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The book discusses multiple issues associated with modern dosimetry in physics and treatment planning and how investigators from diverse world centers and institutions approach problem-solving in these important areas. It examines topics including pretreatment validation and factors affecting reference dosimetry. It also addresses unique issues affecting pediatric populations as well as the modern role of thermoluminescence validation. Several chapters discuss intensity modulation, including defining modern problems associated with both treatment planning and the definition of tumor and normal tissue contours. Furthermore, the book examines the role of imaging as both a vehicle to define tumor targets and normal tissue as well as a tool for dose validation.

Radiation dosimetry. --- Microdosimetry.

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The book discusses multiple issues associated with modern dosimetry in physics and treatment planning and how investigators from diverse world centers and institutions approach problem-solving in these important areas. It examines topics including pretreatment validation and factors affecting reference dosimetry. It also addresses unique issues affecting pediatric populations as well as the modern role of thermoluminescence validation. Several chapters discuss intensity modulation, including defining modern problems associated with both treatment planning and the definition of tumor and normal tissue contours. Furthermore, the book examines the role of imaging as both a vehicle to define tumor targets and normal tissue as well as a tool for dose validation.

Radiation dosimetry. --- Microdosimetry.

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This is a book on the practical approaches of reliability to electrotechnical devices and systems. It includes the electromagnetic effect, radiation effect, environmental effect, and the impact of the manufacturing process on electronic materials, devices, and boards.

Technology: general issues --- History of engineering & technology --- 3D-IC (three-dimensional integrated circuit) --- electromagnetic interference --- near field measurement --- SAC305 --- BGA --- low temperature --- fracture failure --- factorial design of experiment --- genetic algorithm optimization --- return loss --- multiple-input multiple-output (MIMO) --- single event effects --- linear energy transfer --- Monte Carlo simulation --- radiation hardness --- pressureless sintered micron silver joints --- deep space environment --- extreme thermal shocks --- reconstruction --- simulation --- elastic mechanical properties --- state of health --- remaining useful life --- electrochemistry based electrical model --- semi-empirical capacity fading model --- useful life distribution --- quality and reliability assurance --- single event effect --- microdosimetry --- lineal energy --- deconvolution --- gamma process --- lifetime --- measurement system analysis --- reliability estimation --- GaN --- operational amplifier --- proton therapy --- prompt gamma imaging --- 3D X-ray --- bias temperature-humidity reliability test --- conductive anodic filament (CAF) --- de-penalization --- finite element analysis --- n/a

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Applications of Medical Physics” is a Special Issue of Applied Sciences that has collected original research manuscripts describing cutting-edge physics developments in medicine and their translational applications. Reviews providing updates on the latest progresses in this field are also included. The collection includes a total of 20 contributions by authors from 9 different countries, which cover several areas of medical physics, spanning from radiation therapy, nuclear medicine, radiology, dosimetry, radiation protection, and radiobiology.

Humanities --- Social interaction --- medical imaging --- radiomics --- tomosynthesis --- acquisition angle --- percutaneous radioablation --- monte carlo dosimetry --- liver lesions --- molecular radiotherapy --- quality assurance --- in vivo dosimetry --- transmission radiation detectors --- whole breast irradiation --- MR-guided radiotherapy --- predictive models --- cervical cancer --- EOS --- conventional radiography --- computed tomography --- radiation dose --- enchondroma --- phantom --- medical worker --- radiological accident --- emergency response --- retrospective dosimetry --- ESR --- EPR --- fingernails --- antioxidant --- GEMPix --- GEMs --- Timepix --- Medipix --- radiation therapy --- hadron therapy --- microdosimetry --- gaseous detectors --- Covid-19 --- chest CT --- lungs --- HU density --- artificial intelligence --- deep learning --- medical physicist --- machine learning --- big data --- radioembolization --- internal dosimetry --- Monte Carlo-based dosimetry --- absorbed dose --- signal-noise ratio --- contrast-noise ratio --- figure of merit --- robust optimization --- high dose rate brachytherapy --- single plan approach --- median absolute deviation --- 99mTc-sestamibi --- breast-specific γ imaging --- breast cancer --- apoptosis --- theragnostic --- esophageal cancer --- neoadjuvant chemoradiation --- squamous cell carcinoma --- epicardial adipose tissue --- machine and deep learning --- partial volume effect --- quantitative analysis --- point spread function --- post-reconstruction-correction-method --- iterative reconstruction algorithms --- ASiR --- ASiR-V --- noise level --- noise spatial uniformity --- in vivo relative dosimetry --- proton --- radiotherapy --- quality controls --- beam monitoring --- nanoparticles --- scintillation --- ionizing energy deposition --- photodynamic therapy --- singlet oxygen --- protontherapy --- RBE --- radiobiology --- Geant4 --- medical imaging --- radiomics --- tomosynthesis --- acquisition angle --- percutaneous radioablation --- monte carlo dosimetry --- liver lesions --- molecular radiotherapy --- quality assurance --- in vivo dosimetry --- transmission radiation detectors --- whole breast irradiation --- MR-guided radiotherapy --- predictive models --- cervical cancer --- EOS --- conventional radiography --- computed tomography --- radiation dose --- enchondroma --- phantom --- medical worker --- radiological accident --- emergency response --- retrospective dosimetry --- ESR --- EPR --- fingernails --- antioxidant --- GEMPix --- GEMs --- Timepix --- Medipix --- radiation therapy --- hadron therapy --- microdosimetry --- gaseous detectors --- Covid-19 --- chest CT --- lungs --- HU density --- artificial intelligence --- deep learning --- medical physicist --- machine learning --- big data --- radioembolization --- internal dosimetry --- Monte Carlo-based dosimetry --- absorbed dose --- signal-noise ratio --- contrast-noise ratio --- figure of merit --- robust optimization --- high dose rate brachytherapy --- single plan approach --- median absolute deviation --- 99mTc-sestamibi --- breast-specific γ imaging --- breast cancer --- apoptosis --- theragnostic --- esophageal cancer --- neoadjuvant chemoradiation --- squamous cell carcinoma --- epicardial adipose tissue --- machine and deep learning --- partial volume effect --- quantitative analysis --- point spread function --- post-reconstruction-correction-method --- iterative reconstruction algorithms --- ASiR --- ASiR-V --- noise level --- noise spatial uniformity --- in vivo relative dosimetry --- proton --- radiotherapy --- quality controls --- beam monitoring --- nanoparticles --- scintillation --- ionizing energy deposition --- photodynamic therapy --- singlet oxygen --- protontherapy --- RBE --- radiobiology --- Geant4

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• Reference Manager
• EndNote
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Applications of Medical Physics” is a Special Issue of Applied Sciences that has collected original research manuscripts describing cutting-edge physics developments in medicine and their translational applications. Reviews providing updates on the latest progresses in this field are also included. The collection includes a total of 20 contributions by authors from 9 different countries, which cover several areas of medical physics, spanning from radiation therapy, nuclear medicine, radiology, dosimetry, radiation protection, and radiobiology.

medical imaging --- radiomics --- tomosynthesis --- acquisition angle --- percutaneous radioablation --- monte carlo dosimetry --- liver lesions --- molecular radiotherapy --- quality assurance --- in vivo dosimetry --- transmission radiation detectors --- whole breast irradiation --- MR-guided radiotherapy --- predictive models --- cervical cancer --- EOS --- conventional radiography --- computed tomography --- radiation dose --- enchondroma --- phantom --- medical worker --- radiological accident --- emergency response --- retrospective dosimetry --- ESR --- EPR --- fingernails --- antioxidant --- GEMPix --- GEMs --- Timepix --- Medipix --- radiation therapy --- hadron therapy --- microdosimetry --- gaseous detectors --- Covid-19 --- chest CT --- lungs --- HU density --- artificial intelligence --- deep learning --- medical physicist --- machine learning --- big data --- radioembolization --- internal dosimetry --- Monte Carlo-based dosimetry --- absorbed dose --- signal–noise ratio --- contrast–noise ratio --- figure of merit --- robust optimization --- high dose rate brachytherapy --- single plan approach --- median absolute deviation --- 99mTc-sestamibi --- breast-specific γ imaging --- breast cancer --- apoptosis --- theragnostic --- esophageal cancer --- neoadjuvant chemoradiation --- squamous cell carcinoma --- epicardial adipose tissue --- machine and deep learning --- partial volume effect --- quantitative analysis --- point spread function --- post-reconstruction-correction-method --- iterative reconstruction algorithms --- ASiR --- ASiR-V --- noise level --- noise spatial uniformity --- in vivo relative dosimetry --- proton --- radiotherapy --- quality controls --- beam monitoring --- nanoparticles --- scintillation --- ionizing energy deposition --- photodynamic therapy --- singlet oxygen --- protontherapy --- RBE --- radiobiology --- Geant4 --- n/a --- signal-noise ratio --- contrast-noise ratio