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排序方式: 共有774条查询结果,搜索用时 15 毫秒
1.
Mark Doyle Susan A. Mulligan Tetsuya Matsuda Gerald M. Pohost 《Magnetic resonance imaging》1992,10(6):887-892
A new “bright blood” strategy, outflow refreshment imaging, is introduced in which a number of overlapping slices are excited in rapid succession. Flowing spins that refresh each overlapped slice portion contribute a bright signal. Additionally, static tissue in each non-overlapped slice portion also yields a bright signal. However, the flow/static contrast is comparable to that produced in inflow refreshment images, and angiograms can be generated by conventional maximum intensity projection processing. The dual ability to visualize angiograms and static tissue images is a major benefit of the strategy. Computer simulations of flow sensitivities and in vivo results are presented which compare the outflow and inflow refreshment imaging strategies. 相似文献
2.
Liangqi Gui Wei Guo ZuYin Zhang Shu Duan 《International Journal of Infrared and Millimeter Waves》2004,25(1):63-70
The image displaying methods used in a millimeter wave radiometric imaging system have great influence on its imaging quality. In order to obtain high quality millimeter wave radiometric images, intensive studies on the image displaying methods are needed. This paper describes the image displaying method of Ground-based 8mm Millimeter Wave Radiometric Imaging (GMWRI) system and compares two different image displaying methods. The experimental results prove the unequal size element arc displaying method fits GMWRI system better. 相似文献
3.
Protease sensors for bioimaging 总被引:2,自引:0,他引:2
Optical imaging of specific molecular targets and pathways in vivo has recently become possible through continued developments in imaging equipment, reconstruction algorithms, and more importantly the availability of imaging reporter molecules. These reporter molecules encompass photoproteins expressed in vivo and exogenously administered probes detectable by fluorescence and/or bioluminescence imaging. One particularly enticing aspect of optical imaging is the ability to design activatible probes with inherent amplification. This review summarizes our experience in developing novel near-infrared fluorescent (NIRF) imaging agents that report on protease activities. These agents are designed to be biocompatible, highly activatible, and able to produce bright NIRF following protease cleavage. 相似文献
4.
A. Poglitsch J. W. Beeman N. Geis R. Genzel M. Haggerty E. E. Haller J. Jackson M. Rumitz G. J. Stacey C. H. Townes 《International Journal of Infrared and Millimeter Waves》1991,12(8):859-884
FIFI is an imaging spectrometer with two or three Fabry-Perot interferometers (FPI) in series for airborne astronomical observations in the far-infrared range (=40...200m). It employs 5×5 arrays of photoconducting detectors and offers spectral resolutions as small as 2km/s. Resolution and bandwidth can be set over a wide range to match a variety of astronomical sources. Cryogenic optics minimizes thermal background radiation and provides for in-flight step tunable spatial resolution. At 158 m wavelength the background-limited NEP is 3 × 10-15W/Hz at 40 km/s resolution and with two FPI's; with three FPI's the expected NEP is 10-15WHz at 5 km/s resolution.The frequency-chopping mode of the high-resolution Fabry-Perot allows for line detection in extended objects. Absolute internal flux calibration ensures adequate flat fielding of the array elements. 相似文献
5.
短波近红外在体荧光分子成像技术最新进展 总被引:1,自引:1,他引:0
癌症的诊断迄今所依赖的主要是一些离体检测方法以及超声波、X射线透视、X射线CT、核磁共振成像和PET等影像学技术. 癌症的确诊则以肿瘤组织或病变细胞的形态和其它宏观特征为依据, 这往往是一个侵入性和耗时的过程, 不适于癌症的早期诊断. 这些影像学技术目前也大都难以发现分子水平上的问题. 因此, 迄今癌症的早期诊断仍然是医学界面临的一个空前挑战. 光学成像方法, 特别是荧光成像方法具有对人体无害、非侵入、高灵敏和可进行在体多目标成像的优点, 随着荧光指示物的不断拓展和检测方法的不断创新, 有望在分子和细胞水平上实现癌症的早期诊断. 本文重点介绍了几项有较重要价值及工作在短波近红外区域的在体荧光成像技术的新进展. 相似文献
6.
Imaging blur changes the digital output values of imaging systems. It leads to radiometric errors when the system is used for measurement. In this paper, we focus on the radiometric error due to imaging blur in remote sensing imaging systems. First, in accordance with the radiometric response calibration of imaging systems, we provide a theoretical analysis on the evaluation standard of radiometric errors caused by imaging blur. Then, we build a radiometric error model for imaging blur based on the natural stochastic fractal characteristics of remote sensing images. Finally, we verify the model by simulations and physical defocus experiments. The simulation results show that the modeling estimation result approaches to the simulation computation. The maximum difference of relative MSE (Mean Squared Error) between simulation computation and modeling estimation can achieve 1.6%. The physical experimental results show that the maximum difference of relative MSE between experimental results and modeling estimation is only 1.29% under experimental conditions. Simulations and experiments demonstrate that the proposed model is correct, which can be used to estimate the radiometric error caused by imaging blur in remote sensing images. This research is of great importance for radiometric measurement system evaluation and application. 相似文献
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9.
Yu Li Bijaya Thapa Hua Zhang Xuefei Li Fanghua Yu Eun-Kee Jeong Zhigang Yang Zhong-Xing Jiang 《Tetrahedron》2013
A family of fluorinated gemini surfactants derived from perfluoropinacol has been synthesized as novel 19F magnetic resonance imaging (19F MRI) agents. These fluorinated surfactants with 12 symmetric fluorine atoms and one singlet 19F MR peak can be conveniently prepared from perfluoropinacol and oligo(ethylene glycols) on multi-gram scales. Solubility, hydrophilicity (log P), and critical micelle concentration (CMC) measurements of these fluorinated surfactants indicated that high aqueous solubility can be achieved by introducing oligo(ethylene glycols) with appropriate length into perfluoropinacol, i.e., manipulating the fluorine content (F%). One of these fluorinated surfactants with high aqueous solubility and excellent 19F MR properties has been identified by 19F MRI phantom experiments as a promising 19F MRI agent. 相似文献