期刊,Optik 2022年262卷期_国家学术搜索

期刊信息/Journal information

Optik

Wissenschaftliche Verlagsgesellschaft

主办单位：Wissenschaftliche Verlagsgesellschaft

国际刊号：0030-4026

Optik/Journal OptikSCIISTPEIAHCI

正式出版

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Goos–Hanchen Shift in the presence of dispersive dielectric–magnetic medium using Lorentz–Drude Model

Nisar M.Saghir M.A.Shahzad A.Naqvi Q.A....

5页

查看更多>>摘要：© 2022 Elsevier GmbHThe purpose of this manuscript is to quantitatively analyze the reflection coefficient and Goos–Hanchen Shift (GHS) owing to a planar interface of a dispersive dissipative dielectric–magnetic metamaterial for parallel/ perpendicular polarization. To achieve the goal, Lorentz–Drude Model is utilized to introduce a lossy/ lossless dispersive dielectric–magnetic metamaterial medium. As the medium on one side of the interface is dispersive, so it behaves as Double-Positive/Double-Negative/Epsilon-Negative/Mu-Negative metamaterial, depending on the value of operating frequency. The behavior of reflection coefficient, its phase and GHS for these medium has been studied. It has been noted that the GHS can be effectively managed by introducing the losses appropriately.

原文链接:

NSTL

Research on RP-EDF amplification characteristics based on φ-OTDR system

Shen Y.Yang S.Liang Y.Du L....

5页

查看更多>>摘要：© 2022Extending the sensing distance is of great significance for expanding the application of phase-sensitive optical time-domain reflectometry (φ-OTDR) in remote perimeter monitoring. Due to the inevitable fiber loss, the optical signal intensity decays exponentially with the length of the sensing fiber, and the sensing distance is greatly limited. In this study, a remote-pumped single-ended incident optical signal amplification scheme using erbium-doped fiber (EDF) is reported, and the factors affecting the amplification effect are comprehensively investigated. The experimental results show that the optimal amplification effect can be achieved when the input signal optical power is − 20 dB, the input signal optical wavelength is 1550 nm, the pump power is 100 mW and the erbium-doped fiber length is 10 m.

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NSTL

Uncertainty zone estimation of angles only tracking in undersea environment

Subrahmanyam K.Rao S.K.Lakshmi K.

5页

查看更多>>摘要：© 2022Traditional underwater tracking is a method of estimating the state of a target based on measurements obtained from sensors. Observer uses measurements that are created by the radiation of the target for passive underwater target surveillance. A procedure for estimating the location of a target emitting acoustic signal is introduced. The issue is addressed in cases of known and unknown emitter location determination errors. Zones of uncertainty have been classified as error ellipses and confidence ellipses. Noise continuously corrupts the measurements, resulting a target position uncertainty zone. To improve the accuracy, to find uncertainty zone of target use bearing and elevation. Shifted Rayleigh Filter (SHRF) is a non-linear estimator that is effective for estimating the motion parameters of the target. It is important to know about the convergence of the solution in terms of the reduction of the uncertainty zone under a certain constraint in realistic situations. Utilizing the covariance matrix of SHRF in Monte-Carlo simulation, an attempt is made to reduce and discover the target's 3-dimensional range uncertainty ellipse zone (3DRUEZ). The solution is said to be converged when the 3DRUEZ is less than a certain threshold. In underwater surroundings, the simulation demonstrates that the proposed technique in this paper shows enhanced estimation accuracy and more stable performance than other filtering algorithms.

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NSTL

Fast light propagating waveguide composed of heterogeneous metamaterials

He Z.Ma H.Huang R.Zhuang F....

5页

查看更多>>摘要：© 2022 Elsevier GmbHA symmetrical three-layer fast light waveguide based on photonic crystal heterostructure is proposed in this article. Two types of photonic crystal where their effective optical parameters such as permittivity and permeability are variable from negative to positive at vicinity of the “Dirac-like” point frequency, are designed. Then the symmetrical three-layer light waveguide composed of these two different photonic crystals (heterogeneous structure at the junction between the cladding and the core) are constructed. By analyzing the anomalous dispersion mode of this waveguide, numerically calculated the group velocity to be negative. The light propagation effect of the waveguide is simulated, and it shows that the waveguide can confine light to the core layer well. In addition, observing the backward moving behavior of the wave packet by incident modulated gaussian pulses envelope, further verifying the generation of fast light. These numerical simulation results agree well the analytical analysis. The proposed waveguide structures in this article may improve the sensitivity of optical instruments and offer potential applications in the fields of integrated photonic circuits, on-chip optical interconnect, and fast optical communication and transmission.

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NSTL

Graphene-based metasurface solar absorber design for the visible and near-infrared region with behavior prediction using Polynomial Regression

Patel S.K.Katkar V.Parmar J.Surve J....

5页

查看更多>>摘要：© 2022 Elsevier GmbHThe broadband graphene absorber designs for a visible and near-infrared (NIR) regime is developed in the study. The gold resonator is placed over an MgF2 substrate which is followed by a gold base layer. The graphene spacer is sandwiched between the substrate and resonator layer due to its remarkable conductivity to increase the absorption response. The results are presented for the wavelength spanning from 0.2 µm to 1.2 µm. The average absorption for all three designs is compared and the best design is identified. The proposed structures are also validated by varying various parameters such as resonator thickness, substrate thickness, plus shape width, and needle-point width, and in the process, the absorptance response is improved. The result clearly shows the shift in absorptance response by varying the geometrical parameters. The proposed needle-point shaped solar absorber design can be an elementary block for visible and NIR photovoltaic devices whose utilization can be managed in applications related to energy harvesting. A novel part of this research is using polynomial regression models to predict the absorption capacity at a varying wavelength for variations in angle, resonator thickness, substrate thickness, and needle-point width. Experimental results show that polynomial regression models can predict the values absorption capacity with high accuracy (R2 score).

原文链接:

NSTL

Cubic-quartic solitons perturbation with couplers in optical metamaterials having triple-power law nonlinearity using extended F-expansion method

Rabie W.B.Ahmed H.M.

5页

查看更多>>摘要：© 2022 Elsevier GmbHIn this article, the extended F-expansion method is applied to obtain cubic-quartic optical solitons for couplers in optical metamaterials with nonlinear perturbation terms and triple-power law of nonlinearity. Bright soliton solutions, bright–singular combo soliton solutions and singular soliton solutions are extracted. Also, periodic solutions, combo periodic solutions, exponential solutions and rational solutions are derived. Moreover, for the physical illustration, some of the obtained solutions are represented graphically.

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NSTL

Design of M-type core trench-assisted multi-core fiber with a cladding diameter of 200 µm for low-crosstalk long-haul transmission

Guo Z.Pei L.Ning T.Zheng J....

5页

查看更多>>摘要：© 2022 Elsevier GmbHThe design of homogenous trench-assisted multi-core fiber with M-type cores and a cladding diameter of 200 µm is proposed by numerical simulations. The M-type core is introduced to reduce the inter-core crosstalk (XT) of a 19-core fiber to below −30 dB/100 km with a low cost of cutoff wavelength. At the same time, the trade-off between the XT suppression and the effective area of the fundamental mode is mitigated to ensure the effective area is larger than 70 μm2 to suppress the non-linear effects. The study of the effects of the high-index ring of the M-typed core on the XT, effective area, and power fraction shows the potential in improving the fiber performance by a well-designed micron structure of the core. The bending performance shows this design can operate with low loss and crosstalk, and an effective area of over 70 μm2 at a bending radius from 15 mm to 500 mm. The proposed design provides the possibility to improve the MCF performance for long-haul transmission.

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NSTL

Fabrication and investigation of the effects of various gadolinium compounds on Ce3+-activated phosphate glasses for scintillation applications

Ntarisa A.V.Saha S.Quang N.D.Kim H.J....

5页

查看更多>>摘要：© 2022 Elsevier GmbHCe3+-activated phosphate-based glasses were fabricated for scintillation purposes following melt-quenching technique. Chemical compositions of the glasses were designed in mol. % ratio with formula (62P2O5:20Li2CO3:10X:5Al2O3:3CeBr3 where X[dbnd]Gd2O3/GdF3/GdCl3/GdBr3/GdI3). The amorphous structure of the glasses was verified by the powder X-ray diffraction measurements. Fourier-transform infrared (FTIR) measurements were carried out to study the structural properties of the fabricated glass samples. X-ray-induced luminescence and photoluminescence (PL) spectra were used to investigate the luminescence properties of the glasses. A broad PL excitation band was found for all prepared glasses that refers to Gd3+ and Ce3+ characteristic transitions. GdI3 containing glass sample provided the optimum emission under X-ray and UV (308 nm) excitations peaking at 347 and 341 nm, respectively. The scintillation property of the GdI3 containing glass was studied under 5.5 MeV α-particle from 241Am radiation source and a clear alpha peak was observed with energy resolution of 35.3%. The shortest decay component of the glass sample was observed to be 27.9 ns, 30.7 ns and 29.12 ns under the α-particles, γ-ray, and 266 nm pulsed laser excitations, respectively. In conclusion, the GdI3 prepared glass sample can be used for α -particles detection.

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NSTL

Controlling light focusing through scattering medium with superpixel-based deep learning method

Dai Y.Ding Y.Xiang C.Xiao Y....

5页

查看更多>>摘要：© 2022 Elsevier GmbHIn this paper, a superpixel-based deep learning method is proposed for controlling the focusing of light through scattering medium. Different from previous work, our method enables neural network trained with complex-valued data, from which we can obtain complex amplitude modulation of the light field, simultaneously, we also propose a processing method of speckle data to enriching the characteristics of the data, therefore, rapidly achieves high enhancement factors light focus with only amplitude modulation devices. In our experiment, the highest enhancement factor can reach 269, which is 65% higher than that in the case of training network with only real-valued data. In addition, we can also successfully achieve multi-point focusing through the scattering medium. Our method provides a new idea for the application of deep learning in wavefront shaping.

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NSTL

Creation of two distant entangled qutrits via interference of polarized photons: With and without rotating wave approximation

Firouzabadi N.A.Tavassoly M.K.

5页

查看更多>>摘要：© 2022 Elsevier GmbHA proposal has been given in Feng et al. (2003) for generating the entangled states of two distant λ-type qutrits (three-level atoms) utilizing the interference of polarized photons under rotating wave approximation (RWA). In the present work, we first motivated to investigate the same scenario, however, using V-type atoms. Interestingly, we observed that the maximum probability of achieving the purpose (of entangling atoms) increases from 0.2 for Λ- to 0.34 for V-type atoms. Meanwhile, our detailed results show that, in both of the above model interactions, the best results are obtained when the atom–field couplings are enough large, particularly in the symmetric couplings. In this way, one enters the strong coupling constant regime, wherein the RWA is no longer valid. Accordingly, in order to study the effect of counter-rotating terms on the maximum accessible entanglement via this method, we motivated to reconsider the approach either with Λ- or V-type atoms, however, now without RWA. In this respect, for the λ-type atoms, our results interestingly show that the maximum probability 0.43 may be achieved, which is more than two times of the maximum reported value in the above-mentioned Ref. wherein the RWA is considered. Moreover, for V-type atoms, beyond RWA, we obtained the probability 0.4, which is a little more than the case with RWA, but still twice the case with RWA for Λ-type atom. Therefore, generally counter rotating terms have constructive effect on the probability of detection of entangled states for Λ- and V-type atoms.

原文链接:

NSTL