Concept
Digital radiography
Related lectures (19)
Gamma and Neutron Radiography
Explores the historical development and industrial applications of radiography and computerized tomography with X-rays, gammas, and neutrons.
Gamma and Neutron Radiography
Explores the principles and applications of gamma and neutron radiography in industrial settings, highlighting the advantages of using neutrons and discussing special techniques and industrial applications.
Large-area sensors: X-ray Detection
Explores large-area sensors for X-ray detection, covering direct and indirect methods, detector performance metrics, and active matrix flat panel imagers.
Bone Imaging
Explores the significance of bone imaging in biomechanics, covering various modalities and techniques for image acquisition and reconstruction.
Direct Light Processing: DLP
Explores Digital Light Processing (DLP) technology, comparing it to Stereolithography (SLA) and Polyjet, discussing its process, materials, and applications.
X-ray Tomography: Principles and Applications
Explores x-ray tomography principles, including generation, interaction with matter, detection methods, and practical examples.
Non-Destructive Testing & Evaluation
Explores non-destructive testing methods for assessing object health without damage, covering visual inspection, tapping, eddy current techniques, radiography, ultrasonics, and health monitoring.
Medical Imaging: Techniques and Applications
Explores the origins and advancements in medical imaging techniques, including X-rays, CT scans, ultrasound, and optical projection tomography, as well as the use of capsule endoscopy in diagnosing gastrointestinal diseases.
Large-area sensors: Devices and Applications
Explores the principles and applications of large-area sensors, including flat panel imagers and X-ray imaging.
X-ray Detection Technologies
Explores X-ray detection technologies, including semiconductor diodes and scintillators, for applications in cancer cell imaging and particle detection.