Monte Carlo calculations of target fragments from helium and carbon ion interactions with water [0.03%]
氦和碳离子与水相互作用的靶片段的蒙特卡罗计算
Quazi Muhammad Rashed Nizam,Asif Ahmed,Iftekhar Ahmed et al.
Quazi Muhammad Rashed Nizam et al.
When high energetic heavy ions interact with any target, short range, high linear energy transfer (LET) target fragments are produced. These target fragments (TFs) can give a significant dose to the healthy tissue during heavy ion cancer th...
An automated pipeline for computation and analysis of functional ventilation and perfusion lung MRI with matrix pencil decomposition: TrueLung [0.03%]
基于矩阵铅笔分解的全自动化功能肺通气/灌注MRI计算和分析管道:TrueLung
Orso Pusterla,Corin Willers,Robin Sandkühler et al.
Orso Pusterla et al.
Purpose: To introduce and evaluate TrueLung, an automated pipeline for computation and analysis of free-breathing and contrast-agent free pulmonary functional magnetic resonance imaging. ...
Influence of skin flap thickness on the transmission characteristics of middle ear implant audio processors [0.03%]
皮肤瓣厚度对中耳植入式助听装置声传输特性影响的实验研究
Laura Fröhlich,Torsten Rahne,Alexander Müller et al.
Laura Fröhlich et al.
Objective: To measure signal transmission characteristics for audio processors of an active middle ear implant as a function of skin flap thickness, i.e., distance between audio processor and the implant's receiver coil. ...
Erratum to "Evaluation of an anthropomorphic ion chamber and 3D gel dosimetry head phantom at a 0.35 T MR-linac using separate 1.5 T MR-scanners for gel readout" [Z Med. Phys. 32 (2022) 312-325] [0.03%]
“采用分离的1.5T磁共振成像仪进行凝胶读取的0.35T磁共振直线加速器的人体类离子室和三维水凝胶剂量计评估”一文中图4(c)(d)的勘误公告
Lukas Nierer,Florian Kamp,Michael Reiner et al.
Lukas Nierer et al.
Erratum to "Free-breathing half-radial dual-echo balanced steady-state free precession thoracic imaging with wobbling Archimedean spiral pole trajectories" [Z Med. Phys. 33 (2023) 220-229] [0.03%]
“自由呼吸半径双回波平衡稳态自由预cession胸部成像带有波动阿基米德螺旋杆轨迹”的勘误[物理医学杂志33(2023)220-229]
Oliver Bieri,Orso Pusterla,Grzegorz Bauman
Oliver Bieri
Erratum to "Volumetric 23Na single and triple-quantum imaging at 7T: 3D-CRISTINA" [Z Med Phys 32 (2022) 199-208] [0.03%]
“体素23Na单量子和三重量子成像在7T下的3D-CRISTINA方法”的勘误修正论文
Michaela A U Hoesl,Lothar R Schad,Stanislas Rapacchi
Michaela A U Hoesl
Erratum to "Commissioning and quality assurance of a novel solution for respiratory-gated PBS proton therapy based on optical tracking of surface markers" [Z Med Phys 32 (2022) 52-62] [0.03%]
“基于表面标记光学追踪的呼吸门控PBS质子治疗新型方案的验收和质量保证”的勘误公告
Giovanni Fattori,Jan Hrbacek,Harald Regele et al.
Giovanni Fattori et al.
Erratum to "A novel multipurpose device for guided knee motion and loading during dynamic magnetic resonance imaging" [Z Med Phys 32 (2022) 500-513] [0.03%]
关于“一种新颖的多用途装置在动态磁共振成像期间引导膝关节运动和负重”的勘误[Z Med Phys 32 (2022) 500-513]
Nicholas M Brisson,Martin Krämer,Leonie A N Krahl et al.
Nicholas M Brisson et al.
Erratum to "Automated parameter selection for accelerated MRI reconstruction via low-rank modeling of local k-space neighborhoods" [Z Med. Phys. 33 (2023) 203-219] [0.03%]
关于“通过局部k空间邻域的低秩建模进行加速MRI重建的自动参数选择”的勘误[物理医学杂志33(2023)203-219]
Efe Ilicak,Emine Ulku Saritas,Tolga Çukur
Efe Ilicak
Erratum to "The role of Monte Carlo simulation in understanding the performance of proton computed tomography" [Z Med Phys 32 (2022) 23-38] [0.03%]
关于“蒙特卡洛模拟在质子CT性能中的作用”的勘误注释[Z Med Phys 32 (2022) 23-38]
George Dedes,Jannis Dickmann,Valentina Giacometti et al.
George Dedes et al.