69 research outputs found
Radiation effects induced in pin photodiodes by 40- and 85-MeV protons
Get PDFPIN photodiodes were bombarded with 40- and 85-MeV protons to a fluence of 1.5 x 10 to the 11th power p/sq cm, and the resulting change in spectral response in the near infrared was determined. The photocurrent, dark current and pulse amplitude were measured as a function of proton fluence. Changes in these three measured properties are discussed in terms of changes in the diode's spectral response, minority carrier diffusion length and depletion width. A simple model of induced radiation effects is presented which is in good agreement with the experimental results. The model assumes that incident protons produce charged defects within the depletion region simulating donor type impurities
Accuracy of dose planning for prostate radiotherapy in the presence of metallic implants evaluated by electron spin resonance dosimetry
Get PDFTU-D-BRB-04: Comparison Between the Ultraviolet and 6 MV Radiation Responses of Optically Stimulated Radiation Detectors and Their Potential Applications in Ultraviolet Phototherapy Dosimetry
Full text linkSU-E-T-101: Two-Peak Ratio Method in LiF Thermoluminescent Dosimeters to Determine the LET and the Separate Absorbed Dose Components in a Mixed Radiation Field for Applications in Radiation Therapy
Full text linkSU-GG-T-272: Evaluation of the Use of Optically Stimulated Luminescent Detectors and Thermoluminescent Detectors for Measuring the Output of Self-Shielded X-Ray Units and the Absorbed Dose to Patients from a CT Procedure
Full text linkSU-E-T-47: Peak Temperature Ratio Analysis of TLD Glow Curves to Characterize Orthovoltage X-Rays in Terms of Their LET
Full text linkSU-E-T-263: Luminescent Dosimetry to Measure the Out-Of-Field Low and High LET Dose Components in High Energy Photon and Proton Therapy Beams
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WE-G-218-02: The Measurement of Absorbed Dose to Active Intravenous Cardiac Devices in Patients Undergoing Radiotherapy
Full text linkSU-E-T-441: First Results Using Thermoluminescent Chips to Estimate Neutron Doses Near Proton Dose Delivery Regions in Solid Water Phantoms
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