The effect of the deformation condition on the axial compressive precision forming process of tube with curling die was investigated by using a rigid-plastic FEM. The results show that the forming accuracy depends mai...The effect of the deformation condition on the axial compressive precision forming process of tube with curling die was investigated by using a rigid-plastic FEM. The results show that the forming accuracy depends mainly on geometric condition rp/d0, little on tube material properties and friction condition; the relative gap △/2rp of double-walled tubes obtained decreases with Increasing rp/d0, and there is a parameter k for a given to/do or rp/t0, when rp/d0 >k, △/2rp< 1, otherwise △/2rp>1.展开更多
Effective Hamiltonians in periodically driven systems have received widespread attention for realization of novel quantum phases, non-equilibrium phase transition, and Majorana mode. Recently, the study of effective H...Effective Hamiltonians in periodically driven systems have received widespread attention for realization of novel quantum phases, non-equilibrium phase transition, and Majorana mode. Recently, the study of effective Hamiltonian using various methods has gained great interest. We consider a vector differential equation of motion to derive the effective Hamiltonian for any periodically driven two-level system, and the dynamics of the spin vector are an evolution under the Bloch sphere. Here, we investigate the properties of this equation and show that a sudden change of the effective Hamiltonian is expected. Furthermore, we present several exact relations, whose expressions are independent of the different starting points. Moreover, we deduce the effective Hamiltonian from the high-frequency limit, which approximately equals the results in previous studies. Our results show that the vector differential equation of motion is not affected by a convergence problem, and thus, can be used to numerically investigate the effective models in any periodic modulating system. Finally, we anticipate that the proposed method can be applied to experimental platforms that require time-periodic modulation, such as ultracold atoms and optical lattices.展开更多
As greater attention is paid to energy consumption and global warming, magnetic refrigeration (MR) technologies based on the magneto-caloric effect (MCE) have been developed. Systems based on MR are expected to be...As greater attention is paid to energy consumption and global warming, magnetic refrigeration (MR) technologies based on the magneto-caloric effect (MCE) have been developed. Systems based on MR are expected to be more compact, energy efficient, and environmentally safe compared with traditional vapor-cycle refrigeration technologies .展开更多
In this manuscript, we will discuss about the quantum mechanical system for the movement of non-intractable particle, non-intractable particle which attends every mass state in the universe, the form of a non-intracta...In this manuscript, we will discuss about the quantum mechanical system for the movement of non-intractable particle, non-intractable particle which attends every mass state in the universe, the form of a non-intractable particle is <i>n</i> = -<i>m</i>, this manuscript defines the stable cross system for the movement of <i>n</i>-<i>i</i> particles and elementary particles with a perfect black body at centre with proofs of picture of super massive black hole, the linear hamiltonian of the cross quantum mechanical system and with this, it’s co-related matrixes, then by the use of cross system of Non-Intractable Particles defining a new right angel theorem. Then the new black body relation free from plank constant depends on non interactive mechanics and <i>m</i>, which has already mentioned in non-interactive mechanics and it’s relation with galaxies. The unique property of cross system is that it is surrounded by the energy of 10e + e always, and at last the relation between zero point energy and dark energy.展开更多
The first-principles-based effective Hamiltonian scheme provides one of the most accurate modeling techniques for large-scale structures,especially for ferroelectrics.However,the parameterization of the effective Hami...The first-principles-based effective Hamiltonian scheme provides one of the most accurate modeling techniques for large-scale structures,especially for ferroelectrics.However,the parameterization of the effective Hamiltonian is complicated and can be difficult for some complex systems such as high-entropy perovskites.Here,we propose a general form of effective Hamiltonian and develop an active machine-learning approach to parameterize the effective Hamiltonian based on Bayesian linear regression.The parameterization is employed in molecular dynamics simulations with the prediction of energy,forces,stress and their uncertainties at each step,which decides whether first-principles calculations are executed to retrain the parameters.Structures of BaTiO_(3),PbTiO_(3),Pb(Zr_(0.75)Ti_(0.25))O_(3),and(Pb,Sr)TiO_(3)system are taken as examples to show the accuracy of this approach,as compared with conventional parametrization method and experiments.This machine-learning approach provides a universal and automatic way to compute the effective Hamiltonian parameters for any considered complex systems with super-large-scale(more than 107 atoms)atomic structures.展开更多
When femtosecond laser pulses interfere with chirped femtosecond laser pulses in As2S3 fiber, a chirped fiber grating is formed. An analytical expression is given to describe the chirped grating, and its Bragg reflect...When femtosecond laser pulses interfere with chirped femtosecond laser pulses in As2S3 fiber, a chirped fiber grating is formed. An analytical expression is given to describe the chirped grating, and its Bragg reflectivity is calculated. Because of the high photosensitive effect of As2S3 material, the chirped fiber grating has a wide Bragg reflective spectrum and high reflectivity by choosing proper parameters. This indicates that the chirped fiber grating can be used as a stretcher in the femtosecond chirped pulse amplification (CPA) system.展开更多
We report the numerical observation of discrete spatial solitons in a periodically poled lithium niobate waveguide array by applying an electrical field through electro-optical effect. We show that discrete spatial so...We report the numerical observation of discrete spatial solitons in a periodically poled lithium niobate waveguide array by applying an electrical field through electro-optical effect. We show that discrete spatial soliton can be controlled by applied voltage in the periodically poled lithium niobate.展开更多
In a previous paper, we have reported the relationship between the crystallite orientation of the evaporated film of copper phthalacyanine (PcCu) (α-form) and the incident angle of molecular beam at 10-5 torr. In...In a previous paper, we have reported the relationship between the crystallite orientation of the evaporated film of copper phthalacyanine (PcCu) (α-form) and the incident angle of molecular beam at 10-5 torr. In this paper, we shall show some research results about vacuum effects on the crystal forms and the morphology of the evaporat-展开更多
Objective:Chuanxiong Rhizoma(CR,the dried rhizomes of Ligusticum chuanxiong)is a well-known traditional Chinese medicine that promotes qi to activate blood,dispels wind,and relieves pain.To date,more than 118 constitu...Objective:Chuanxiong Rhizoma(CR,the dried rhizomes of Ligusticum chuanxiong)is a well-known traditional Chinese medicine that promotes qi to activate blood,dispels wind,and relieves pain.To date,more than 118 constituents of CR have been isolated and identified.However,the in vivo mechanism of CR decoction is unclear and needs further investigation.In addition,to clarify the effective forms of CR,it is essential to reveal the absorbed constituents and metabolites of CR.Materials and Methods:The absorbed constituents and metabolites in urine and plasma samples of rats orally administered with CR decoction were screened and characterized using a high-performance liquid chromatography with diode array detector and combined with electrospray ionization ion trap time-of-flight multistage mass spectrometry technique.Results:In total,102 compounds,including 11 absorbed constituents(eight phthalides and three phthalic acids)and 91 metabolites(71 phthalide-related and 20 phenolic acid-related),were detected in drug-containing rat urine and plasma samples,among which 33 were new metabolites of either CR or its constituents.Based on the structures of these metabolites,six phthalides(ligustilide,senkyunolide I/H,senkyunolide J/N,and butylidenephthalide)and three phenolic acids(ferulic acid,isoferulic acid,and caffeic acid)were proposed as their precursors.They were also deduced to be the main absorbed constituents of CR decoction,which should have closer relationships with its pharmacological effects than other constituents.Phthalide-related metabolites were formed through the metabolic reactions of hydration,hydroxylation,cysteine conjugation,acetylcysteine conjugation,methanethiol conjugation,mercaptomethanol conjugation,glucuronidation,and sulfation,whereas the phenolic acid-related metabolites were mainly formed by glucuronidation and sulfation.Conclusions:Six phthalides and three phenolic acids were shown to be the main precursors of the metabolites of CR,and 33 compounds were new metabolites of either CR or its constituents.These results are helpful for further understanding of the in vivo mechanism and effective forms of CR.展开更多
基金The authors would like to thank NSFC for support toenable the performing of this research (No. 59775055).
文摘The effect of the deformation condition on the axial compressive precision forming process of tube with curling die was investigated by using a rigid-plastic FEM. The results show that the forming accuracy depends mainly on geometric condition rp/d0, little on tube material properties and friction condition; the relative gap △/2rp of double-walled tubes obtained decreases with Increasing rp/d0, and there is a parameter k for a given to/do or rp/t0, when rp/d0 >k, △/2rp< 1, otherwise △/2rp>1.
基金supported by the National Natural Science Foundation of China (Grant No. 11774328)。
文摘Effective Hamiltonians in periodically driven systems have received widespread attention for realization of novel quantum phases, non-equilibrium phase transition, and Majorana mode. Recently, the study of effective Hamiltonian using various methods has gained great interest. We consider a vector differential equation of motion to derive the effective Hamiltonian for any periodically driven two-level system, and the dynamics of the spin vector are an evolution under the Bloch sphere. Here, we investigate the properties of this equation and show that a sudden change of the effective Hamiltonian is expected. Furthermore, we present several exact relations, whose expressions are independent of the different starting points. Moreover, we deduce the effective Hamiltonian from the high-frequency limit, which approximately equals the results in previous studies. Our results show that the vector differential equation of motion is not affected by a convergence problem, and thus, can be used to numerically investigate the effective models in any periodic modulating system. Finally, we anticipate that the proposed method can be applied to experimental platforms that require time-periodic modulation, such as ultracold atoms and optical lattices.
基金supported by the National Natural Science Foundation of China(Grant Nos.51271103,and 51671119)
文摘As greater attention is paid to energy consumption and global warming, magnetic refrigeration (MR) technologies based on the magneto-caloric effect (MCE) have been developed. Systems based on MR are expected to be more compact, energy efficient, and environmentally safe compared with traditional vapor-cycle refrigeration technologies .
文摘In this manuscript, we will discuss about the quantum mechanical system for the movement of non-intractable particle, non-intractable particle which attends every mass state in the universe, the form of a non-intractable particle is <i>n</i> = -<i>m</i>, this manuscript defines the stable cross system for the movement of <i>n</i>-<i>i</i> particles and elementary particles with a perfect black body at centre with proofs of picture of super massive black hole, the linear hamiltonian of the cross quantum mechanical system and with this, it’s co-related matrixes, then by the use of cross system of Non-Intractable Particles defining a new right angel theorem. Then the new black body relation free from plank constant depends on non interactive mechanics and <i>m</i>, which has already mentioned in non-interactive mechanics and it’s relation with galaxies. The unique property of cross system is that it is surrounded by the energy of 10e + e always, and at last the relation between zero point energy and dark energy.
基金the National Key R&D Programs of China(grant Nos.2022YFB3807601,2020YFA0711504)the National Natural Science Foundation of China(grant Nos.12274201,51725203,51721001,52003117 and U1932115)+3 种基金the Natural Science Foundation of Jiangsu Province(grant No.BK20200262)S.P.and L.B.thanks the Office of Naval Research Grant No.N00014-21-1-2086the Vannevar Bush Faculty Fellowship(VBFF)Grant No.N00014-20-1-2834 from the Department of Defense and the ARA Impact 3.0 Grantthanks the financial support of the Luxembourg National Research Fund(FNR)through project C21/MS/15799044/FERRODYNAMICS,We are grateful to the High Performance Computing Center(HPCC)resources of Nanjing University for the calculations.
文摘The first-principles-based effective Hamiltonian scheme provides one of the most accurate modeling techniques for large-scale structures,especially for ferroelectrics.However,the parameterization of the effective Hamiltonian is complicated and can be difficult for some complex systems such as high-entropy perovskites.Here,we propose a general form of effective Hamiltonian and develop an active machine-learning approach to parameterize the effective Hamiltonian based on Bayesian linear regression.The parameterization is employed in molecular dynamics simulations with the prediction of energy,forces,stress and their uncertainties at each step,which decides whether first-principles calculations are executed to retrain the parameters.Structures of BaTiO_(3),PbTiO_(3),Pb(Zr_(0.75)Ti_(0.25))O_(3),and(Pb,Sr)TiO_(3)system are taken as examples to show the accuracy of this approach,as compared with conventional parametrization method and experiments.This machine-learning approach provides a universal and automatic way to compute the effective Hamiltonian parameters for any considered complex systems with super-large-scale(more than 107 atoms)atomic structures.
基金The authors acknowledge the support of the National Key Basic Research Special Foundation of China (No. G1999075201-2)the National Natural Science Foundation of China (No. 60178007)the Science Foundation of China for Post Ph. D (2002032163).
文摘When femtosecond laser pulses interfere with chirped femtosecond laser pulses in As2S3 fiber, a chirped fiber grating is formed. An analytical expression is given to describe the chirped grating, and its Bragg reflectivity is calculated. Because of the high photosensitive effect of As2S3 material, the chirped fiber grating has a wide Bragg reflective spectrum and high reflectivity by choosing proper parameters. This indicates that the chirped fiber grating can be used as a stretcher in the femtosecond chirped pulse amplification (CPA) system.
基金This work was supported by the National Natural Science Foundation of China (No. 60007001)the Foundation for Development of Science and Technology of Shanghai (No. OOJC14027)
文摘We report the numerical observation of discrete spatial solitons in a periodically poled lithium niobate waveguide array by applying an electrical field through electro-optical effect. We show that discrete spatial soliton can be controlled by applied voltage in the periodically poled lithium niobate.
文摘In a previous paper, we have reported the relationship between the crystallite orientation of the evaporated film of copper phthalacyanine (PcCu) (α-form) and the incident angle of molecular beam at 10-5 torr. In this paper, we shall show some research results about vacuum effects on the crystal forms and the morphology of the evaporat-
基金financially supported by the National Science and Technology Major Project for Major New Drugs Innovation and Development of China(No.2009ZX09502-006,No.2009ZX09301-010,No.2019ZX09201004-001-023)the National Natural Science Foundation of China(Grant No.30830120,81473321)。
文摘Objective:Chuanxiong Rhizoma(CR,the dried rhizomes of Ligusticum chuanxiong)is a well-known traditional Chinese medicine that promotes qi to activate blood,dispels wind,and relieves pain.To date,more than 118 constituents of CR have been isolated and identified.However,the in vivo mechanism of CR decoction is unclear and needs further investigation.In addition,to clarify the effective forms of CR,it is essential to reveal the absorbed constituents and metabolites of CR.Materials and Methods:The absorbed constituents and metabolites in urine and plasma samples of rats orally administered with CR decoction were screened and characterized using a high-performance liquid chromatography with diode array detector and combined with electrospray ionization ion trap time-of-flight multistage mass spectrometry technique.Results:In total,102 compounds,including 11 absorbed constituents(eight phthalides and three phthalic acids)and 91 metabolites(71 phthalide-related and 20 phenolic acid-related),were detected in drug-containing rat urine and plasma samples,among which 33 were new metabolites of either CR or its constituents.Based on the structures of these metabolites,six phthalides(ligustilide,senkyunolide I/H,senkyunolide J/N,and butylidenephthalide)and three phenolic acids(ferulic acid,isoferulic acid,and caffeic acid)were proposed as their precursors.They were also deduced to be the main absorbed constituents of CR decoction,which should have closer relationships with its pharmacological effects than other constituents.Phthalide-related metabolites were formed through the metabolic reactions of hydration,hydroxylation,cysteine conjugation,acetylcysteine conjugation,methanethiol conjugation,mercaptomethanol conjugation,glucuronidation,and sulfation,whereas the phenolic acid-related metabolites were mainly formed by glucuronidation and sulfation.Conclusions:Six phthalides and three phenolic acids were shown to be the main precursors of the metabolites of CR,and 33 compounds were new metabolites of either CR or its constituents.These results are helpful for further understanding of the in vivo mechanism and effective forms of CR.
