American Registry of Radiologic Technologists (ARRT) Practice Exam

LET stands for Linear Energy Transfer in radiology, which is a crucial term used to describe the amount of energy that ionizing radiation transfers to the matter it passes through, typically tissue. This concept is significant because it helps to characterize the biological effects of different types of radiation.

Linear Energy Transfer is measured in units of energy per unit length (e.g., keV/µm), indicating how much energy is deposited by the radiation in a specific distance as it travels through a medium. High LET radiations, such as alpha particles, transfer more energy over a shorter distance compared to low LET radiations, such as x-rays or gamma rays. This difference in energy transfer has implications for radiation therapy and safety, as high LET radiation can cause more damage to biological tissues, making it more effective in killing cancer cells.

Understanding LET is essential for radiologic technologists and medical physicists when assessing radiation exposure and its potential biological effects, ultimately aiding in the optimization of treatment plans and protection protocols.