Explores Tissue Optics, focusing on Optical Coherence Tomography and light scattering in photomedicine, with applications in ophthalmology, dermatology, cardiology, and gastroenterology.
Explores the radiative properties of small spheres, including Rayleigh scattering and absorption efficiencies, with a focus on Mie theory and particle characteristics.
Discusses the radiative properties of particulate media, focusing on Mie theory and its practical applications in analyzing light interactions with particles.
Delves into electron-proton scattering to probe the proton's structure through elastic and deep inelastic processes, form factors, and higher energy interactions.
Explores radiative heat transfer equilibrium between walls and isotropic scattering medium, optical thickness, Monte Carlo method, and analytical solutions.
Covers Brillouin scattering, a powerful tool in photonics, explaining material density fluctuations' impact on light and the optical effects of inelastic scatterings.
Explores the interaction of neutrons with matter, covering cross sections, reaction rates, scattering, absorption, energy dependence, and the Doppler effect.
Introduces dynamical scattering in TEM, covering single and multiple elastic scattering, 2-beam diffraction, Bloch wave theory, and scattering intensity.
