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11.
Magnetic induction (MI) communication is an effective scheme for underwater wireless communication. In this paper, we aim to design an underwater MI communication system based on Quasi-cyclic LDPC (QC-LDPC) codes. Firstly, for a given QC-LDPC code used in underwater MI communication, we propose a novel algorithm to evaluate its performance, which is named as underwater magnetic induction protograph (UWMIP) extrinsic information transfer algorithm. Furthermore, we present a differential evolution UWMIP (DE-UWMIP) algorithm, which incorporates the differential evolution method and the UWMIP algorithm. By this algorithm, we search the optimized QC-LDPC codes with best distance threshold. Simulation results show that the proposed algorithm is effective and provide a good guidance to design the underwater MI communication system. 相似文献
12.
13.
感应耦合等离子刻蚀技术研究 总被引:2,自引:0,他引:2
依据感应耦合等离子体的刻蚀机理,对影响刻蚀的两个重要参数及先进的硅刻蚀技术进行了较深入的研究,并对影响刻蚀效果的参数进行了实验研究,刻蚀出了20μm深,2μm宽的谐振器结构,得到了最佳的工艺参数。 相似文献
14.
给出了硅微机械谐振陀螺仪的结构,介绍了硅微机械谐振陀螺仪的工作原理,详细推导并给出了陀螺仪的输出频率和标度因数非线性的计算公式;基于影响谐振陀螺仪标度因数的参数,分析了由谐振器的振幅和梳齿静电驱动力引起的硅微机械谐振陀螺仪的非线性特性,给出了振动幅度与谐振频率关系的表达式.实验结果表明,陀螺仪的整体性能主要取决于谐振器振动幅度的稳定性. 相似文献
15.
A Novel Fluid Structure Interaction Experiment to Investigate Deformation of Structural Elements Subjected to Impulsive Loading 总被引:1,自引:0,他引:1
This paper presents a novel experimental methodology for the study of dynamic deformation of structures under underwater impulsive
loading. The experimental setup simulates fluid–structure interactions (FSI) encountered in various applications of interest.
To generate impulsive loading similar to blast, a specially designed flyer plate impact experiment was designed and implemented.
The design is based on scaling analysis to achieve a laboratory scale apparatus that can capture essential features in the
deformation and failure of large scale naval structures. In the FSI setup, a water chamber made of a steel tube is incorporated
into a gas gun apparatus. A scaled structure is fixed at one end of the steel tube and a water piston seals the other end.
A flyer plate impacts the water piston and produces an exponentially decaying pressure history in lieu of explosive detonation.
The pressure induced by the flyer plate propagates and imposes an impulse to the structure (panel specimen), which response
elicits bubble formation and water cavitations. Calibration experiments and numerical simulations proved the experimental
setup to be functional. A 304 stainless steel monolithic plate was tested and analyzed to assess its dynamic deformation behavior
under impulsive loading. The experimental diagnostic included measurements of flyer impact velocity, pressure wave history
in the water, and full deformation fields by means of shadow moiré and high speed photography. 相似文献
16.
17.
The bubbles have been widely used in biomedical field, military and chemical industry. The liquid jet generated by the bubble collapse through an orifice is utilized in needle-free injections and inkjet printing. In this paper we devised synchronized triggering equipment, experimentally investigated the mechanism in the interaction of an electric-spark generated a single bubble and a vertical wall with an air-back opening. Detailed observations were recorded and described for bubble oscillation, migration, jetting, as well as the high-speed water spike penetrating through the opening. The results revealed that there was a critical value of the bubble-wall distance, below which the bubble was directed away from the incomplete boundary, while the bubble may tear from the middle for larger distance. As the distance varied, we studied the volume of the water that rushed through the opening, the velocity at the tip of the water spike, and the center of the bubble as well as the migration of the bubble boundary. This work reveals that the high-speed water spike caused by the bubble may be a potential threat to the structures, specifically for cases with a small opening size and short bubble-boundary distance. 相似文献
18.
《Current Applied Physics》2019,19(9):984-986
A highly symmetric ZnO micro-fence is prepared to form an optical resonator, which a symmetric array consisting of six elongated hexagonal microcolumns. It is found that the luminescence emission could be enhanced at the edge of ZnO micro-fence and the wavelength dependent light intensity could be influenced by its geometry. The optical characterization along with theoretical calculations and computer simulation analysis suggest that the Fabry-Perot and Cross-whispering gallery modes are generated in ZnO micro-fence. The individual ZnO micro-fence can regarded as an optical resonator structure. Furthermore, it is proposed that the source concentration around the substrate during the growth is a crucial factor for forming such a micro-fence. 相似文献
19.
Since the quality factor of an acoustic wave resonator (AWR) reached 1011, AWRs have been regarded as a good carrier of quantum information. In this paper, a scheme to construct a NOON state with two AWRs assisted by a nitrogen‐vacancy‐center ensemble (NVE) is proposed. The two AWRs cross each other vertically, and the NVE is located at the center of the crossing. By considering the decoherence of the system and using resonant interactions between the AWRs and the NVE, and the single‐qubit operation of the NVE, a NOON state can be achieved with a fidelity higher than 98.8% when the number of phonons in the AWR is . 相似文献
20.
A 2D hole‐type hexagonal lattice photonic crystal is utilized, herein, to detect the refractive index change of the material infiltrated into the designed circular sensing area which also resembles a ring resonator. The accuracy of the detection process is enhanced considering the simultaneous shift of the resonance wavelengths and the intensity modulation which occur in two separate spectral regions. The presented structure has the ability to detect liquids, material concentrations in fluids and gases having refractive indices in the range of n = 1–2 with sensitivity and quality factor of 61 nm/RIU and 3000, respectively, for resonance‐wavelength‐shift‐based operation. The detection range of n = 1–1.4 with the sensitivity of S = 0.69 NI/RIU is achieved for the intensity‐based measurement and the results show good linearity in the operating range. 相似文献