18 results
Search Results
2. Metamaterial‐enabled Fully On‐Chip Polarization‐Handling Devices.
- Author
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Zhao, Yaotian, Xiang, Jinlong, He, An, He, Yu, Guo, Xuhan, and Su, Yikai
- Subjects
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QUANTUM optics , *OPTICAL waveguides , *NONLINEAR optics , *INTEGRATED circuits , *BEAM splitters , *METAMATERIALS , *POLARIZERS (Light) , *OPTICAL communications - Abstract
Polarization manipulation is essential in photonic integrated circuits and has numerous applications in various fields, such as optical communication, nonlinear optics, and quantum optics. Advances in nanofabrication have enabled the integration of subwavelength‐structured metamaterials on optical waveguides, providing unprecedented optical manipulation capabilities beyond classical waveguide‐based architectures. In this paper, the polarization space is demonstrated to be fully manipulated by a dielectric metamaterial composed of nanoholes and nanoslots. This approach offers competitive performances for key polarization components, including the polarizer, polarization beam splitter, and polarization‐splitter‐rotator, while maintaining ultra‐compact coupling regions of 18×1 µm2, 16×1.1 µm2, and 13×1 µm2 respectively. The devices are designed by manipulating the phase and amplitude of all possible eigenmodes supported in the waveguide, which is inherently scalable and versatile for on‐chip mode and wavefront manipulation. The unique properties of metamaterials provide powerful tools for on‐chip polarization manipulation and offer new possibilities for the development of compact and high‐performance photonic integrated circuits. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
3. Magnetic‐Electric Metamirror and Polarizing Beam Splitter Composed of Anisotropic Nanoparticles.
- Author
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Tuz, Vladimir R., Prokhorov, Alexei V., Shesterikov, Alexander V., Volkov, Valentyn S., Chichkov, Boris N., and Evlyukhin, Andrey B.
- Subjects
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OPTICAL polarization , *ANISOTROPIC crystals , *OPTICAL mirrors , *OPTICAL properties , *MAGNETIC dipoles , *BIREFRINGENCE , *BEAM splitters , *OPTICAL tweezers - Abstract
The emergence of new materials and fabrication techniques provides progress in the development of advanced photonic and communication devices. Transition metal dichalcogenides (e.g., molybdenum disulfide, MoS2) are novel materials possessing unique physical and chemical properties promising for optical applications. In this paper, a metasurface composed of particles made of bulk MoS2 is proposed and numerically studied considering its operation in the near‐infrared range. In the bulk configuration, MoS2 has a layered structure being a uniaxial anisotropic crystal demonstrating an optical birefringence property. It is supposed that the large‐scale and uniform MoS2 layers are synthesized in a vertical‐standing morphology, and then they are patterned into a regular 2D array of disks to form a metasurface. The natural anisotropy of MoS2 is utilized to realize the splitting of electric and magnetic dipole modes of the disks while optimizing their geometric parameters to bring the desired modes into overlap. At the corresponding resonant frequencies, the metasurface behaves as either an electric or a magnetic mirror, depending on the polarization of incident light. Based on the extraordinary reflection characteristics of the proposed metasurface, it can be considered an alternative to traditional mirrors and optical splitters when designing compact and highly efficient metadevices, which provide polarization and phase manipulation of electromagnetic waves on a subwavelength scale. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
4. Enhanced Phase Estimation in Parity‐Detection‐Based Mach–Zehnder Interferometer using Non‐Gaussian Two‐Mode Squeezed Thermal Input State.
- Author
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Kumar, Chandan, Rishabh, and Arora, Shikhar
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BEAM splitters , *INTERFEROMETERS , *PHOTONS , *INTERFEROMETRY - Abstract
While the quantum metrological advantages of performing non‐Gaussian operations on two‐mode squeezed vacuum (TMSV) states have been extensively explored, similar studies in the context of two‐mode squeezed thermal (TMST) states are severely lacking. This paper explores the potential advantages of performing non‐Gaussian operations on TMST state for phase estimation using parity detection‐based Mach–Zehnder interferometry and compares it with the TMSV case. To this end, a realistic photon subtraction, addition, and catalysis model is considered. A unified Wigner function of the photon subtracted, photon added, and photon catalyzed TMST state is derived, which is used to obtain the expression for the phase sensitivity. The results show that performing non‐Gaussian operations on TMST states can enhance the phase sensitivity for significant squeezing and transmissivity parameter ranges. Because of the probabilistic nature of these operations, it is of utmost importance to consider their success probability. When the success probability is considered, the photon catalysis operation performed using a high transmissivity beam splitter is the optimal non‐Gaussian operation. This contrasts with the TMSV case, where photon addition is observed as the most optimal. Further, the derived Wigner function of the non‐Gaussian TMST states will be useful for state characterization and various quantum protocols. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
5. Meta-Structured Silicon Nanophotonic Polarization Beam Splitter with an Optical Bandwidth of 415 nm.
- Author
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Hongnan Xu, Yue Qin, Gaolei Hu, and Hon Ki Tsang
- Subjects
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BEAM splitters , *NANOSILICON , *OPTICAL instruments , *BANDWIDTHS , *DETECTOR circuits , *SILICON , *OPTICAL communications , *FREE-space optical technology - Abstract
The polarization beam splitter (PBS) is a pivotal element in the polarization management of free-space optical instruments and systems. Photonic integrated circuits for sensing, imaging, communications, and quantum-information processing also have needs for monolithically integrated PBSs with an ultra-broad optical bandwidth. In this paper, a novel silicon nanophotonic PBS inspired by the crystalline Glan-Thompson prism but implemented with silicon subwavelength-grating (SWG) metamaterials is presented. Due to the tailored artificial anisotropy of SWGs, the meta-prism functions like a thin-film reflector or a waveguide crossing for different polarizations. Thus, the incident light can be steered with strong polarization selectivity and negligible wavelength dependence. Unlike conventional PBS designs, the routing of polarized light is enabled by the wavelengthindependent total internal reflection in anisotropy-engineered effective media, thereby breaking the bandwidth limit. The device footprint is as small as ≈15 x 7 υm². Low insertion losses of 0.6-1.7 dB and high extinction ratios of 20-30 dB are experimentally achieved spanning a record broad bandwidth of over 415 nm, ranging from 1.26 to 1.675 μm wavelength. These results represent, to the best of their knowledge, the most broadband integrated PBS ever demonstrated to date. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
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6. A Novel Design of 1 × 3 Optical Splitter Based on 2D Photonic Crystal.
- Author
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Shukla, Anil Kumar, Gandhi, Bani, and Pandey, Girijesh Narayan
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PHOTONIC crystals , *OPTICAL devices , *PLANE wavefronts , *BEAM splitters , *OPTOELECTRONIC devices , *DESIGN - Abstract
Design of the optical devices is an important matter of discussion in the present scenario where optical devices have become ultra‐compact due to miniaturization, ultra‐speed with the integration of optoelectronic devices. In this paper a 1 × 3 2D photonic crystal based on optical beam‐splitter has been designed on OptiFDTD for TE polarized light. The wafer is of the dimensions of 21 µm × 15 µm in length and width, respectively. The design works at the wavelength of 1.55 µm, and the mode is selected to be the Gaussian Modulated Continuous Wave (GMCW). The design is based on the 2D Hexagonal lattice, where the elliptical Si‐rods are placed in the air. This splitter prototype consists of one input and three outputs with the split ratio as 60:20:20. This refers to the first output port has 60% power of the transmitted signal, and the second and the third output ports have 20% power of the input. The structure is implemented using OptiFDTD software. It utilizes Finite Domain Time Difference (FDTD) numerical method to analyze the transmission spectra of the structure, and the Plane Wave Expansion (PWE) method is utilized to calculate the photonic bandgap of the prototype. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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- View/download PDF
7. Controllable Polarization‐Insensitive and Large‐Angle Beam Switching with Phase‐Change Metasurfaces.
- Author
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Nemati, Arash, Yuan, Guanghui, Deng, Jie, Huang, Aihong, Wang, Weide, Toh, Yeow Teck, Teng, Jinghua, and Wang, Qian
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BEAM steering , *OPTICAL radar , *LIDAR , *PHASE change materials , *BEAM splitters - Abstract
The development of high‐efficiency compact non‐mechanical beam tuning devices has attracted a lot of attention for light detection and ranging, augmented reality display, and chip‐to‐chip communication. Owing to the fast wavefront manipulation in an ultra‐thin dimension, metasurfaces have been regarded as potential substitutes for traditional tunable optical components toward further miniaturization and low power consumption. However, most beam tuning metasurfaces currently are polarization‐sensitive and designed to work in reflection mode, which limit their applications in integrated optical systems for full‐range steering. In this paper, a transmission mode polarization‐insensitive beam switching metasurface based on nonvolatile phase‐change material Ge2Sb2Te5 is proposed and experimentally demonstrated at the telecommunication wavelength. The high transmission efficiency with a large switching angle of up to 75° is achievable for potentially full‐range beam steering applications. As a proof of concept, the transmitted beam with a switching angle of 15° and directivity of 82.4% is demonstrated. In addition, by controlling the phase transition in the intermediate states, the metasurface can be used as a tunable beam splitter to control the ratio of the beam power between two predesigned transmission angles. The demonstrated phase‐change metasurfaces pave the way for achieving high‐efficiency dynamic beam steering for various important applications. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
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8. VCSELs with On‐Facet Metasurfaces for Polarization State Generation and Detection.
- Author
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Wen, Dandan, Meng, Jiajun, Cadusch, Jasper J., and Crozier, Kenneth B.
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SURFACE emitting lasers , *BEAM splitters , *POLARIZERS (Light) , *OPTICAL polarization , *LIGHT sources - Abstract
Polarization plays a critical role in optical systems that range from optical communications to imaging, lithography, metrology, and data storage. Thus, in systems that need to generate a certain polarization state, a light source (e.g., laser) is combined with polarization control elements such as polarizers, polarizing beam splitters, and waveplates. Similarly, in systems requiring polarization state detection, such elements are combined with photodetectors. There is currently a trend toward miniaturized optical systems. This motivates the question of how to achieve what may be argued as an ultimate level of miniaturization: a single chip that can both generate light with a prescribed polarization state and detect the polarization state of light impinging upon it. This paper demonstrates this via vertical cavity surface emitting lasers (VCSELs) with on‐facet metasurfaces. Two classes of devices are demonstrated. The first class uses high‐index dielectric metasurfaces (amorphous silicon nanofins), whereas the second class uses plasmonic metasurfaces (aluminum bilayer gratings). Each can operate as a laser (to generate) and as a photodetector (to detect) circularly or linearly polarized light. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
9. Characterizing transmissive diamond gratings as beam splitters for the hard X‐ray single‐shot spectrometer of the European XFEL.
- Author
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Kujala, Naresh, Makita, Mikako, Liu, Jia, Zozulya, Alexey, Sprung, Michael, David, Christian, and Grünert, Jan
- Subjects
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FREE electron lasers , *HARD X-rays , *BEAM splitters , *X-ray spectrometers , *FEMTOSECOND pulses , *FIREPLACES - Abstract
The European X‐ray Free Electron Laser (EuXFEL) offers intense, coherent femtosecond pulses, resulting in characteristic peak brilliance values a billion times higher than that of conventional synchrotron facilities. Such pulses result in extreme peak radiation levels of the order of terawatts cm−2 for any optical component in the beam and can exceed the ablation threshold of many materials. Diamond is considered the optimal material for such applications due to its high thermal conductivity (2052 W mK−1 at 300 K) and low absorption for hard X‐rays. Grating structures were fabricated on free‐standing CVD diamond of 10 µm thickness with 500 µm silicon substrate support. The grating structures were produced by electron‐beam lithography at the Laboratory for Micro‐ and Nanotechnology, Paul Scherrer Institut, Switzerland. The grating lines were etched to a depth of 1.2 µm, resulting in an aspect ratio of 16. The characterization measurements with X‐rays were performed on transmissive diamond gratings of 150 nm pitch at the P10 beamline of PETRA III, DESY. In this paper, the gratings are briefly described, and a measured diffraction efficiency of 0.75% at 6 keV in the first‐order diffraction is shown; the variation of the diffraction efficiency across the grating surface is presented. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
10. Blind signatures using light variations in CCD sensors as a pattern to avoid identity forging.
- Author
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Alvarez‐Bermejo, José Antonio and Lopez‐Ramos, Juan Antonio
- Subjects
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CCD image sensors , *PATTERN recognition systems , *BEAM splitters , *FORGING , *ELECTRONIC countermeasures - Abstract
The implementation of countermeasures to avoid licence abuse is now obligatory, especially with the burgeoning of the Internet. The protocol proposed here is implemented within the session initiation protocol (SIP); this has been selected as the official end‐to‐end signalling protocol for establishing multimedia sessions in the Universal Mobile Telecommunication Systems network. This paper introduces blind signatures, enforced with user‐specific and unique data, modelled from CCD sensors to trace users of these online services, thus avoiding licence sharing that gives access to them. Blind signatures are useful in providing anonymity and establishing a way to tag users. The proposed protocol takes advantage of elliptic curve‐based cryptosystems – smaller key sizes and lower computational resources, an interesting issue for session establishment in S‐Universal Mobile Telecommunication Systems (satellite‐linked networks), where fast and light authentication protocols are a requirement ideal. SIP is a powerful signalling protocol for transmitting media over Internet protocol. Authentication is a vital security requirement for SIP. Hitherto, many authentication schemes have been proposed to enhance SIP security; indeed, the problem of impersonation is one of the topics most discussed. Consequently, a novel authentication and key agreement scheme is proposed for SIP using an elliptic curve cryptosystem. Copyright © 2016 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
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11. Miniaturized beamsplitters realized by X-ray waveguides.
- Author
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Hoffmann-Urlaub, Sarah and Salditt, Tim
- Subjects
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BEAM splitters , *ELECTRON beam lithography , *INTERFEROMETRY - Abstract
This paper reports on the fabrication and characterization of X-ray waveguide beamsplitters. The waveguide channels were manufactured by electron-beam lithography, reactive ion etching and wafer bonding techniques, with an empty (air) channel forming the guiding layer and silicon the cladding material. A focused synchrotron beam is efficiently coupled into the input channel. The beam is guided and split into two channels with a controlled (and tunable) distance at the exit of the waveguide chip. After free-space propagation and diffraction broadening, the two beams interfere and form a double-slit interference pattern in the far-field. From the recorded far-field, the near-field was reconstructed by a phase retrieval algorithm (error reduction), which was found to be extremely reliable for the two-channel setting. By numerical propagation methods, the reconstructed field was then propagated along the optical axis, to investigate the formation of the interference pattern from the two overlapping beams. Interestingly, phase vortices were observed and analysed. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
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12. Light on a beam splitter: More randomness with single photons.
- Author
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Oberreiter, Lukas and Gerhardt, Ilja
- Subjects
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BEAM splitters , *RANDOM effects model , *SINGLE photon generation , *QUANTUM theory , *LIGHT sources - Abstract
One of the most fundamental quantum random number generators is implemented with light impinging onto a beam splitter, and two single photon detectors at its output. Often, this generator is described as 'a photon which takes one or other path towards a detector'. The input state of light in conjunction with the detector response is relevant for the amount, the pattern, and the correlation of the generated clicks. Only a fraction of all generator outcomes, the min-entropy, can be used as a further resource for true randomness. This paper addresses the difference in the common description with incoming single photons and the often implemented scheme with a weak coherent light source, such as an attenuated laser. For this very fundamental and widely used configuration the amount of usable entropy is compared. If single photons from an anti-bunched light source are supplied, the amount of entropy is higher than for the case of a supplied coherent state - although the latter can be arbitrarily bright unlike the single photon source. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
13. Switchable surface plasmon dichroic splitter modulated by optical polarization.
- Author
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Lee, Seung‐Yeol, Yun, Hansik, Lee, Yohan, and Lee, Byoungho
- Subjects
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POLARITONS , *BEAM splitters , *POLARIZING beam splitters , *DICHROIC mirrors - Abstract
For the miniaturization of optical devices, surface plasmon polaritons (SPPs) have been widely utilized due to their outstanding confinement and field-enhancement characteristics. Analyzing a spectrum of optical signals and splitting certain regions of the spectrum range within a submicrometer-scale structure are demanded for optical integrated systems. In this paper, a novel type of dichroic surface plasmon launcher that can switch the launching direction according to incident polarization states is demonstrated. Compared to the previously reported plasmonic dichroic splitters, the proposed schemes do not use any asymmetric geometry for directional launching. Hence, the direction of guided SPPs can be interchanged according to the polarization state. Such characteristics will be helpful to design switchable plasmonic devices that can be applied to active plasmonic integrated circuits. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
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14. Periodic bandpass filter with near-ideal filter response based on Sagnac loop interferometer.
- Author
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Li Wei, Qinghe Mao, and Lit, John W. Y.
- Subjects
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BANDPASS filters , *INTERFEROMETERS , *WAVELENGTH division multiplexing , *OPTICAL communications , *BEAM splitters - Abstract
In this paper, an analytical analysis is made on a periodic bandpass filter formed by a two-cavity etalon incorporated into a Sagnac loop interferometer. The general optimum conditions for a quasi-flat-top spectrum and a ripple-free group-delay response are derived. Our results show that by properly choosing the reflectance of the mirrors, the filter can be designed with a quasi-flat-top spectral response that is also free from group-delay ripples. © 2004 Wiley Periodicals, Inc. Microwave Opt Technol Lett 42: 17–21, 2004; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/mop.20194 [ABSTRACT FROM AUTHOR]
- Published
- 2004
- Full Text
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15. Analysis of transport properties of five-terminal beam splitter using anisotropy of the group velocity.
- Author
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Ueta, Tsuyoshi
- Subjects
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BEAM splitters , *ANISOTROPY , *SPEED , *ELECTRONICS , *SWITCHING circuits , *BOUNDARY element methods - Abstract
This paper proposes a beam splitter with one emitter and two collectors each on the left and right based on anisotropy of the group velocity. An anisotropic medium is represented by a two-dimensional square lattice tight-binding model. The transport property of the beam splitter is analyzed by means of the boundary-type solution method. At the center of the band where the anisotropy of the group velocity is strong, the incident beam is split into two and propagates along the diagonal directions of the square lattice with almost no diffraction. © 2002 Wiley Periodicals, Inc. Electron Comm Jpn Pt 2, 85(12): 67–75, 2002; Published online in Wiley InterScience (
www.interscience. wiley.com ). DOI 10.1002/ecjb.1114 [ABSTRACT FROM AUTHOR]- Published
- 2002
- Full Text
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16. Analysis of a Novel Intersection Waveguide-Type Optical Polarization Splitter Using Birefringence of GaInAsP/InP Superlattice.
- Author
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Kambayashi, Toshio and Nakasendou, Kazuyuki
- Subjects
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BEAM splitters , *OPTICAL instruments , *OPTOELECTRONIC devices , *ELECTRONIC equipment , *DOUBLE refraction , *FINITE differences , *OPTOELECTRONICS , *ELECTRONICS - Abstract
A novel intersection waveguide-type polarization splitter based on total reflection using the birefringence of the GaInAsP/Inp superlattice waveguide is proposed and analyzed in this paper. The semivectorial finite difference beam propagation method (FD-BPM) (which handles both TE and TM modes) is used in the analysis. The waveguide structure including the GaInAsP/InP superlattice is designed; and it is shown that, although with a superlattice core the refractive index for the TM mode is reduced by approximately 0.4 percent, there is no change for the TE mode. Based on this result, the optimal structural parameters such as superlattice layer number, rib height (h), intersecting angle (θ), and port separation length (Lsp) are investigated using a 1.55-μm wavelength. It is found that the TE and TM modes can be separated with an insertion loss of less than 0.4 dB for both modes and a crosstalk of less than -35 dB using an intersecting angle of 5° and a device length of approximately 0.9 mm. It is shown that compared to conventional devices, the device length in the proposed device structure can be reduced by using total reflection. The wavelength dependence of the device is also analyzed. [ABSTRACT FROM AUTHOR]
- Published
- 1996
- Full Text
- View/download PDF
17. Boundary-Element Method Analysis of Light-Beam Scattering and the Sum and Differential Signal Output by DRAW-Type Optical Disk Models.
- Author
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Kojima, Toshitaka and Ido, Jun
- Subjects
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OPTICAL disks , *BEAM splitters , *DIELECTRICS , *DIELECTRIC amplifiers , *ELECTRICAL engineering materials , *ELECTROMAGNETISM - Abstract
This paper assumes a simple model for the DRAW (direct-read/after-write) optical disk using a Te-alloy recording medium. The scattering of the light-beam by the pit or boss of arbitrary shape on the boundary of three-layered dielectrics is analyzed by the boundary-element method. The sum and the differential signal output characteristics of the two-split-type optical detector also is discussed. The results of simulation are shown Mr the effect of the adjacent pit in the square and V- shaped pregrooved models, the dependencies of the sum and the differential signals on the tracking error, and the dependencies of the sum and the differential signals on the pit depth, when the signal recording pit is provided in the two types of pregrooved models. [ABSTRACT FROM AUTHOR]
- Published
- 1991
- Full Text
- View/download PDF
18. Ultra‐Broadband and Ultra‐Compact On‐Chip Silicon Polarization Beam Splitter by Using Hetero‐Anisotropic Metamaterials.
- Author
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Xu, Hongnan, Dai, Daoxin, and Shi, Yaocheng
- Subjects
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BEAM splitters , *METAMATERIALS , *SILICON , *ANALOG-to-digital converters , *DIRECTIONAL couplers , *INTEGRATED optics , *WAVEGUIDES - Abstract
The polarization beam splitter (PBS) is an essential component in the polarization diversity circuit to overcome the strong polarization dependence of silicon nanophotonic devices. Among various PBS structures, the asymmetrical directional couplers (ADCs) are most commonly used due to the best overall performances. However, it is still challenging to realize an on‐chip silicon PBS with a small footprint, low loss, high extinction ratio, and, especially, broad bandwidth, simultaneously. The working bandwidth is limited for ADCs, since the wavelength difference will introduce deviations to both the effective indices and the coupling strength, which would distort the phase‐matching property and the optimal coupling length. In this paper, an on‐chip silicon PBS is proposed and demonstrated using "effective medium anisotropy" instead of "configuration asymmetry" to break the bandwidth bottleneck. The metamaterials with engineered anisotropy and dispersion are utilized to form a hetero‐anisotropic slab. For TM polarization, the slab performs as a multi‐mode interference coupler, while for TE polarization, the slab performs as two isolated waveguides. The fabricated PBS shows low loss <1 dB, high extinction ratio >20 dB, and a record working bandwidth >200 nm, with a footprint as small as 12.25 × 1.9 µm2. An ultra‐broadband on‐chip silicon polarization beam splitter based on hetero‐anisotropic metamaterials is proposed and demonstrated. Subwavelength grating metamaterials are utilized to engineer anisotropy and dispersion. The fabricated device shows low losses <1 dB, high extinction ratios >20 dB, and a record working bandwidth >200 nm. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
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