获取生物组织的双折射信息可望是其应用之一。
One of its applications is possible for obtaining birefringence information of biological tissues.
细胞层次或组织层次的生物组织就更不是线性的了。
Biological organization at the cellular or organismal levels is even less linear.
一种思考的方法是:想想生物组织体,我们听到很多了。
One way to think about this is thinking about biological organisms, which we've heard a lot about.
荧光是测定生物组织中的氧化产物的一个比较灵敏的方法。
Fluorescence methods provide a relatively sensitive measure of oxidation products in biological tissues.
本文研究了生物组织B型超声图像灰度与其温度的相关性。
In this paper, we study the relativity of B mode ultrasound image gray and temperature in Tissue.
基于生物组织电生理的特性,我们研制了慢性小脑刺激系统。
We have developed a chronic cerebellar stimulation system which is based on the electrophysiological characteristics of biological tissue.
其主要任务是研究超声波在生物组织中的传播特性、规律及其应用。
Its main task is to study spread characteristics, laws and applications in the living beings organization of supersonic wave. I.
激光辐照参数对生物组织消融特性尤其是消融阈值有着重要的影响。
Irradiation parameters have great influence on tissue ablation characteristics, especially on ablation threshold.
首先,本文介绍了生物组织的介电特性及微波检测的基础和背景材料。
At first, the dielectric characteristic of biology tissue, the bases of microwave detecting and background materials are introduced in this paper.
但是艾德所发现的,是地球上大多数的生物组织是不靠视觉和听觉来交流的。
But what Ed was discovering is that most organisms on Earth do not communicate by sight and sound.
同时,指出了现在生物组织、血液等效电模型存在的一些问题及改进的思路。
Meanwhile, some problems and considerations on the improvement of the electricity model of biotic tissue and blood were pointed out.
生物组织散射元平均间距是描述生物组织微观结构和超声散射特性的重要参数。
Average scatterer spacing is one of the important parameters in describing the biological tissue microstructure and its ultrasonic scattering characteristics.
利用这三种成像方法对多种生物组织,特别对正常和病变的生物组织进行非线性参量成像。
The experimental imaging by using these methods are performed on several kinds of soft tissues, especially for normal and pathological biological tissues.
方法实验采用了双积分球系统和光辐射测量技术的基本原理以及运用生物组织的光学模型。
Methods a double-integrating-spheres system, basic principle of measuring technology of light radiation and biological tissues optical model were used for the study.
兰格在组织工程方面也有颇多建树,包括发明了诸如人工皮肤在内的生物组织合成替代品等。
Langer has also made innovations in tissue engineering, including synthetic replacement for biological tissues such as artificial skin.
在多层生物组织模型下,提出了一种利用近红外光谱技术定量无损检测组织氧饱和度的方法。
Based on the model of multilayered biological tissue, a method to measure tissue oxygenation saturation by using noninvasive near infrared spectroscopy was present.
水在生物组织内的流动程度,可以由一个被称为表观扩散复合系数(ADC)的参数去量化之。
The extent of water mobility within biological tissues can be quantified by a parameter called the apparent diffusion coefficient (ADC).
在高散射的生物组织图像中,散斑具有双重身份,即作为噪声源和作为组织微结构的信号载体。
In images of highly scattering biological tissues, speckle has a dual role as a source of noise and as a source of carrier of information about tissue microstructure.
研究结果表明:利用GA可有效地反演出生物组织的分层厚度信息和生物组织的某些德拜参数。
Calculation results prove that using GA can well efficaciously reconstruct the information of biological tissues, such as thickness and Debye parameters.
人造大脑已揭示了这进化史上最令人印象深刻的1.5公斤重的生物组织——大脑——的一些内部运作机制。
The artificial brain is already revealing some of the inner workings of the most impressive 1.5kg of biological tissue ever to evolve.
到目前为止,多种生物组织在可见光到近红外范围内的光学参数值,已经通过各种测量技术得到。
The visible and near-infrared optical parameters of many different kinds of biological tissues have been obtained by different measuring methods so far.
研究生物组织中的光子传输模型和光子传输规律,是开展在体生物光学成像研究的两个关键环节。
The photon propagation model and photon propagation rule are two key components of bioluminescent imaging.
将表面等离子体共振技术引入到生物组织折射率测量研究中,从理论上,探讨了该方法的测试原理;
Surface plasmon resonance technology was introduced into the testing study of the refractive index of biological tissues, whose testing theory is discussed theoretically.
目的建立一项用于反映抗氧化剂或生物组织抗氧化能力的指标——总氧自由基清除能力(TOSC)。
Objective to establish a new marker, total oxyradical scavenging capacity (TOSC), for evaluating the protective potential of antioxidant and bio-tissues.
至少在理论上我们应该能够模仿在自然界发现的这些机制,因为在所有生物组织中有一部分实际上是电系统。
Theoretically at least we should be able to copy these mechanisms found in nature, for all biological organisms are in part actually electrical systems.
结果:生物组织介电常数的测量,利用模拟六端口反射计测试系统是可以满足要求的,结果具有实际意义。
It is satisfaction of using measure system of simulation six-port reflectometer to measure the biology tissues, its results has actual meaning.
所有生物组织中的DNA都处于被高度活跃的化学物质和辐射的不停攻击之下,而且DNA复制过程中经常出错。
The DNA in all organisms is under constant attack from highly reactive chemicals and radiation, and errors are often made when it is copied.
本文拟建立一套实验装置,测量双层生物组织模拟体中的光分布,并将实验结果与理论计算的结果进行了比较。
The paper will set up an experimental system, measure the light distribution in two layer tissue phantoms, and compare the experimental results with the Monte Carlo modeling.
本文拟建立一套实验装置,测量双层生物组织模拟体中的光分布,并将实验结果与理论计算的结果进行了比较。
The paper will set up an experimental system, measure the light distribution in two layer tissue phantoms, and compare the experimental results with the Monte Carlo modeling.
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