3D geometry radiation detector suitable for the detection of particles or single X photon, with high resistance to radiation damage.
Proprietario: Istituto Nazionale di Fisica Nucleare
Detectors for direct and real-time monitoring of radiation beams used during treatment, designed for the safety of the patient.
The Invention replaces brazing while maintaining the mechanical properties of metals and optimal final product performance.
Technology relates on a CAM optimized for reducing power consumption compared to the technologies already available on the market.
Technology for the characterization and quality control of high intensity ionizing radiation beams used in the therapeutic field.
Deposition of thin films on objects consisting of two concentric tubes connected at one end, by means of a magnetron sputtering technique.
Method to characterize and classify any n-D image, able to identify general properties extracted from isosurfaces.
Device that thanks to a plenoptic microscopy technique allows to obtain images with no affect on resolution.
Technique for improving image quality thanks to an innovative method of indirect synchronization of the acquisition system with the accelerator.
Technology for X-rays detection of transuranic elements' decay, where samples don't need treatment before the measurement.
Detector with micrometric apertures on its surface, which enalble to favor the passage of laser radiation without any alteration in the electrical signals.
Detector for X and γ spectroscopy, with maximized effective detection area, compatible with power supply from the anodic side only.
Device which allows to customize thermal adaptation protocols and therefore speed up the experimental activity, optimizing it.
Silicon carbide dosimetric device capable of both identifying the type of radiation and measuring the dose released on thicknesses or micrometric volumes.
X-ray radiation detector, through direct exposure of a Silicon Photo Multiplier to a radiation beam, suitable for radiotherapy and imaging.
Echo scintigraphic probe, consisting of the union of an integrated ultrasound probe with a scintigraphic probe or gamma camera, for medical applications.
Fiber-optic sensors FBG (Fiber Bragg Gratings) to monitor environmental parameters and measure material properties.
X-ray concentrator that can be used to produce a focused beam for radiotherapy applications sparing the surrounding healthy tissues.