共查询到19条相似文献,搜索用时 125 毫秒
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本文研究了全息存储实验中以波长532 nm的半导体激光器作为记录和读出光源,碱性品红作为光敏剂的丙烯酰胺基光致聚合物薄膜的光致光衍射现 象.它可以考虑为透过全息干涉条纹的原始入射光和反射光,与来自光聚物中未曝光的不均匀表面和内部的散射光四波混频的结果.根据简并四波混频理论中的位相匹配条件对双光束全息写入时产生的衍射光锥,以及单光束辐照复现时产生的衍射光锥现象分别做出了理论解释;并且利用全息散射理论结合三角学知识对入射光的入射角与衍射光锥的锥角的依赖关系进行了深入讨论. 相似文献
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光学散射方法被广泛用于获取海洋微生物的形态和浓度信息.通过测量散射光的空间分布可以测量海洋微生物的形态和浓度;而最近发现,散射光的偏振特征却对细胞内部亚微米级散射颗粒更加敏感.把海洋微生物等效为粒径远大于入射波长的“米氏”粒子和远小于入射波长的“瑞利”粒子的混合体,以两种不同粒径的实心球作为微生物偏振光散射模型.利用蒙... 相似文献
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本文讨论了全息片的等效薄透镜特性,并应用于象散彩虹全息的光路分析和设计,提出了满足横向两维视角放大率与轴向放大率匹配的条件。实验结果是满意的。 相似文献
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全息片的薄透镜特性及其在象散彩虹全息中的应用 总被引:1,自引:0,他引:1
本文讨论了全息片的等效薄透镜特性,并应用于象散彩虹全息的光路分析和设计,提出了满足横,向两维视角放大率与轴向放大率匹配的条件。实验结果是满意的。 相似文献
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在造波水槽进行了100kW波力电站气室模型性能试验。测定了设计波周期下,不同入射波高时的ΔPav-Qav、ηA-Qav、NA-Qav以及不同喷咀比时的ΔPav-Qav曲线。还测定了两种喷咀比下,不同入射波高时,波力电站气室性能随波周期变化曲线。数据表明,该气室的设计和建造虽受到站址地形条件和施工条件的诸多制约,但仍有较高的波能转换效率。 相似文献
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通过理想模型的解析解对河口悬移质泥沙输沙中恢复饱和过程与潮流不对称耦合作用下的长期净输运机制进行了研究,并给出了二者耦合作用下的悬沙长期净输运的定量表达及悬沙净输运方向与分潮相对位相的关系。研究认为,悬沙的长期净输运与泥沙的恢复饱和过程及潮流不对称存在密切关系。对于仅单频潮波作用的情况,恢复饱和过程不会导致悬沙净输运的产生;分潮与余流的相互作用将产生与余流方向一致的净输运;悬沙的净输运方向与潮流不对称的方向并不完全一致;对于频率满足一定条件的分潮的组合,不论该分潮组合是否导致潮流不对称,均会产生悬沙的净输运;净输运量是分潮组合中各分潮流速的振幅、相对位相及相对恢复饱和时间的函数。对于某一分潮组合,悬沙净输运与潮流不对称方向改变时,二者的相对位相阈值之间的偏差随恢复饱和时间的增大而增大。 相似文献
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壳聚糖特性粘度的快速测定 总被引:4,自引:0,他引:4
对比不同生产厂家、不同分子量 (或粘度 )、不同脱乙酰度的壳聚糖产品在 2种不同测定条件 (30℃ ,0 .1mol· L-1CH3 COONa- 0 .2 mol· L-1CH3 COOH为溶剂 ;2 5℃ ,0 .2 mol· L-1Na Cl-0 .1mol· L-1CH3 COOH为溶剂 )下利用常规外推法和常用一点法经验公式所得的壳聚糖的特性粘度值表明 :一点法经验公式计算所得的壳聚糖的特性粘度值与用常规外推法所得的特性粘度值间的偏差最小 ,适合于快速测定壳聚糖特性粘度 ,进而可求得其粘均分子量 相似文献
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基于非静压单相流模型NHWAVE建立了高精度数值波浪水槽。通过设计不同的计算工况,系统研究了非淹没刚性植物对海啸作用下海堤周围水动力特性的影响。着重分析了不同入射波高、不同植物分布密度以及不同植物分布宽度条件下海啸波沿程波形特征以及海堤堤顶越浪流空间分布特征。结果表明:不同入射波高、植物分布密度以及植物宽度条件下,堤顶流厚度和水体流速具有明显单调的变化趋势,并且随着植物分布密度和宽度增大,波能衰减增大;随着入射波非线性增强,植物分布密度和分布宽度对堤顶前段水流厚度的影响也随之增强,而对堤顶后段水流厚度的影响则减弱,且堤顶后缘水流厚度约为堤顶前缘厚度的二分之一;在波浪非线性较大情况下,植物的存在对堤顶流速度的空间分布趋势几乎没有影响,但相对堤顶流速度增加程度均大于无植物情况,且堤顶后缘水流速度约为堤顶前缘的1.6倍。 相似文献
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太湖水中可溶性有机质,悬浮质和浮游藻类色素的光学特性的测定 总被引:1,自引:0,他引:1
本文着重分析了分光光度计测定的太湖水体中悬浮质、可溶性有机质和浮游藻类色素在可见光波段(400nm—700nm)的吸收;讨论了对池塘及两种高等植物色素吸收的对比测定;并利用迭代回归方法对测试样品的散射效应进行了订正。结果表明:(1)可溶性有机质吸收在短波部分较强;并且随着入射波长的增大,吸收几乎呈指数律减小,减小速率比国外海洋中的测量结果小。(2)水中悬浮质对光具有较强的散射作用,散射系数约按入射波长呈倒数变化。(3)不同植物中的色素的吸收光谱有明显差异。此外,利用所测数据,本文还对冬季太湖水体的反射光谱和向下光照衰减系数进行了数值计算,表明该水体对入射光照的反射和衰减与纯净水情况有很大差别,目此,太湖水光学特性研究中必须考虑水中物质的影响。 相似文献
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本文提出了一种新型的多波长全光再生方案,利用相位时钟光纤光参量放大,并采用相邻信道偏振正交的方法,实现对由异步信源产生的双波长信号全光再生.理论分析了参量放大中的增益饱和现象用于幅度噪声抑制,以及利用相位时钟及后续色散实现对信号定时的机理.在这个基础上,对两个独立信源产生的异步双波长10 Gbit/s信号进行再生实验,实验表明该方案有效的抑制了基于多波长3R再生系统中信道间的四波混频与交叉相位调制等非线性干扰.系统在单波长和双波长情况下分别将两路信号信噪比改善了至少6.5 dB与4.5 dB.误码率测试结 相似文献
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The synchronization problem over fading dispersive channels is discussed. Although stated in general terms, the results are equally applicable to sonar and undersea problems in which the propagation medium has significant multipath spread and fluctuation rate. Optimum detection over such channels requires a perfect knowledge of the channels' scattering functions, which completely characterize the behavior of fading dispersive channels. Lack of such knowledge may result in performance degradation. A closed-form expression for the probability of false alarm and probability of detection is given, and a set of curves is provided to demonstrate the amount of degradation due to mismatch conditions. A parallel structure to achieve acquisition is suggested, and its performance is investigated. A performance measure for the synchronizer in this mode is defined. Upper and lower bounds on the performance measure are derived. The effect of various parameters, such as the signal-to-noise ratio, pulse width and modulation, number of pulses, spread of the channel, and the size of the resolution cell on the performance of the synchronizer is investigated. After achieving acquisition, the system needs to switch to the tracking mode. An optimum closed-loop symbol synchronizer is developed 相似文献
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Dispersion properties of photon density waves propagating in seawater from a unidirectional point source have been studied using the Monte Carlo technique. It is shown that the spatial distribution of irradiance of the photon density waves at high modulation frequencies is significantly different from that of the stationary light field. Principal dispersion effects predicted earlier in the approximation solutions of the nonstationary radiation transfer equation are confirmed. An increase in the wave decrement and a decrease in the transversal cross section of the initially narrow beam at the modulation frequency with the increase of the modulation frequency are demonstrated. Frequency dependencies of phase and group velocities of photon density waves are calculated. It is shown that seawater possesses anomalous dispersion in a wide frequency range with respect to these waves. 相似文献
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A modulation technique for increasing the reliable data rate achievable by an underwater acoustic communication system is presented and demonstrated. The technique, termed spatial modulation, seeks to control the spatial distribution of signal energy such that the single physical ocean channel supports multiple parallel communication channels. Given a signal energy constraint, a communication architecture with access to parallel channels will have increased capacity and reliability as compared to one with access to a single channel. Results from two experiments demonstrate higher obtainable data rates and power throughput for a system employing spatial modulation than for one that does not. The demonstrated benefits were characterized by an equivalent SNR gain of over 5 dB in the first experiment. In the second experiment, using two element source and receiver arrays with apertures of 0.9 m, a coherently modulated signal was shown to offer nearly 50% greater capacity by using spatial modulation than by using temporal modulation alone. 相似文献
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Recent advances in high-speed underwater acoustic communications 总被引:4,自引:0,他引:4
In recent years, underwater acoustic (UWA) communications have received much attention as their applications have begun to shift from military toward commercial. Digital communications through UWA channels differ substantially from those in other media, such as radio channels, due to severe signal degradations caused by multipath propagation and high temporal and spatial variability of the channel conditions. The design of underwater acoustic communication systems has until recently relied on the use of noncoherent modulation techniques. However, to achieve high data rates on the severely band-limited UWA channels, bandwidth-efficient modulation techniques must be considered, together with array processing for exploitation of spatial multipath diversity. The new generation of underwater communication systems, employing phase-coherent modulation techniques, has a potential of achieving at least an order of magnitude increase in data throughput. The emerging communication scenario in which the modern underwater acoustic systems mill operate is that of an underwater network consisting of stationary and mobile nodes. Current research focuses on the development of efficient signal processing algorithms, multiuser communications in the presence of interference, and design of efficient modulation and coding schemes. This paper presents a review of recent results and research problems in high-speed underwater acoustic communications, focusing on the bandwidth-efficient phase-coherent methods. Experimental results are included to illustrate the state-of-the-art coherent detection of digital signals transmitted at 30 and 40 kb/s through a rapidly varying one-mile shallow water channel 相似文献
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In this paper, we investigate the performance of adaptive modulation (AM) orthogonal frequency division multiplexing (OFDM) system in underwater acoustic (UWA) communications. The aim is to solve the problem of large feedback overhead for channel state information (CSI) in every subcarrier. A novel CSI feedback scheme is proposed based on the theory of compressed sensing (CS). We propose a feedback from the receiver that only feedback the sparse channel parameters. Additionally, prediction of the channel state is proposed every several symbols to realize the AM in practice. We describe a linear channel prediction algorithm which is used in adaptive transmission. This system has been tested in the real underwater acoustic channel. The linear channel prediction makes the AM transmission techniques more feasible for acoustic channel communications. The simulation and experiment show that significant improvements can be obtained both in bit error rate (BER) and throughput in the AM scheme compared with the fixed Quadrature Phase Shift Keying (QPSK) modulation scheme. Moreover, the performance with standard CS outperforms the Discrete Cosine Transform (DCT) method. 相似文献
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This paper demonstrates experimentally and numerically that a significant modification of spontaneous emission rate can be achieved near the surface of a three-dimensional photonic crystal. In experiments, semiconductor core-shell quantum dots are intentionally confined in a thin polymer film on which a three-dimensional colloidal photonic crystal is fabricated. The spontaneous emission rate of quantum dots is characterised by conventional and time-resolved photoluminescence (PL) measurements. The modification of the spontaneous emission rate, which is reflected in the change of spectral shape and PL lifetime, is clearly observed. While an obvious increase in the PL lifetime is found at most wavelengths in the band gap, a significant reduction in the PL lifetime by one order of magnitude is observed at the short-wavelength band edge. Numerical simulation reveals a periodic modulation of spontaneous emission rate with decreasing modulation strength when an emitter is moved away from the surface of the photonic crystal. It is supported by the fact that the modification of spontaneous emission rate is not pronounced for quantum dots distributed in a thick polymer film where both enhancement and suppression are present simultaneously. This finding provides a simple and effective way for improving the performance of light emitting devices. 相似文献
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A number of existing models for surface wave phase speeds (linear and non-linear, breaking and non-breaking waves) are reviewed and tested against phase speed data from a large-scale laboratory experiment. The results of these tests are utilized in the context of assessing the potential improvement gained by incorporating wave non-linearity in phase speed based depth inversions. The analysis is focused on the surf zone, where depth inversion accuracies are known to degrade significantly. The collected data includes very high-resolution remote sensing video and surface elevation records from fixed, in-situ wave gages. Wave phase speeds are extracted from the remote sensing data using a feature tracking technique, and local wave amplitudes are determined from the wave gage records and used for comparisons to non-linear phase speed models and for non-linear depth inversions. A series of five different regular wave conditions with a range of non-linearity and dispersion characteristics are analyzed and results show that a composite dispersion relation, which includes both non-linearity and dispersion effects, best matches the observed phase speeds across the domain and hence, improves surf zone depth estimation via depth inversions. Incorporating non-linearity into the phase speed model reduces errors to O(10%), which is a level previously found for depth inversions with small amplitude waves in intermediate water depths using linear dispersion. Considering the controlled conditions and extensive ground truth, this appears to be a practical limit for phase speed-based depth inversions. Finally, a phase speed sensitivity analysis is performed that indicates that typical nearshore sand bars should be resolvable using phase speed depth inversions. However, increasing wave steepness degrades the sensitivity of this inversion method. 相似文献