Subsections
[Cr:4, Lc:3, Tt:1, Lb:0]
- Introduction to medical physics. Interaction of soft-matter/ tissue with X-ray, CT, Ultrasound, light, EM waves.
- Partial differential equation and modelling those interactions.
- Solving PDE with FEM and circular radon transform. Basic concept of diagnosis with matrix theory and tomography. Beer’s Lambert ray theory, Ray projections, Radon transform and its mathematical framework.
- Projections, Fourier transform, Fourier slice theorem and diagnosis of soft matter.
- Computerized Tomography like X-ray, x-ray CT, MRI, Optical methods, Ultrasound imaging, Photoacoustic and PET Imaging.
- Diffraction theory in living system. ART, Algorithms for retrieving the interior properties of tissue/materials from boundary measurements.
- J. T. Bushberg, The Essential Physics of Medical Imaging.
- B. H. Brown, Medical Physics and Biomedical Engineering, et al, IoP Publishing.
- B. K. Johnson, Optics and Optical Instruments, Dover Books, 1960 III Ed.
- John Webster, Medical Instrumentation Application and Design, Ed. John Wiley & Sons 2009.
- Herman, G. T., Image Reconstruction from Projections. Implementation and Applications, Topics in Applied Physics. Berlin-Heidelberg-New York, Springer.
