By
The gamma camera allows non-invasive imaging, enabling detailed diagnosis and monitoring of various medical conditions with precision. Image for illustration only. Person depicted is a model.
By
Positrons, the antimatter counterparts of electrons, are crucial in physics, enabling advances in PET scans and material science.
By
Auger electrons, crucial in surface science and medical physics, enable detailed material characterisation and targeted cancer therapies.
By
Beta particles, emitted during radioactive decay, are crucial in medical, industrial, and environmental applications due to their unique properties.
By
The Geiger counter, essential for radiation detection, has evolved significantly, impacting medicine, industry, and environmental monitoring.
By
Radiation safety requires balancing beneficial uses and risk mitigation, evolving with advances and ongoing stakeholder commitment.
By
Linear Energy Transfer is vital for understanding radiation’s biological effects and optimising cancer radiation therapy.
By
Medical physics applies physics principles to enhance healthcare diagnostics and treatment outcomes.
