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The Medical Linear Accelerator (LINAC) is the cornerstone technology of modern external beam radiation therapy, a sophisticated device that generates high-energy X-rays and electrons for the precise destruction of cancer cells while meticulously sparing surrounding healthy tissue, fundamentally driving the field of oncology.

Its core mechanism involves accelerating electrons in a vacuum chamber, guiding them toward a heavy metal target to produce high-energy X-rays via a process called bremsstrahlung, or using the electron beam directly for superficial tumor treatment, all under exceptionally precise computer control.

The functional components of a LINAC are complex and highly integrated. It includes an electron gun (the source of electrons), a waveguide (where electrons are accelerated by microwave energy), and a treatment head. Within the treatment head, the beam is shaped and refined. Key technological advancements include the **multileaf collimator (MLC)**, a device consisting of hundreds of small, individually controlled metal leaves that dynamically shape the beam's cross-section to conform precisely to the three-dimensional volume of the tumor. This enables advanced techniques like **Intensity-Modulated Radiation Therapy (IMRT)** and **Volumetric Modulated Arc Therapy (VMAT)**, which deliver a non-uniform dose of radiation across the tumor volume, further protecting critical organs. Furthermore, **Image-Guided Radiation Therapy (IGRT)** systems, often built directly into the LINAC, use on-board imaging (e.g., cone-beam CT) to verify the tumor's position immediately before and during treatment, correcting for patient setup errors and internal organ motion, ensuring sub-millimeter accuracy in radiation delivery.