Imaginary Poynting momentum(IPM)provides a new degree of freedom for particle manipulation.However,the application of IPM in experiments has been largely unexplored.Here,we demonstrate the IPM-driven particle rotation...Imaginary Poynting momentum(IPM)provides a new degree of freedom for particle manipulation.However,the application of IPM in experiments has been largely unexplored.Here,we demonstrate the IPM-driven particle rotation by cylindrically polarized Gaussian(CPG)beams that have no spin or orbital angular momentum.展开更多
With the increasing and refined applications of silicone rubber devices in the biomedical field,it is of great significance to accurately describe and predict the mechanical behavior of them under large deformation.Th...With the increasing and refined applications of silicone rubber devices in the biomedical field,it is of great significance to accurately describe and predict the mechanical behavior of them under large deformation.This paper finds that after con-sidering the influence of higher-order shear strain on the normal stress,the Poynting effect in ribbed silicone rubber tubes with certain cross-sectional shapes exhibits a new phenomenon―a non-monotonic trend between axial deformation and twist angle.This paper develops a nonlinear finite element program for simulating large deformations of hyperelastic materials,and studies the Poynting effect in ribbed circular tubes of twisted silicone rubber.The results show that in the ribbed circular tubes with a porosity between 12% and 40%(with the number of ribs ranging from 12 to 26),there appears a normal to reverse conversion of the Poynting effect,that is,the axial extension ratio first decreases and then increases during a monotonic loading process,indicating that the influence of higher-order shear strain on normal stress cannot be ignored when the cross-sectional shape is complex.Especially in ribbed circular tubes with about 20% porosity,a substantial change of axial normal strain from−0.035% to 0.035% can be achieved within a twist angle range of 180°.Based on this,the quantitative influence of higher-order shear strain on normal stress is studied.These research results provide a theoretical basis for accurately controlling the axial expansion and contraction of twisted parts and indicate that a normal to reverse conversion of the Poynting effect can be implemented by designing the cross-sectional shape under certain conditions.展开更多
Prestack reverse time migration(PSTM) is a common imaging method; however low-frequency noises reduce the structural imaging precision. Thus, the suppression of migration noises must be considered. The generation me...Prestack reverse time migration(PSTM) is a common imaging method; however low-frequency noises reduce the structural imaging precision. Thus, the suppression of migration noises must be considered. The generation mechanism of low-frequency noises is analyzed and the up-, down-, left-, and right-going waves are separated using the Poynting vector of the acoustic wave equation. The computational complexity and memory capacitance of the proposed method are far smaller than that required when using the conventional separation algorithm of 2D Fourier transform. The normalized wavefield separation crosscorrelation imaging condition is used to suppress low-frequency noises in reverse time migration and improve the imaging precision. Numerical experiments using the Marmousi model are performed and the results show that the up-, down-, left-, and right-going waves are well separated in the continuation of the wavefield using the Poynting vector. We compared the imaging results with the conventional method, Laplacian filtering, and wavefield separation with the 2D Fourier transform. The comparison shows that the migration noises are well suppressed using the normalized wavefield separation cross-correlation imaging condition and higher precision imaging results are obtained.展开更多
We propose a method based on the Poynting vector that combines angle-domain imaging and image amplitude correction to overcome the shortcomings of reverse-time migration that cannot handle different angles during wave...We propose a method based on the Poynting vector that combines angle-domain imaging and image amplitude correction to overcome the shortcomings of reverse-time migration that cannot handle different angles during wave propagation. First, the local image matrix (LIM) and local illumination matrix are constructed, and the wavefield propagation directions are decomposed. The angle-domain imaging conditions are established in the local imaging matrix to remove low-wavenumber artifacts. Next, the angle-domain common image gathers are extracted and the dip angle is calculated, and the amplitude-corrected factors in the dip angle domain are calculated. The partial images are corrected by factors corresponding to the different angles and then are superimposed to perform the amplitude correction of the final image. Angle-domain imaging based on the Poynting vector improves the computation efficiency compared with local plane-wave decomposition. Finally, numerical simulations based on the SEG/EAGE velocity model are used to validate the proposed method.展开更多
In this paper,a high-precision electromagnetic measurement system suitable for a hightemperature and high-speed plasma is built to provide a platform for scientific research on the interaction mechanism of the electro...In this paper,a high-precision electromagnetic measurement system suitable for a hightemperature and high-speed plasma is built to provide a platform for scientific research on the interaction mechanism of the electromagnetic fields and a plasma.This paper presents a method to measure the electromagnetic field inside a plasma by using a probe and Poynting vector conversion,which is a new and completely different method from the traditional method of measuring the electromagnetic field inside plasma.In addition,for this system and method,this work designs a microstrip antenna probe that can suppress multipath effects.This method is confirmed to be valid and usable after closed-loop verification by the CST software.展开更多
We study the controversy about the proper determination of the electromagnetic energy-flux field in anisotropic materials, which has been revived due to the relatively recent experiments on negative refraction in meta...We study the controversy about the proper determination of the electromagnetic energy-flux field in anisotropic materials, which has been revived due to the relatively recent experiments on negative refraction in metamaterials. Rather than analyzing energy-balance arguments, we use a pragmatic approach inspired by geometrical optics, and compare the predictions on angles of refraction at a flat interface of two possible choices on the energy flux: and . We carry out this comparison for a monochromatic Gaussian beam propagating in an anisotropic non-dissipative anisotropic metamaterial, in which the spatial localization of the electromagnetic field allows a more natural assignment of directions, in contrast to the usual study of plane waves. We compare our approach with the formalism of geometrical optics, which we generalize and analyze numerically the consequences of either choice.展开更多
The Poynting vector includes time-independent contributions which, since they represent photons of zero frequency, need to be absent;this removal resolves several paradoxes that arise when they are left in place;furth...The Poynting vector includes time-independent contributions which, since they represent photons of zero frequency, need to be absent;this removal resolves several paradoxes that arise when they are left in place;furthermore, magnetic monopoles, if they existed, would be accompanied by a Lenz’s law that defies conservation of energy suggesting that magnetic charges might not be found in Nature.展开更多
基金National Key Research and Development Program of China(2023YFF0722600)National Natural Science Foundation of China(62435007,62135003,62205267,62205265,12574329)+2 种基金Natural Science Basic Research Program of Shaanxi Province(2022JM-321,2024JC-YBMS494)Shaanxi Fundamental Science Research Project for Mathematics and Physics(23JSY010)Fundamental Research Funds for the Central Universities(xzy012023033)。
文摘Imaginary Poynting momentum(IPM)provides a new degree of freedom for particle manipulation.However,the application of IPM in experiments has been largely unexplored.Here,we demonstrate the IPM-driven particle rotation by cylindrically polarized Gaussian(CPG)beams that have no spin or orbital angular momentum.
基金supported by the National Natural Science Foundation of China(Grant Nos.52009107 and 11972285)the Youth Innovation Team Project of Shaanxi Provincial Department of Education(Grant No.21JP079).
文摘With the increasing and refined applications of silicone rubber devices in the biomedical field,it is of great significance to accurately describe and predict the mechanical behavior of them under large deformation.This paper finds that after con-sidering the influence of higher-order shear strain on the normal stress,the Poynting effect in ribbed silicone rubber tubes with certain cross-sectional shapes exhibits a new phenomenon―a non-monotonic trend between axial deformation and twist angle.This paper develops a nonlinear finite element program for simulating large deformations of hyperelastic materials,and studies the Poynting effect in ribbed circular tubes of twisted silicone rubber.The results show that in the ribbed circular tubes with a porosity between 12% and 40%(with the number of ribs ranging from 12 to 26),there appears a normal to reverse conversion of the Poynting effect,that is,the axial extension ratio first decreases and then increases during a monotonic loading process,indicating that the influence of higher-order shear strain on normal stress cannot be ignored when the cross-sectional shape is complex.Especially in ribbed circular tubes with about 20% porosity,a substantial change of axial normal strain from−0.035% to 0.035% can be achieved within a twist angle range of 180°.Based on this,the quantitative influence of higher-order shear strain on normal stress is studied.These research results provide a theoretical basis for accurately controlling the axial expansion and contraction of twisted parts and indicate that a normal to reverse conversion of the Poynting effect can be implemented by designing the cross-sectional shape under certain conditions.
基金supported by the National Natural Science Foundation of China(No.41174087,41204089)the National Oil and Gas Major Project(No.2011ZX05005-005)
文摘Prestack reverse time migration(PSTM) is a common imaging method; however low-frequency noises reduce the structural imaging precision. Thus, the suppression of migration noises must be considered. The generation mechanism of low-frequency noises is analyzed and the up-, down-, left-, and right-going waves are separated using the Poynting vector of the acoustic wave equation. The computational complexity and memory capacitance of the proposed method are far smaller than that required when using the conventional separation algorithm of 2D Fourier transform. The normalized wavefield separation crosscorrelation imaging condition is used to suppress low-frequency noises in reverse time migration and improve the imaging precision. Numerical experiments using the Marmousi model are performed and the results show that the up-, down-, left-, and right-going waves are well separated in the continuation of the wavefield using the Poynting vector. We compared the imaging results with the conventional method, Laplacian filtering, and wavefield separation with the 2D Fourier transform. The comparison shows that the migration noises are well suppressed using the normalized wavefield separation cross-correlation imaging condition and higher precision imaging results are obtained.
基金sponsored by the Natural Science Fund of Heilongjiang Province(No.F201404)
文摘We propose a method based on the Poynting vector that combines angle-domain imaging and image amplitude correction to overcome the shortcomings of reverse-time migration that cannot handle different angles during wave propagation. First, the local image matrix (LIM) and local illumination matrix are constructed, and the wavefield propagation directions are decomposed. The angle-domain imaging conditions are established in the local imaging matrix to remove low-wavenumber artifacts. Next, the angle-domain common image gathers are extracted and the dip angle is calculated, and the amplitude-corrected factors in the dip angle domain are calculated. The partial images are corrected by factors corresponding to the different angles and then are superimposed to perform the amplitude correction of the final image. Angle-domain imaging based on the Poynting vector improves the computation efficiency compared with local plane-wave decomposition. Finally, numerical simulations based on the SEG/EAGE velocity model are used to validate the proposed method.
基金supported by National Natural Science Foundation of China(No.61627901)。
文摘In this paper,a high-precision electromagnetic measurement system suitable for a hightemperature and high-speed plasma is built to provide a platform for scientific research on the interaction mechanism of the electromagnetic fields and a plasma.This paper presents a method to measure the electromagnetic field inside a plasma by using a probe and Poynting vector conversion,which is a new and completely different method from the traditional method of measuring the electromagnetic field inside plasma.In addition,for this system and method,this work designs a microstrip antenna probe that can suppress multipath effects.This method is confirmed to be valid and usable after closed-loop verification by the CST software.
文摘We study the controversy about the proper determination of the electromagnetic energy-flux field in anisotropic materials, which has been revived due to the relatively recent experiments on negative refraction in metamaterials. Rather than analyzing energy-balance arguments, we use a pragmatic approach inspired by geometrical optics, and compare the predictions on angles of refraction at a flat interface of two possible choices on the energy flux: and . We carry out this comparison for a monochromatic Gaussian beam propagating in an anisotropic non-dissipative anisotropic metamaterial, in which the spatial localization of the electromagnetic field allows a more natural assignment of directions, in contrast to the usual study of plane waves. We compare our approach with the formalism of geometrical optics, which we generalize and analyze numerically the consequences of either choice.
文摘The Poynting vector includes time-independent contributions which, since they represent photons of zero frequency, need to be absent;this removal resolves several paradoxes that arise when they are left in place;furthermore, magnetic monopoles, if they existed, would be accompanied by a Lenz’s law that defies conservation of energy suggesting that magnetic charges might not be found in Nature.
