In this study, we designed and fabricated optical materials consisting of alternating ITO and Ag layers. This approach is considered to be a promising way to obtain a light-weight, ultrathin and transparent shielding ...In this study, we designed and fabricated optical materials consisting of alternating ITO and Ag layers. This approach is considered to be a promising way to obtain a light-weight, ultrathin and transparent shielding medium, which not only transmits visible light but also inhibits the transmission of microwaves, despite the fact that the total thickness of the Ag film is much larger than the skin depth in the visible range and less than that in the microwave region. Theoretical results suggest that a high dielectric/metal thickness ratio can enhance the broadband and improve the transmittance in the optical range. Accordingly, the central wavelength was found to be red-shifted with increasing dielectric/metal thickness ratio. A physical mechanism behind the controlling transmission of visible light is also proposed. Meanwhile, the electromagnetic shielding effectiveness of the prepared structures was found to exceed 40 dB in the range from 0.1 GHz to 18 GHz, even reaching up to 70 dB at 0.1 GHz, which is far higher than that of a single ITO film of the same thickness.展开更多
The anisotropy of magnetostatic surface wave(MSSW)propagating in finite width YIG/dielectric/metal layered structure is analyzed.This problem is solved by finding the rigorous solution of each layer from Maxwell equat...The anisotropy of magnetostatic surface wave(MSSW)propagating in finite width YIG/dielectric/metal layered structure is analyzed.This problem is solved by finding the rigorous solution of each layer from Maxwell equation and the appropriate transmission Green's function matrix G.From the relationship of Green's function matrixes of dielectric layer and ferrite layer,the dispersion equation is obtained.The MSSW filter is designed to verify the dispersion characteristics.The experiment results are in good agreement with the calculating data from the model.展开更多
A new phase transition compound,2-methoxyanilinium perchlorate-18-crown-6(1) {(oCH3OC6H4NH3)+(18-crown-6) ClO4 },has been synthesized and separated as crystals.Differential scanning calorimetry(DSC) measureme...A new phase transition compound,2-methoxyanilinium perchlorate-18-crown-6(1) {(oCH3OC6H4NH3)+(18-crown-6) ClO4 },has been synthesized and separated as crystals.Differential scanning calorimetry(DSC) measurements show a pair of sharp peaks at 225 K(heating) and 210 K(cooling),indicating the phase transition is first-order.Dielectric anomalies observed at 225 K(heating)and 210 K(cooling) further confirm the phase transition.The crystal structures determined at 298 K and123 K are both triclinic in P 1.The most distinct difference between room-temperature and lowtemperature structures is the order–disorder transition of the host 18-crown-6 molecule,which is the driving force of the phase transition.展开更多
Two-dimensional function photonic crystals, in which the dielectric constants of medium columns are the functions of space coordinates , are proposed and studied numerically. The band gaps structures of the photonic c...Two-dimensional function photonic crystals, in which the dielectric constants of medium columns are the functions of space coordinates , are proposed and studied numerically. The band gaps structures of the photonic crystals for TE and TM waves are different from the two-dimensional conventional photonic crystals. Some absolute band gaps and semiDirac points are found. When the medium column radius and the function form of the dielectric constant are modulated, the numbers, width, and position of band gaps are changed, and the semi-Dirac point can either occur or disappear. Therefore,the special band gaps structures and semi-Dirac points can be achieved through the modulation on the two-dimensional function photonic crystals. The results will provide a new design method of optical devices based on the two-dimensional function photonic crystals.展开更多
The structural, dielectric, lattice dynamical and thermodynamic properties of zinc-blende CdX (X=S, Se, Te) are studied by using a plane-wave pseudopotential method within the density-functional theory. Our calculat...The structural, dielectric, lattice dynamical and thermodynamic properties of zinc-blende CdX (X=S, Se, Te) are studied by using a plane-wave pseudopotential method within the density-functional theory. Our calculated lattice constants and bulk modulus are compared with the pubfished experimental and theoretical data. In addition, the Born effective charges, electronic dielectric tensors, phonon frequencies, and longitudinal opticaltransverse optical splitting are calculated by the linear-response approach. Some of the characteristics of the phonon-dispersion curves for zinc-blende CdX (X= S, Se, Te) are summarized. What is more, based on the lattice dynamical properties, we investigate the thermodynamic properties of CdX (X= S, Se, Te) and analyze the temperature dependences of the Helmholtz free energy F, the internal energy E, the entropy S and the constant-volume specific heat Cv. The results show that the heat capacities for CdTe, CdSe, and CdS approach approximately to the Petit-Dulong limit 6R.展开更多
Large Purcell enhancement,requiring high-quality factors and small mode volumes,is essential to single-photon sources.Whispering gallery microcavities possessing a high-quality factor are limited by a large mode volum...Large Purcell enhancement,requiring high-quality factors and small mode volumes,is essential to single-photon sources.Whispering gallery microcavities possessing a high-quality factor are limited by a large mode volume,while dielectric nanoantennas with an ultra-small mode volume suffer from significant scattering loss.Here,by combining the advantages of the microtoroids and the nanoantennas,we achieve large Purcell enhancement with a narrow linewidth in all-dielectric nanoantenna-microtoroid hybrid structures.The scattering loss of the nanoantenna is suppressed by the high-Q microtoroids;meanwhile,its ultra-small mode volume remains almost unchanged.As a result,the Purcell factor of the emitter located at the gap of the nanoantenna reaches as high as 1000-1700,while its linewidth is kept at the order of hundreds of picometers.The proposed mechanism holds promise for applications in on-chip single-photon sources and low-threshold nanolasers.展开更多
In view of the requirements for high-performance epoxy resin(EP)enamelled wire insulating varnish in the rapidly developments of new energy vehicle drive motors,the problems of localised electric field concentration d...In view of the requirements for high-performance epoxy resin(EP)enamelled wire insulating varnish in the rapidly developments of new energy vehicle drive motors,the problems of localised electric field concentration due to the unevenness electric field distribution has to be solved.In this paper,to enhance the corona resistance,insulation,and mechanical properties of EP insulating varnish,the function dielectric gradient structure consists of hyperbranched polyester(HBP)inner layer and silane coupling agent(KH-550)modified graphene oxide(GO)nonlinear layer are proposed.The results show that the introduction of HBP not only adjusts the dielectric constant of the insulating varnish but also increases the breakdown field strength significantly,and with the increase of K-GO,the nonlinear conductivity of K-GO/EP insulating varnish becomes more prominent.Simulation results show that the highest field strength of the structural insulating varnish with different dielectric constant gradients is reduced to 16.7 kV/mm,and the field strength difference of the inner layer is reduced to 0.3 kV/mm,which further reduces the electric field aberration of the neighbouring interfaces as compared to the pure EP insulating varnish.This work provides a new strategy for constructing the dielectric gradient structure to meet the high corona resistance and insulating varnish requirements of high-voltage motor enamelled wire insulating varnish in actual industrial production.展开更多
A novel inorganic-organic hybrid supramolecular compound,[(3-nitroanilinium^+)(18-crown-6)][IO4](CH3OH)(1),was discovered as phase-transition materials displaying dielectric anomalous behaviors.The yellow blo...A novel inorganic-organic hybrid supramolecular compound,[(3-nitroanilinium^+)(18-crown-6)][IO4](CH3OH)(1),was discovered as phase-transition materials displaying dielectric anomalous behaviors.The yellow block crystal formed by N-H…O hydrogen bonding that made contact through the cavity of 18-crown-6 was characterized by single-crystal X-ray diffraction,elemental analysis,infrared analysis,thermogravimetric analysis,differential scanning calorimetry,and potential-energy calculations.Differential scanning calorimetry measurements indicate that the compound experiences a reversible phase transition at around 220 K.Temperature-dependent dielectric measurements further confirm the phase transitions.Potential-energy calculations demonstrate that the phase transition occurs due to the molecular order-disorder rotation of CH3OH,whereas the space grouping of the crystal remains unchanged.展开更多
We present structural,magnetic and optical characteristics of Zn_(1-x)TM_xTe(TM = Mn,Fe,Co,Ni and x = 6.25%),calculated through Wien2 k code,by using full potential linearized augmented plane wave(FP-LAPW) techn...We present structural,magnetic and optical characteristics of Zn_(1-x)TM_xTe(TM = Mn,Fe,Co,Ni and x = 6.25%),calculated through Wien2 k code,by using full potential linearized augmented plane wave(FP-LAPW) technique.The optimization of the crystal structures have been done to compare the ferromagnetic(FM) and antiferromagnetic(AFM) ground state energies,to elucidate the ferromagnetic phase stability,which further has been verified through the formation and cohesive energies.Moreover,the estimated Curie temperatures T_c have demonstrated above room temperature ferromagnetism(RTFM) in Zn_(1-x)TM_xTe(TM =Mn,Fe,Co,Ni and x= 6.25%).The calculated electronic properties have depicted that Mn- and Co-doped ZnTe behave as ferromagnetic semiconductors,while half-metallic ferromagnetic behaviors are observed in Fe- and Ni-doped ZnTe.The presence of ferromagnetism is also demonstrated to be due to both the p-d and s-d hybridizations between the host lattice cations and TM impurities.The calculated band gaps and static real dielectric constants have been observed to vary according to Penn's model.The evaluated band gaps lie in near visible and ultraviolet regions,which make these materials suitable for various important device applications in optoelectronic and spintronic.展开更多
A novel three-dimensional beam propagation method (BPM) based on the variable transformed Galerkin's method is introduced for simulating optical field propagation in three-dimensional dielectric structures. The in...A novel three-dimensional beam propagation method (BPM) based on the variable transformed Galerkin's method is introduced for simulating optical field propagation in three-dimensional dielectric structures. The infinite Cartesian x-y plane is mapped into a unit square by a tangent-type function transformation. Consequently, the infinite region problem is converted into the finite region problem. Thus, the boundary truncation is eliminated and the calculation accuracy is promoted. The three-dimensional BPM basic equation is reduced to a set of first-order ordinary differential equations through sinusoidal basis function, which fits arbitrary cladding optical waveguide, then direct solution of the resulting equations by means of the Runge-Kutta method. In addition, the calculation is efficient due to the small matrix derived from the present technique. Both z-invariant and z-variant examples are considered to test both the accuracy and utility of this approach.展开更多
基金Project supported by the International Science&Technology Cooperation Program of China(Grant No.2014DFR10020)the Science Foundation of Shanxi Province,China(Grant Nos.201701D121050 and 201701D121007)
文摘In this study, we designed and fabricated optical materials consisting of alternating ITO and Ag layers. This approach is considered to be a promising way to obtain a light-weight, ultrathin and transparent shielding medium, which not only transmits visible light but also inhibits the transmission of microwaves, despite the fact that the total thickness of the Ag film is much larger than the skin depth in the visible range and less than that in the microwave region. Theoretical results suggest that a high dielectric/metal thickness ratio can enhance the broadband and improve the transmittance in the optical range. Accordingly, the central wavelength was found to be red-shifted with increasing dielectric/metal thickness ratio. A physical mechanism behind the controlling transmission of visible light is also proposed. Meanwhile, the electromagnetic shielding effectiveness of the prepared structures was found to exceed 40 dB in the range from 0.1 GHz to 18 GHz, even reaching up to 70 dB at 0.1 GHz, which is far higher than that of a single ITO film of the same thickness.
基金This work was supported by the National Basic Research Program of China(973)under Grant No.2007CB31407the International S&T Cooperation Program of China under Grant No.2006DFA53410.
文摘The anisotropy of magnetostatic surface wave(MSSW)propagating in finite width YIG/dielectric/metal layered structure is analyzed.This problem is solved by finding the rigorous solution of each layer from Maxwell equation and the appropriate transmission Green's function matrix G.From the relationship of Green's function matrixes of dielectric layer and ferrite layer,the dispersion equation is obtained.The MSSW filter is designed to verify the dispersion characteristics.The experiment results are in good agreement with the calculating data from the model.
基金supported by the National Natural Science Foundation of China (No. 21101025)
文摘A new phase transition compound,2-methoxyanilinium perchlorate-18-crown-6(1) {(oCH3OC6H4NH3)+(18-crown-6) ClO4 },has been synthesized and separated as crystals.Differential scanning calorimetry(DSC) measurements show a pair of sharp peaks at 225 K(heating) and 210 K(cooling),indicating the phase transition is first-order.Dielectric anomalies observed at 225 K(heating)and 210 K(cooling) further confirm the phase transition.The crystal structures determined at 298 K and123 K are both triclinic in P 1.The most distinct difference between room-temperature and lowtemperature structures is the order–disorder transition of the host 18-crown-6 molecule,which is the driving force of the phase transition.
基金Project supported by the National Natural Science Foundations of China(Grant No.61275047)the Research Project of Chinese Ministry of Education(Grant No.213009A)the Scientific and Technological Development Foundation of Jilin Province,China(Grant No.20130101031JC)
文摘Two-dimensional function photonic crystals, in which the dielectric constants of medium columns are the functions of space coordinates , are proposed and studied numerically. The band gaps structures of the photonic crystals for TE and TM waves are different from the two-dimensional conventional photonic crystals. Some absolute band gaps and semiDirac points are found. When the medium column radius and the function form of the dielectric constant are modulated, the numbers, width, and position of band gaps are changed, and the semi-Dirac point can either occur or disappear. Therefore,the special band gaps structures and semi-Dirac points can be achieved through the modulation on the two-dimensional function photonic crystals. The results will provide a new design method of optical devices based on the two-dimensional function photonic crystals.
基金Supported by the National Natural Science Foundation of China under Grant No 11374217
文摘The structural, dielectric, lattice dynamical and thermodynamic properties of zinc-blende CdX (X=S, Se, Te) are studied by using a plane-wave pseudopotential method within the density-functional theory. Our calculated lattice constants and bulk modulus are compared with the pubfished experimental and theoretical data. In addition, the Born effective charges, electronic dielectric tensors, phonon frequencies, and longitudinal opticaltransverse optical splitting are calculated by the linear-response approach. Some of the characteristics of the phonon-dispersion curves for zinc-blende CdX (X= S, Se, Te) are summarized. What is more, based on the lattice dynamical properties, we investigate the thermodynamic properties of CdX (X= S, Se, Te) and analyze the temperature dependences of the Helmholtz free energy F, the internal energy E, the entropy S and the constant-volume specific heat Cv. The results show that the heat capacities for CdTe, CdSe, and CdS approach approximately to the Petit-Dulong limit 6R.
基金supported by the National Natural Science Foundation of China(Nos.12474370 and 11974032)the Innovation Program for Quantum Science and Technology(No.2021ZD0301500)。
文摘Large Purcell enhancement,requiring high-quality factors and small mode volumes,is essential to single-photon sources.Whispering gallery microcavities possessing a high-quality factor are limited by a large mode volume,while dielectric nanoantennas with an ultra-small mode volume suffer from significant scattering loss.Here,by combining the advantages of the microtoroids and the nanoantennas,we achieve large Purcell enhancement with a narrow linewidth in all-dielectric nanoantenna-microtoroid hybrid structures.The scattering loss of the nanoantenna is suppressed by the high-Q microtoroids;meanwhile,its ultra-small mode volume remains almost unchanged.As a result,the Purcell factor of the emitter located at the gap of the nanoantenna reaches as high as 1000-1700,while its linewidth is kept at the order of hundreds of picometers.The proposed mechanism holds promise for applications in on-chip single-photon sources and low-threshold nanolasers.
基金The National Natural Science Foundation of China(Grant 52107014)China Postdoctoral Science Foundation(Grants 2022M710981 and 2023T160171)Shandong Provincial Natural Science Foundation(Grant ZR2022QE187).
文摘In view of the requirements for high-performance epoxy resin(EP)enamelled wire insulating varnish in the rapidly developments of new energy vehicle drive motors,the problems of localised electric field concentration due to the unevenness electric field distribution has to be solved.In this paper,to enhance the corona resistance,insulation,and mechanical properties of EP insulating varnish,the function dielectric gradient structure consists of hyperbranched polyester(HBP)inner layer and silane coupling agent(KH-550)modified graphene oxide(GO)nonlinear layer are proposed.The results show that the introduction of HBP not only adjusts the dielectric constant of the insulating varnish but also increases the breakdown field strength significantly,and with the increase of K-GO,the nonlinear conductivity of K-GO/EP insulating varnish becomes more prominent.Simulation results show that the highest field strength of the structural insulating varnish with different dielectric constant gradients is reduced to 16.7 kV/mm,and the field strength difference of the inner layer is reduced to 0.3 kV/mm,which further reduces the electric field aberration of the neighbouring interfaces as compared to the pure EP insulating varnish.This work provides a new strategy for constructing the dielectric gradient structure to meet the high corona resistance and insulating varnish requirements of high-voltage motor enamelled wire insulating varnish in actual industrial production.
基金supported by National Natural Science Foundation of China (No. 21561030)Prophase-sustentation Fund of Xinjiang Agricultural University (Nos. XJAU201410 and XJAU201511)
文摘A novel inorganic-organic hybrid supramolecular compound,[(3-nitroanilinium^+)(18-crown-6)][IO4](CH3OH)(1),was discovered as phase-transition materials displaying dielectric anomalous behaviors.The yellow block crystal formed by N-H…O hydrogen bonding that made contact through the cavity of 18-crown-6 was characterized by single-crystal X-ray diffraction,elemental analysis,infrared analysis,thermogravimetric analysis,differential scanning calorimetry,and potential-energy calculations.Differential scanning calorimetry measurements indicate that the compound experiences a reversible phase transition at around 220 K.Temperature-dependent dielectric measurements further confirm the phase transitions.Potential-energy calculations demonstrate that the phase transition occurs due to the molecular order-disorder rotation of CH3OH,whereas the space grouping of the crystal remains unchanged.
基金the University of the Punjab, Lahore for financial support through faculty research grant program
文摘We present structural,magnetic and optical characteristics of Zn_(1-x)TM_xTe(TM = Mn,Fe,Co,Ni and x = 6.25%),calculated through Wien2 k code,by using full potential linearized augmented plane wave(FP-LAPW) technique.The optimization of the crystal structures have been done to compare the ferromagnetic(FM) and antiferromagnetic(AFM) ground state energies,to elucidate the ferromagnetic phase stability,which further has been verified through the formation and cohesive energies.Moreover,the estimated Curie temperatures T_c have demonstrated above room temperature ferromagnetism(RTFM) in Zn_(1-x)TM_xTe(TM =Mn,Fe,Co,Ni and x= 6.25%).The calculated electronic properties have depicted that Mn- and Co-doped ZnTe behave as ferromagnetic semiconductors,while half-metallic ferromagnetic behaviors are observed in Fe- and Ni-doped ZnTe.The presence of ferromagnetism is also demonstrated to be due to both the p-d and s-d hybridizations between the host lattice cations and TM impurities.The calculated band gaps and static real dielectric constants have been observed to vary according to Penn's model.The evaluated band gaps lie in near visible and ultraviolet regions,which make these materials suitable for various important device applications in optoelectronic and spintronic.
文摘A novel three-dimensional beam propagation method (BPM) based on the variable transformed Galerkin's method is introduced for simulating optical field propagation in three-dimensional dielectric structures. The infinite Cartesian x-y plane is mapped into a unit square by a tangent-type function transformation. Consequently, the infinite region problem is converted into the finite region problem. Thus, the boundary truncation is eliminated and the calculation accuracy is promoted. The three-dimensional BPM basic equation is reduced to a set of first-order ordinary differential equations through sinusoidal basis function, which fits arbitrary cladding optical waveguide, then direct solution of the resulting equations by means of the Runge-Kutta method. In addition, the calculation is efficient due to the small matrix derived from the present technique. Both z-invariant and z-variant examples are considered to test both the accuracy and utility of this approach.
