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Accurate and fast two-step phase shifting algorithm based on principle component analysis and Lissajous ellipse fitting with random phase shift and no pre-filtering
To achieve high measurement accuracy with less computational time-in-phase shifting interferometry, a random phase-shifting algorithm based on principal component analysis and Lissajous ellipse fitting (PCA& LEF) is proposed. It doesn't need pre-filtering and can obtain relatively accurate phase distribution with only two phase shifted interferograms and less computational time and is suitable for different background intensity, modulation amplitude distributions and noises. Moreover, it can obtain absolutely accurate result when the background intensity and modulation amplitude are perfect and can partly suppress the effect of imperfect background intensity and modulation amplitude. Last but not least, it removes the restriction that PCA needs more than three interferograms with welldistributed phase shifts to subtract relatively accurate mean. The simulations and experiments verify the correctness and feasibility of PCA& LEF. (C) 2019 Optical Society of America under the terms of the OSA Open Access Publishing AgreementNational Natural Science Foundation of China (NSFC) [11304034]; Department of Science and Technology of Jilin Province [20190701018GH]; Education Department of Jilin Province [JJKH20190691KJ]; State Key Laboratory of Applied OpticsOpen access journalThis item from the UA Faculty Publications collection is made available by the University of Arizona with support from the University of Arizona Libraries. If you have questions, please contact us at [email protected]
Parallel Numerical Simulation of Complex Unsteady Multi-Component Three-Dimensional Flow Field of Nonequilibrium Chemical Reaction
In this paper, the gridless method, which is known for its complete independence of grids, is combined with parallel method to obtain a dynamic parallel multi-component three-dimensional (3D) gridless method to compute the complex unsteady multi-component 3D flow field of nonequilibrium chemical reaction (NCR). Specifically, the flow field was described with a multi-component arbitrary Lagrangian-Eulerian (ALE) control equation, which contains the source term of the chemical reaction. The flow term was decoupled from the chemical reaction term, and the stiff problem of the latter term was solved by time splitting. To control the convective flux in the control equation, the multi-component artificially upstream flux vector splitting (AUFS) scheme was derived for the 3D space. In addition, 3D local point cloud reconstruction was carried out to reconstruct the abnormal point cloud near the large moving boundary in real time. Besides, geometrical zoning was adopted for the parallel part to dynamically balance the computing load across different zones. The message passing interface (MPI) was selected to realize the communication between the zones. After that, the proposed multi-component gridless algorithm was proven accurate through two examples: hydrogen combustion reaction in a vessel, and shock-induced combustion with blunt projectile. Finally, the proposed dynamic parallel multi-component 3D gridless method was applied to compute the 3D muzzle flow field of prefilled serial-connected projectiles. The evolution of the complex flow field was obtained for projectile 2. The parallel efficiency of our method surpassed 79%
Superconducting Quantum Computing: A Review
Over the last two decades, tremendous advances have been made for
constructing large-scale quantum computers. In particular, the quantum
processor architecture based on superconducting qubits has become the leading
candidate for scalable quantum computing platform, and the milestone of
demonstrating quantum supremacy was first achieved using 53 superconducting
qubits in 2019. In this work, we provide a brief review on the experimental
efforts towards building a large-scale superconducting quantum computer,
including qubit design, quantum control, readout techniques, and the
implementations of error correction and quantum algorithms. Besides the state
of the art, we finally discuss future perspectives, and which we hope will
motivate further research.Comment: Updated version, Typos corrected, New references added, New
discussions adde
A Study of Discourse System of National Image Construction
国家形象的建构在很大程度上离不开话语
的建构,尤其是需要一套多方考虑的话语体系。
这套话语体系应该符合本国国内实际和未来的
发展需要,更重要的是要行之有效。考虑到国
家形象及其建构话语的特性,我国国家形象的
话语体系建设,首先应该把握好我国国家形象
的核心特征,同时也要把握好我国国家形象建
构的基本特性。具体来说,就是首先要把握好
我国国家形象话语的民族性、文化性、政治性、
时空性和认知性;其次要把握好我国国家形象
话语的稳定性、多维性、继承与创新性以及危
机的调控性。
The construction of discourse is indispensable to the construction of national image to a large extent, particularly a set of
discourse built from various perspectives. It must pertain to the real fact of the country and to the needs of her future development. More importantly, it must be effective. Considering the characteristics of the national image and its construction discourse, the discourse system of our country’s national image needs, first of all, to have a good treatment of the core characteristics of our country’s national image; meanwhile, it also needs to have a good handling of the basic characteristics of our country’s national image. Specifically speaking, it is necessary to take in account of factors like ethnicity, culture, politics, space-time and cognition of national image discourse for one thing; it is also necessary to take into account such factors as stability, multi-dimension, inheritance and creation, and the crisis coordination of national image discourse for another
Chaotic Motion around a Black Hole under Minimal Length Effects
We use the Melnikov method to identify chaotic behavior in geodesic motion
perturbed by the minimal length effects around a Schwarzschild black hole.
Unlike the integrable unperturbed geodesic motion, our results show that the
perturbed homoclinic orbit, which is a geodesic joining the unstable circular
orbit to itself, becomes chaotic in the sense that Smale horseshoes chaotic
structure is present in phase space.Comment: 17 pages, 4figure
Metal Recovery from Sludge through the Combination of Hydrothermal Sulfidation and Flotation
AbstractThe heavy metal in the waste can react with sulfur and be converted to metal sulfide through the hydrothermal sulfidation. For metal recovery, the synthetic metal sulfide can be enriched through subsequent flotation process. It is a novel way for the recovery of heavy metal from the sludge. In this study, the effects of liquid/solid ratio, mineralizer concentration, precursor concentration and dosage of sulfur on the sulfidation extent and floatation index were investigated. Result shows that with a precursor concentration of 15%, a Zn/S molar ratio of 1:1.2, a liquid/solid ratio of 3:1, the sulfidation extent of zinc in the sludge was greater than 92%, while the flotation recovery of zinc reached up to 45.34%. The toxicity characteristic leaching procedure (TCLP) revealed that stabilization and detoxification of heavy metals occurred during sulfidation
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