Spherical Scatterer(球形散射体)研究综述
Spherical Scatterer 球形散射体 - A bubble is a source of sound initially modeled as a simple spherical source and can of course behave as a spherical scatterer. [1] Problems of electromagnetic waves excitation in a space outside a spherical scatterer are external boundary value problems. [2] In particular, in this paper polarized radiation transport equation in media composed of randomly spatially distributed discrete non-spherical scatterers, the scatterer sizes being comparable with the electromagnetic radiation wavelength, has been derived from the equations of classical electrodynamics. [3] What causes scattering of ultrasound from normal soft tissues such as the liver, thyroid, and prostate? Commonly, the answer is formulated around the properties of spherical scatterers, related to cellular shapes and sizes. [4] The spherical scatterer of a radius a is assumed to be acoustically rigid; 0. [5]气泡是一种声源,最初被建模为简单的球形声源,当然也可以表现为球形散射体。 [1] 球面散射体外部空间中的电磁波激发问题属于外边值问题。 [2] 特别是,本文从经典电动力学方程推导出由空间随机分布的离散非球形散射体组成的介质中的偏振辐射传输方程,散射体尺寸与电磁辐射波长相当。 [3] 是什么导致超声波从肝脏、甲状腺和前列腺等正常软组织散射?通常,答案是围绕球形散射体的特性制定的,与细胞形状和大小有关。 [4] 假设半径为 a 的球形散射体是声学刚性的; 0。 [5]
Beyond Spherical Scatterer 超越球形散射体
Moreover, this approximation is valid beyond spherical scatterers, making its use ubiquitous in the SAXS world. [1] Moreover, this approximation is valid beyond spherical scatterers, making its use ubiquitous in the SAXS world. [2]此外,这种近似在球形散射体之外有效,使其在 SAXS 世界中无处不在。 [1] 此外,这种近似在球形散射体之外有效,使其在 SAXS 世界中无处不在。 [2]