, 2002, Classical Microdosimetry In Radiation Protection Dosimetry And Monitoring, Radiat. Prot. Dosim. 99, Number 1-4, pp. 311-316.
- J. Dubeau and A.J. Waker, 2003, High Sensitivity Gas Electron Multiplier for Neutron Dosimetry, COG-01-071;
- J. Dubeau and A.J. Waker, 2003, GEM and Micromesh Based Detectors for Neutron Dosimetry, COG-02-3005;
- R.A. Surette, J. Dubeau and A.J. Waker, 2002, Application of Gas Electron Multipliers to Selectively Monitor Tritium in Air, COG-02-3012; and
- J. Dubeau and A.J. Waker, 2001, Gas Micro-patterned Detectors for Personal Neutron Dosimetry, COG-00-122.
- Radiation Biophysics and Dosimetry (RADI 4220U)
This course will concentrate on providing the biophysical basis for radiation effects and health risks and the implications for ionizing radiation dosimetry and radiation protection. The course will cover the following topics: the physics of the interaction of radiation with matter; radiation damage at the molecular, sub-cellular and cellular level; tissue damage and health effects in humans; radiation quality; regulatory requirements and radiation protection dosimetry. The primary goals are to teach students the fundamental mechanisms of radiation interactions at the molecular and cellular levels and the various biological endpoints that can result. Current concerns and controversy concerning the effects of low-dose exposures will also be covered in this course. - Industrial Applications of Radiation Techniques (RADI 4430U)
An introduction to application of ionizing and non-ionizing radiation to industrial probing, gauging, imaging and monitoring. Topics include: monitors (smoke detectors, radon monitors), density gauging using alpha, beta and gamma radiation; thickness gauging using charged particles, photons and neutrons; fluid flow and void fraction measurements, element and content analysis using neutron activation analysis and fluoroscopic excitation, Mossbauer spectroscopy, industrial radiography and computed tomography using photons and neutrons; emission tomography, ultrasound and eddy current flaw detection