Search for a command to run...
Recent breakthroughs in silicon detector technology now permit measurement of radiated power over a wide range in photon energies.These detectors also known as AXUV photodiodes have a at spectral power response from ultra-violet to X-ray energies, and with a slightly reduced efciency all the way d o wn to visible wavelengths.Since they can be made small, multi-channel detectors allow high spatial resolution to be combined with an intrinsic high temporal resolution, which can reach the microsecond range, depending on the application.A combination of two m ultichannel toroidally viewing systems has been recently installed on the Alcator C-Mod tokamak.The rst array, which is composed of 16 channels, sees tangentially the outer half of the plasma at the midplane, and is used to measure the total power radiated.The second array, also located at the midplane, consists of 19 channels and views the edge of the plasma.This array has a 2 mm radial resolution, allowing, for example, the study of edge dynamics in high con nement H-mode plasmas.Because these detectors are largely insensitive t o neutral particles at least at particle energies of interest, it is now possible to measure the radial distribution of neutral "radiated" power emissivity, b y looking at the di erence between these measurements and those obtained with standard bolometers.Examples of applications of these measurements to the study of edge H-mode dynamics, impurity injection, disruptions, and internal barrier formation, are described.Planned upgrades and new applications for Alcator C-Mod are also discussed.