Tutorials in Radiotherapy Physics
-10%
portes grátis
Tutorials in Radiotherapy Physics
Advanced Topics with Problems and Solutions
McDermott, Patrick N.
Taylor & Francis Ltd
07/2017
320
Dura
Inglês
9781138445680
15 a 20 dias
750
Descrição não disponível.
The Physics of Electron Acceleration in Medical Linacs. Proton Therapy Physics: Protons for Pedestrians. Convolution/Superposition Dose Computation Algorithms. Deterministic Radiation Transport: A Rival to Monte Carlo Methods. Tumor Control and Normal Tissue Complication Probability Models in Radiation Therapy.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Medical Physics;Radiological Physics;Radiation therapy;radiation oncology;dose calculation algorithms;linear accelerators;proton therapy;Boltzmann transport equation;radiation transport;Fermi-Eyges theory;normal tissue complication probability;Pencil Beam;tumor control probability;Charged Particles;Dose Distribution;Energy Fluence;Dose Calculations;Treatment Planning System;Beam Current;Differential Fluence;Point Dose Kernel;NTCP Curve;Isochronous Cyclotron;Incident Energy Fluence;NTCP;Bragg Peak;Pencil Beam Kernel;Multiply Scattered Photons;Tcp;Total Fluence;Standing Wave;Proton Beam;Primary Photons;Inhomogeneous Irradiation;Scattered Photons;Shunt Impedance
The Physics of Electron Acceleration in Medical Linacs. Proton Therapy Physics: Protons for Pedestrians. Convolution/Superposition Dose Computation Algorithms. Deterministic Radiation Transport: A Rival to Monte Carlo Methods. Tumor Control and Normal Tissue Complication Probability Models in Radiation Therapy.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Medical Physics;Radiological Physics;Radiation therapy;radiation oncology;dose calculation algorithms;linear accelerators;proton therapy;Boltzmann transport equation;radiation transport;Fermi-Eyges theory;normal tissue complication probability;Pencil Beam;tumor control probability;Charged Particles;Dose Distribution;Energy Fluence;Dose Calculations;Treatment Planning System;Beam Current;Differential Fluence;Point Dose Kernel;NTCP Curve;Isochronous Cyclotron;Incident Energy Fluence;NTCP;Bragg Peak;Pencil Beam Kernel;Multiply Scattered Photons;Tcp;Total Fluence;Standing Wave;Proton Beam;Primary Photons;Inhomogeneous Irradiation;Scattered Photons;Shunt Impedance
