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Lecture
Scintillation Detectors: Principles and Types
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Particle Detection and Detectors
Explores particle detection using scintillators, cloud chambers, and wire chambers for various applications.
X-ray Tomography: Principles and Applications
Explores x-ray tomography principles, including generation, interaction with matter, detection methods, and practical examples.
Scatter Discrimination and SPECT Summary
Explores techniques to discriminate scattered photons in SPECT imaging and summarizes Single Photon Emission Computed Tomography.
Photomultiplier Tubes: Configurations and Dark Current Analysis
Covers photomultiplier tubes, focusing on their configurations and the dynamics of dark current and noise equivalent power.
The Photoelectric Effect: Understanding Light and Electrons
Covers the photoelectric effect, electron emission, light quantization, and the Compton effect.
X-ray Tomography Practical: Introduction
Covers practical aspects of X-ray tomography, including photon interaction and sample intensity measurement.
Single Photon Detection: Techniques and Applications
Discusses the principles and techniques of single photon detection using photomultiplier tubes and intensified CCDs.
Photon: Quantum Properties and Experiments
Explores the quantum properties of photons, covering their wave-particle duality and implications in various experiments.
X-ray Tomography: Techniques and Applications
Explores x-ray tomography techniques, covering sources, optics, detectors, and sample considerations.
Amplitude and Phase Modulation
Covers the basics of laser operation, amplitude and phase modulation, and detectors.
