| Nome |
# |
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Compendium of examples: good practice in evaluating measurement uncertainty, file dd2573c2-f94a-e71c-e053-d805fe0ad5dc
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281
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Computational Low-Frequency Electromagnetic Dosimetry Based on Magnetic Field Measurements, file dd2573c2-c2f7-e71c-e053-d805fe0ad5dc
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154
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CSI-EPT in Presence of RF-Shield for MR-Coils, file dd2573c2-c4d7-e71c-e053-d805fe0ad5dc
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154
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Magnetic resonance-based imaging of human electric properties with phaseless contrast source inversion, file dd2573c2-c49f-e71c-e053-d805fe0ad5dc
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153
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Douglas–Gunn Method Applied to Dosimetric Assessment in Magnetic Resonance Imaging, file dd2573c2-cb76-e71c-e053-d805fe0ad5dc
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143
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RF-induced heating of metallic implants simulated as PEC: Is there something missing?, file dd2573c2-be5b-e71c-e053-d805fe0ad5dc
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141
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The underestimated role of gradient coils in MRI safety, file dd2573c2-cb01-e71c-e053-d805fe0ad5dc
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129
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A multiphase model of tumour segregation in situ by a heterogeneous extracellular matrix, file dd2573c2-c20d-e71c-e053-d805fe0ad5dc
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93
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Accuracy Assessment of Numerical Dosimetry for the Evaluation of Human Exposure to Electric Vehicle Inductive Charging Systems, file dd2573c2-c60b-e71c-e053-d805fe0ad5dc
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87
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Heating of hip joint implants in MRI: The combined effect of RF and switched‐gradient fields, file dd2573c2-b8bd-e71c-e053-d805fe0ad5dc
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78
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A fast tool for the parametric analysis of human body exposed to LF electromagnetic fields in biomedical applications, file f6d6deb7-e4a1-4d0c-8f04-d49378d766e9
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58
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Alternative Approaches to Magnetic Resonance-Based Electric Properties Tomography and Local Specific Absorption Rate Estimation, file dd2573c2-cf2a-e71c-e053-d805fe0ad5dc
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56
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EPTlib: An Open-Source Extensible Collection of Electric Properties Tomography Techniques, file dd2573c2-e28e-e71c-e053-d805fe0ad5dc
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54
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Exposure of Live-Line Workers to Magnetic Fields: A Dosimetric Analysis, file dd2573c2-bae8-e71c-e053-d805fe0ad5dc
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49
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In silico assessment of collateral eddy current heating in biocompatible implants subjected to magnetic hyperthermia treatments, file dd2573c2-fd1f-e71c-e053-d805fe0ad5dc
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44
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Gradient coil and radiofrequency induced heating of orthopaedic implants in MRI: influencing factors, file dd2573c2-f8aa-e71c-e053-d805fe0ad5dc
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38
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Monte Carlo Method for Uncertainty Propagation in Magnetic Resonance-Based Electric Properties Tomography, file dd2573c2-cba1-e71c-e053-d805fe0ad5dc
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37
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How Nucleus Mechanics and ECM Microstructure Influence the Invasion of Single Cells and Multicellular Aggregates, file dd2573c2-cab6-e71c-e053-d805fe0ad5dc
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36
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In silico evaluation of the thermal stress induced by MRI switched gradient fields in patients with metallic hip implant, file dd2573c2-b3cf-e71c-e053-d805fe0ad5dc
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32
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Optimization of Light and Nutrients Supply to Stabilize Long-Term Industrial Cultivation of Metabolically Engineered Cyanobacteria: A Model-Based Analysis, file dd2573c2-fa62-e71c-e053-d805fe0ad5dc
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18
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Mathematical modeling for the design of evolution experiments to study the genetic instability of metabolically engineered photosynthetic microorganisms, file dd2573c2-bf03-e71c-e053-d805fe0ad5dc
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13
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Anomaly Detection in Magnetic Resonance-based Electrical Properties Tomography of in silico Brains, file dd2573c2-fb8c-e71c-e053-d805fe0ad5dc
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11
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Metrological contributions to magnetic resonance-based electric properties tomography, file d54d6108-357d-4c95-983e-13e86b0eb791
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7
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Douglas–Gunn Method Applied to Dosimetric Assessment in Magnetic Resonance Imaging, file dd2573c2-cbd9-e71c-e053-d805fe0ad5dc
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6
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Repeatability and reproducibility uncertainty assessment in magnetic resonance-based electric properties tomography of a homogeneous phantom, file 69b421eb-d597-409e-a0b8-afb7ba1f4ade
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5
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Virtual precision surgery for MRI implant safety, file d34178da-a2ae-4a01-8311-eb322be81452
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5
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About alternative Approaches to Magnetic Resonance based Electric Properties Tomography, file dd2573c2-7f19-e71c-e053-d805fe0ad5dc
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5
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Combined heating of hip joint implant by radiofrequency and switched-gradient fields during MRI examination, file dd2573c2-f9ba-e71c-e053-d805fe0ad5dc
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5
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Enhancement of PNS risk in the presence of a metallic knee prosthesis, file dd2573c2-fb8b-e71c-e053-d805fe0ad5dc
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5
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Fast high‐resolution electric properties tomography using three‐dimensional quantitative transient‐state imaging‐based water fraction estimation, file 6382aa10-97c5-4a6e-8435-0e09f8a125d8
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4
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Pixel-wise uncertainty quantification in electric properties tomography, file 85acb598-28ec-4bbc-9c6a-711a24951345
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4
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null, file acff9f31-4615-439e-96d2-5ae9cb8d22f8
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4
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null, file dadf781f-60f2-4071-b066-e0f6142eaf44
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4
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Numerical Aspects in Dosimetric Analysis of Human Exposure to Wireless Power Transfer for Electric Vehicles, file dd2573c2-a7af-e71c-e053-d805fe0ad5dc
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4
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Mathematical modeling for the design of evolution experiments to study the genetic instability of metabolically engineered photosynthetic microorganisms, file dd2573c2-baea-e71c-e053-d805fe0ad5dc
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4
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Magnetic resonance-based imaging of human electric properties with phaseless contrast source inversion, file dd2573c2-c4a0-e71c-e053-d805fe0ad5dc
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4
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CSI-EPT in Presence of RF-Shield for MR-Coils, file dd2573c2-cb09-e71c-e053-d805fe0ad5dc
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4
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Imaging-based subject-specific SAR maps using B1-mapping and Electrical Properties Tomography in a heterogenous brain phantom, file df290cc8-6b76-448a-bc2c-64c5478fb41a
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4
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Automatic selection of the optimal kernel size for Helmholtz-based EPT, file 154286ba-256a-4c14-a846-76177f7706d3
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3
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Simplified modeling of implanted medical devices with metallic filamentary closed loops exposed to low or medium frequency magnetic fields, file 37267b37-043b-4321-add7-042fe8b0fca6
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3
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Helmholtz-EPT with a multichannel Tx/Rx RF coil at 3 T, file 875e2f35-55e5-4118-ba1c-6e32b1f76df0
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3
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A multiphase model of tumour segregation in situ by a heterogeneous extracellular matrix, file dd2573c2-c20e-e71c-e053-d805fe0ad5dc
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3
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How Nucleus Mechanics and ECM Microstructure Influence the Invasion of Single Cells and Multicellular Aggregates, file dd2573c2-c2f1-e71c-e053-d805fe0ad5dc
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3
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Computational Low-Frequency Electromagnetic Dosimetry Based on Magnetic Field Measurements, file dd2573c2-cb0b-e71c-e053-d805fe0ad5dc
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3
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Modeling the Interaction of Patients Carrying Implants with Electromagnetic-based Biomedical Technologies, file dd2573c2-f934-e71c-e053-d805fe0ad5dc
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3
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Towards a Metrological Characterisation of Electric Properties Tomography, file dd2573c2-f96a-e71c-e053-d805fe0ad5dc
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3
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Optimization of Light and Nutrients Supply to Stabilize Long-Term Industrial Cultivation of Metabolically Engineered Cyanobacteria: A Model-Based Analysis, file dd2573c2-fa61-e71c-e053-d805fe0ad5dc
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3
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null, file dd2573c2-fb84-e71c-e053-d805fe0ad5dc
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3
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Uncertainty assessment under repeatability conditions in Helmholtz-based electric properties tomography, file dd2573c3-0049-e71c-e053-d805fe0ad5dc
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3
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Classification Scheme of Heating Risk during MRI Scans on Patients with Orthopaedic Prostheses, file e4cdc70a-c39b-4589-a045-661b3de923d3
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3
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Repeatability and Reproducibility Uncertainty in Magnetic Resonance-Based Electric Properties Tomography of a Homogeneous Phantom, file f371a207-1bc9-4497-9d07-91a5fcd715f5
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3
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Computational dosimetry in MRI in presence of hip, knee or shoulder implants: do we need accurate surgery models?, file 03161e79-f692-431b-adda-783838d7a23d
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2
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Physiological variability in brain electric conductivity: correcting the effect of the age for the detection of pathological alterations, file 3a8dff71-599e-44f7-a07f-2bdfd3e86ab7
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2
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Evaluation and Correction of B1+-Based Brain Subject-Specific SAR Maps Using Electrical Properties Tomography, file 4c47cda1-3dfc-4466-97fe-45e2cdf5eb05
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2
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Heating of metallic biliary stents during magnetic hyperthermia of patients with pancreatic ductal adenocarcinoma: an in silico study, file 6ab5c131-b982-49d0-85de-a54e9a9db2cc
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2
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A method to assess the orientation of the maximum heating of an arbitrarily shaped object inside a homogeneous magnetic field, file 853155ad-d4d6-4b1d-9db3-8304ede2c165
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2
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Dosimetric analysis of workers exposed to magnetic fields: an Italian experience, file 8cf0b73f-0d68-4da6-8806-5812724cfd0f
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2
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A contribution to MRI safety testing related to gradient-induced heating of medical devices, file b745e020-b9ee-45e2-b960-37ba51f9bdf4
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2
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Safety, health and data management in MRI, file d13c5fdf-5c2d-48c4-b141-70283207828e
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2
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Parametric analysis of gradient-induced heating in simplified models of metallic implants, file dd2573c2-b668-e71c-e053-d805fe0ad5dc
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2
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Some advances in electric properties tomography applied to magnetic resonance imaging safety, file dd2573c2-c04a-e71c-e053-d805fe0ad5dc
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2
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Alternative Approaches to Magnetic Resonance-Based Electric Properties Tomography and Local Specific Absorption Rate Estimation, file dd2573c2-c439-e71c-e053-d805fe0ad5dc
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2
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Monte Carlo Method for Uncertainty Propagation in Magnetic Resonance-Based Electric Properties Tomography, file dd2573c2-cba0-e71c-e053-d805fe0ad5dc
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2
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null, file dd2573c2-f9b2-e71c-e053-d805fe0ad5dc
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2
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Experimental validation of simulated implant heating induced by switched gradient fields, file dd2573c2-fb89-e71c-e053-d805fe0ad5dc
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2
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Fast virtual B1-mapping for the in silico characterization of EPT, file dd2573c3-003d-e71c-e053-d805fe0ad5dc
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2
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A metrologically sound uncertainty assessment in EPT experiments on a homogeneous phantom under repeatability and reproducibility conditions, file dd47b272-58f9-44f7-97f6-3d816027cbf8
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2
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Metrological contributions to magnetic resonance-based electric properties tomography, file 0b3b6f60-3df8-458d-a474-3bacbaf7af07
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1
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Correction Factor for EPT-based Patient-Specific SAR Maps, file 92c984c7-aa28-4f78-adcd-f97d51169e0f
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1
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A Model to Analyze the Skin Heating Produced by Millimeter and Submillimeter Electromagnetic Waves, file dd2573c2-5eab-e71c-e053-d805fe0ad5dc
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1
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Parametric Analysis of Transient Skin Heating Induced by Terahertz Radiation, file dd2573c2-6144-e71c-e053-d805fe0ad5dc
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1
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A GPU-Accelerated Solver for Scattering Problems in Voxel-Based Anatomical Human Models, file dd2573c2-a7ad-e71c-e053-d805fe0ad5dc
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1
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A computational procedure for predicting the thermal effects produced by MRI gradient coils in orthopedic implants, file dd2573c2-a7b1-e71c-e053-d805fe0ad5dc
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1
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Magnetic Resonance-based EPT: Noise Propagation in an Ill-Posed Problem, file dd2573c2-ba1e-e71c-e053-d805fe0ad5dc
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1
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Thermal effects produced by gradient switching of Echo-Planar Imaging sequences in metallic hip implants, file dd2573c2-bd15-e71c-e053-d805fe0ad5dc
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1
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Heating risk by radiofrequency and switching gradient fields in the presence of metallic implants, file dd2573c2-c04c-e71c-e053-d805fe0ad5dc
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1
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Temporal electrical conductivity mapping during temperature increase using bSSFP, file dd2573c2-f7cd-e71c-e053-d805fe0ad5dc
|
1
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MRI safety application of the magnetic resonance-based electric properties tomography, file dd2573c2-f83a-e71c-e053-d805fe0ad5dc
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1
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EPTlib: an open-source C++ library of electric properties tomography methods, file dd2573c2-f9b8-e71c-e053-d805fe0ad5dc
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1
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GPU-Accelerated Finite Element and Finite Difference Methods for Scattering Problems in Voxelbased Human Models, file dd2573c2-fb87-e71c-e053-d805fe0ad5dc
|
1
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A fast tool for the parametric analysis of human body exposed to LF electromagnetic fields in biomedical applications, file dd2573c2-fdf6-e71c-e053-d805fe0ad5dc
|
1
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|
Orthopedic implants affect the electric field induced by switching gradients in MRI, file ee99ccfc-7f5b-418a-ab60-8e90e1635d79
|
1
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| Totale |
2.019 |