-
公开(公告)号:US20090236510A1
公开(公告)日:2009-09-24
申请号:US12276013
申请日:2008-11-21
Applicant: Frederic Lacroix , Luc Beaulieu , Sam Beddar , Mathieu Guillot , Luc Gingras , Louis Archambault
Inventor: Frederic Lacroix , Luc Beaulieu , Sam Beddar , Mathieu Guillot , Luc Gingras , Louis Archambault
CPC classification number: G02B6/4298 , G01T1/02 , G01T1/201 , G01T1/29
Abstract: A radiation dosimetry apparatus and method use a scintillating optical fiber array for detecting dose levels. The scintillating optical fiber detectors generate optical energy in response to a predetermined type of radiation, and are coupled to collection optical fibers that transmit the optical energy to a photo-detector for conversion to an electrical signal. The detectors may be embedded in one or more modular, water-equivalent phantom slabs. A repeatable connector couples the collection fibers to the photo-detector, maintaining the fiber ends in a predetermined spatial relationship. The detector fibers may be distributed as desired in a three-dimensional detection space, and may be oriented with their longitudinal axes at different orientations relative to a transmission axis of an incident radiation beam. A calibration method uses two measurements in two spectral windows, one with irradiation of the scintillator at a known dose and one with only irradiation of the collection fiber.
Abstract translation: 辐射剂量测定装置和方法使用闪烁光纤阵列来检测剂量水平。 闪烁光纤检测器响应于预定类型的辐射产生光能,并且耦合到收集光纤,其将光能传输到光电检测器以转换为电信号。 检测器可以嵌入在一个或多个模块化的水当量幻影板中。 可重复的连接器将收集光纤耦合到光检测器,将光纤端部保持在预定的空间关系。 检测器光纤可以根据需要在三维检测空间中分布,并且可以相对于入射辐射束的透射轴线以其纵轴线以不同的取向定向。 校准方法在两个光谱窗口中使用两个测量,一个以已知剂量的闪烁体照射,另一个仅照射收集纤维。
-
公开(公告)号:US08870375B2
公开(公告)日:2014-10-28
申请号:US13318339
申请日:2010-04-22
Applicant: Cécile Petignaud , Benjamin Rousseau , Mathieu Guillot , Pauline Colas , Jean Sahler , Valérie Parmentier , Gilles Garcin , Cécile Pietri
Inventor: Cécile Petignaud , Benjamin Rousseau , Mathieu Guillot , Pauline Colas , Jean Sahler , Valérie Parmentier , Gilles Garcin , Cécile Pietri
CPC classification number: G02C7/061 , G02C7/024 , G02C7/028 , G02C2202/08
Abstract: A method for calculating or optimizing an ophthalmic lens design comprising the steps of providing a given ophthalmic lens design and assessing the given design by a computer comprising a media suitable for storing electronic instructions.
Abstract translation: 一种用于计算或优化眼科镜片设计的方法,包括以下步骤:提供给定的眼科镜片设计并通过包括适合于存储电子指令的介质的计算机评估给定的设计。
-
公开(公告)号:US08183534B2
公开(公告)日:2012-05-22
申请号:US12276013
申请日:2008-11-21
Applicant: Frederic Lacroix , Luc Beaulieu , Sam Beddar , Mathieu Guillot , Luc Gingras , Louis Archambault
Inventor: Frederic Lacroix , Luc Beaulieu , Sam Beddar , Mathieu Guillot , Luc Gingras , Louis Archambault
CPC classification number: G02B6/4298 , G01T1/02 , G01T1/201 , G01T1/29
Abstract: A radiation dosimetry apparatus and method use a scintillating optical fiber array for detecting dose levels. The scintillating optical fiber detectors generate optical energy in response to a predetermined type of radiation, and are coupled to collection optical fibers that transmit the optical energy to a photo-detector for conversion to an electrical signal. The detectors may be embedded in one or more modular, water-equivalent phantom slabs. A repeatable connector couples the collection fibers to the photo-detector, maintaining the fiber ends in a predetermined spatial relationship. The detector fibers may be distributed as desired in a three-dimensional detection space, and may be oriented with their longitudinal axes at different orientations relative to a transmission axis of an incident radiation beam. A calibration method uses two measurements in two spectral windows, one with irradiation of the scintillator at a known dose and one with only irradiation of the collection fiber.
Abstract translation: 放射剂量测定装置和方法使用闪烁光纤阵列来检测剂量水平。 闪烁光纤检测器响应于预定类型的辐射产生光能,并且耦合到收集光纤,其将光能传输到光电检测器以转换为电信号。 检测器可以嵌入在一个或多个模块化的水当量幻影板中。 可重复的连接器将收集光纤耦合到光检测器,将光纤端部保持在预定的空间关系。 检测器光纤可以根据需要在三维检测空间中分布,并且可以相对于入射辐射束的透射轴线以其纵轴线以不同的取向定向。 校准方法在两个光谱窗口中使用两个测量,一个以已知剂量的闪烁体照射,另一个仅照射收集纤维。
-
-
Search Results
3
records
(took 0.02 seconds)
