Technische Universität Dortmund (Sebastian Engell, Sakthi Thangavel, Anwesh Reddy Gottu Mukkula, Afaq Ahmad).Slovak University of Technology in Bratislava (Radoslav Paulen, Juraj Oravec, Petra Valiauga, Carlos E.Dr.Title: Reliable and Real-time Feasible Estimation and Control of Chemical Plants The modules in this area also include the lectures "Accelerator Physics I and II" and the seminar "Detectors, Sensor Technology". The aim is to offer the basic course for all students, and the advanced course accordingly only for those students who are aiming for a Master's thesis in the field of radiotherapy in a clinical setting. In addition to the lecture "Advanced Clinical Medical Physics" and the lecture on proton therapy, this also includes the seminar "Radiation Therapy, Nuclear Medicine, Radiology" and the practical course "Radiation Planning".įurthermore, the "Radiation Protection Course", which is to run regularly once a year from the summer semester 2015, is very essential for granting the MPE. In the area of clinical medical physics, content is taught that is typically a prerequisite for medical physics experts (MPE) in hospitals. The prerequisite for participation in this focus is successful participation in the module Radiation Physics I of the Bachelor's degree programme in Medical Physics or a comparable course. This area is home to classical topics of medical physics, such as the individual physical methods for therapy and diagnostics with an emphasis on radiation physics and nuclear physics methods. Furthermore, methods for processing the acquired image data are taught. ![]() The imaging methods covered are in many cases tomographic methods (magnetic resonance tomography (MRT), computer tomography (CT), optical coherence tomography (OCT), positron emission tomography (PET), single positron emission computer tomography (SPECT), ultrasound diffraction tomography (USCT)), in which sectional images are generated from the measurement of integral relationships of physical parameters by reconstruction. All steps from data acquisition to the image and its further processing and automatic analysis (computer-aided diagnosis) are taught. On the other hand, all clinically relevant imaging procedures used for the diagnosis of these organ systems are dealt with in their physical and mathematical basics as well as the special features of their technical realisation and their application. cardiovascular system, respiration, sense of sight), which are frequently affected by diseases and in whose diagnostics/therapy there is a strong medical technology penetration. On the one hand, physiological basics of important organ/functional systems are taught (e.g. This area is home to classic topics of medical physics, such as the individual physical methods for therapy and diagnostics with a focus on imaging. You will be enabled to evaluate systems in which plasmas interact with biological systems and to assess the individual reaction channels such as radiation damage by plasma particles, effect of UV and VUV radiation and thermal influences.Īdvanced course "Nuclear Physics in Medicine Special attention is given to non-equilibrium atmospheric pressure plasmas. You will gain an insight into the description and diagnostics of low-temperature plasmas and their use in medicine for sterilisation or modification of cells. You can determine your individual focus in close exchange with the module tutors.
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