共查询到19条相似文献,搜索用时 109 毫秒
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提出了一种新型的基于高非线性光纤(HNLF)中非线性 偏振旋转(NPR)效应的全光逻辑门实现方案. 将两路非归零码数据信号A和B以及一路直流光同时注入HNLF, 光功率变化导致的非线性双折射在两个偏振分量上引入非线性相对相移, 从而导致光信号的偏振态旋转. 在HNLF输出端, 通过波分解复用器和偏振分束器同时滤出数据信号和直流光的正交偏振态, 从而同时实现多种基础组合逻辑, 并可以在同一段HNLF中实现较为复杂的半加器、半减器逻辑功能. 理论分析了信号光在HNLF中的偏振态演化, 以及利用HNLF中的NPR效应同时实现多种全光逻辑门的原理. 并在实验中得到了10 Gbit/s全光信号"与”、"非”、"或”、"同或”、"异或”、"A· B”、"A·B”、半加器、半减器等逻辑功能, 验证了方案的可行性. 相似文献
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提出了一种新型全光半减器组合逻辑方案.该方案基于两个半导体光放大器(SOA)和窄带光滤波器(NOBPF).利用SOA的四波混频(FWM)和交叉增益调制(XGM)效应,通过调整NOBPF的中心波长,第一个SOA产生逻辑"A·B"门,提供半减器的"借位",同时该SOA产生"同或"逻辑;第二个SOA产生"非"逻辑,两个SOA级联后产生逻辑"异或"门,提供半减器的"差"位.实验中,实现了两路10 Gb/s伪随机归零(RZ)码信号间的全光半减逻辑运算. 相似文献
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提出了一种新型的基于非线性光纤环镜(NOLM)的可重构全光逻辑门实现方案。传统的基于NOLM的全光逻辑利用自相位调制效应或交叉相位调制效应,透射传输函数重构的自由度低,可实现的逻辑门种类较少。该方案在传统的结构基础上,分析了NOLM中探测光的偏振态的演化,以及输入光偏振态和环内偏振控制器对NOLM的传输特性的影响。理论分析和数值仿真结果表明在考虑NOLM中的非线性偏振旋转效应的情况下,可以更加自由地构建不同透射传输函数,从而利用单一NOLM结构,仅通过调节偏振控制器,即能够可重构地实现绝大部分基础组合逻辑。实验中,完成了两路40Gb/s的数据信号之间的"非"、"与"、"或"、"或非"、"同或"、"异或"等各种基础组合逻辑,验证了方案的可行性。 相似文献
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在吲哚俘精酰胺/PMMA薄膜上记录了同偏振全息和正交偏振全息图,获得了它们的再现衍射像.实验结果表明:吲哚俘精酰胺具有光致各向异性,可以进行正交偏振全息记录.在偏振全息中,衍射光的偏振方向依赖于物光和再现光的偏振方向,衍射像的噪声主要来源于再现光照射到样品上引起的散射.正交偏振全息可以得到比同偏振全息更高信噪比的衍射像.存储于样品上的全息图在室温下黑暗处至少可以保存五个月而衍射效率无明显下降.结果表明,吲哚俘精酰胺是一种可用于偏振全息的可擦重写记录介质.
关键词:
偏振全息
光致各向异性
俘精酸酐
光致变色 相似文献
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实验研究了基因改性菌紫质BR_D96N薄膜在不同偏振光记录下的全息存储特性,比较了不同 偏振态记录光和读出光对衍射像光强及信噪比的影响. 实验结果表明,与其他偏振全息记录 相比,正交圆偏振光记录可实现衍射光偏振状态与散射噪声偏振状态的分离,得到高信噪比 的衍射像,同时还具有高的衍射效率. 以 He_Ne 激光器(633nm,3mW)为记录和读出光源 ,用空间光调制器作为数据输入元件,CCD作为数据读出器件,采用傅里叶变换全息记录的 方法,在 BR_D96N 薄膜样品60μm×42μm的面积上进行了正交圆偏振全息数据存储,达到 了2×108bit/cm2的存储面密度,并实现了编码数据的无误读出与 还原.
关键词:
菌紫质
偏振全息
光致变色
光致各向异性
高密度光存储 相似文献
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In this article, we propose the realization of XNOR logic function by using all-optical XOR and NOT logic gates. Initially, both XOR and NOT gates are designed, simulated and optimized for high contrast outputs. T-shaped waveguides are created on the photonic crystal platform to realize these logic gates. An extra input is used to perform the inversion operation in the NOT gate. Inputs in both the gates are applied with out of phase so as to have a destructive interference between them and produce negligible intensity for logic ‘0'. The XOR and NOT gates are simulated using Finite Difference Time Domain method which results with a high contrast ratio of 55.23?dB and 54.83?dB, respectively at a response time of 0.136?ps and 0.1256?ps. Later, both the gates are cascaded by superimposing the output branch of the waveguide of XOR gate with the input branch of the waveguide of NOT gate so that it can be resulted with compact size for XNOR logic function. The resultant structure of XNOR logic came out with the contrast ratio of 12.27?dB at a response time of 0.1588?ps. Finally, it can be concluded that the proposed structures with fair output performance can suitably be applied in the design of photonic integrated circuits for high speed computing and telecommunication systems. 相似文献
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The paper presents an alternative novel approach to obtain all-optical logic. We show that XOR, NOT, and AND logic could be
obtained by appropriately setting parameter of all-optical passive transistor. An AND gate followed by NOT gives NAND logic
(building block) that, in principle can provide complete set of passive, fiber compatible “self-trapped family” all-optical
logic gates (with Boolean completeness) and may find many possibilities in the area of all-optical computing. To give one
example, we propose all-optical half adder. 相似文献
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The paper shows the design of all-optical logic gates OR, AND, NOT, NOR, XNOR, XOR at ultra high speed by using SOA. The simulations of all logic gates are obtained by XGM and FWM in SOA at 40 Gb/s and 60 Gb/s. The OR, AND, NOR logic between two data sources are obtained using a pump signal, while another logic XNOR using two data. The NOT, XOR obtained using FWM and XGM combined. Thus realization of these logics at 40 Gb/s and 60 Gb/s will lead revolution growth in optical signal processing for high-speed operation. 相似文献
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Controllable all-optical stochastic logic gates and their delay storages based on the cascaded VCSELs with optical-injection 下载免费PDF全文
Using the dynamical properties of the polarization bistability that depends on the detuning of the injected light,we propose a novel approach to implement reliable all-optical stochastic logic gates in the cascaded vertical cavity surface emitting lasers(VCSELs) with optical-injection.Here,two logic inputs are encoded in the detuning of the injected light from a tunable CW laser.The logic outputs are decoded from the two orthogonal polarization lights emitted from the optically injected VCSELs.For the same logic inputs,under electro-optic modulation,we perform various digital signal processing(NOT,AND,NAND,XOR,XNOR,OR,NOR) in the all-optical domain by controlling the logic operation of the applied electric field.Also we explore their delay storages by using the mechanism of the generalized chaotic synchronization.To quantify the reliabilities of these logic gates,we further demonstrate their success probabilities. 相似文献
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All-optical logic gates, including OR, XOR, NOT, XNOR, and NAND gates, are realized theoretically in a two-dimensional silicon photonic crystal using the light beam interference effect. The ingenious photonic crystal waveguide component design, the precisely controlled optical path difference, and the elaborate device configuration ensure the simultaneous realization of five types of logic gate with low-power and a contrast ratio between the logic states of “1” and “0” as high as 20 dB. High power is not necessary for operation of these logic gate devices. This offers a simple and effective approach for the realization of integrated all-optical logic devices. 相似文献
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We propose a direct and flexible implementation of logic operations using the dynamical evolution of a nonlinear system. The concept involves the observation of the state of the system at different times to obtain different logic outputs. We explicitly implement the basic NAND, AND, NOR, OR and XOR logic gates, as well as multiple-input XOR and XNOR logic gates. Further we demonstrate how the single dynamical system can do more complex operations such as bit-by-bit addition in just a few iterations. 相似文献
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《Physics letters. A》2014,378(16-17):1099-1103
We demonstrate how a genetic ring oscillator network with quorum sensing feedback can operate as a robust logic gate. Specifically we show how a range of logic functions, namely AND/NAND, OR/NOR and XOR/XNOR, can be realized by the system, thus yielding a versatile unit that can morph between different logic operations. We further demonstrate the capacity of this system to yield complementary logic operations in parallel. Our results then indicate the computing potential of this biological system, and may lead to bio-inspired computing devices. 相似文献
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All-optical NOT and XOR logic operation at 2.5 Gb/s based on semiconductor optical amplifier loop mirror 下载免费PDF全文
All-optical XOR and NOT logic operations based on semiconductor optical amplifier loop mirror (SLALOM) aresimultaneously demonstrated theoretically and experimentally. Based on a segmented semiconductor optical amplifier model, the all-optical logic operation process is simulated theoretically. In an experimental study, 2.5 Gb/s all-optical XOR operation was achieved in the output port of SLALOM, while all-optical NOT operation was achieved in the input port through a circulator at the same time. 相似文献
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We propose a new structure containing multimode interference waveguides with partial nonlinear Kerr-like material whose function is like a phase shifter for all-optical logic gates. It has the advantages of compactness and insensitivity to relative phase difference between the incident beams. In this paper, we analyze the structure by finite difference time domain method and demonstrate such logic gates as AND, NOT and XOR logics. 相似文献