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Topological photonic nanorod lattice. (a) Two dimerized nanorod lattices with equal unit cells are overlapped on one edge to create a symmetric topological cavity. As indicated by the coloring, the symmetricity implies a switching of the two sites within the unit cell. (b–d) <t>3D-FDTD</t> simulations of this structure. (b) Spectrum containing a pronounced photonic band gap spanning 150 nm and the cavity mode centered in it. (c) Mode profile corresponding to the interface mode overlaid with the outline of the device. (d) Band structure simulation verifying the existence of a fully open photonic band gap.
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ANSYS inc finite-difference time-domain (fdtd) method as implemented in the ansys lumerical 3d electromagnetic simulator software package
Topological photonic nanorod lattice. (a) Two dimerized nanorod lattices with equal unit cells are overlapped on one edge to create a symmetric topological cavity. As indicated by the coloring, the symmetricity implies a switching of the two sites within the unit cell. (b–d) <t>3D-FDTD</t> simulations of this structure. (b) Spectrum containing a pronounced photonic band gap spanning 150 nm and the cavity mode centered in it. (c) Mode profile corresponding to the interface mode overlaid with the outline of the device. (d) Band structure simulation verifying the existence of a fully open photonic band gap.
Finite Difference Time Domain (Fdtd) Method As Implemented In The Ansys Lumerical 3d Electromagnetic Simulator Software Package, supplied by ANSYS inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/3d+finite+difference+time+domain+simulation/pm37843060-48-9-17?v=ANSYS+inc
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finite-difference time-domain (fdtd) method as implemented in the ansys lumerical 3d electromagnetic simulator software package - by Bioz Stars, 2026-07
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ANSYS inc 3d finite-difference time-domain simulations
Topological photonic nanorod lattice. (a) Two dimerized nanorod lattices with equal unit cells are overlapped on one edge to create a symmetric topological cavity. As indicated by the coloring, the symmetricity implies a switching of the two sites within the unit cell. (b–d) <t>3D-FDTD</t> simulations of this structure. (b) Spectrum containing a pronounced photonic band gap spanning 150 nm and the cavity mode centered in it. (c) Mode profile corresponding to the interface mode overlaid with the outline of the device. (d) Band structure simulation verifying the existence of a fully open photonic band gap.
3d Finite Difference Time Domain Simulations, supplied by ANSYS inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/3d+finite+difference+time+domain+simulation/10__1364_slash_oe__494462-50-6-13?v=ANSYS+inc
Average 90 stars, based on 1 article reviews
3d finite-difference time-domain simulations - by Bioz Stars, 2026-07
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Topological photonic nanorod lattice. (a) Two dimerized nanorod lattices with equal unit cells are overlapped on one edge to create a symmetric topological cavity. As indicated by the coloring, the symmetricity implies a switching of the two sites within the unit cell. (b–d) 3D-FDTD simulations of this structure. (b) Spectrum containing a pronounced photonic band gap spanning 150 nm and the cavity mode centered in it. (c) Mode profile corresponding to the interface mode overlaid with the outline of the device. (d) Band structure simulation verifying the existence of a fully open photonic band gap.

Journal: ACS Photonics

Article Title: Single-Mode Laser in the Telecom Range by Deterministic Amplification of the Topological Interface Mode

doi: 10.1021/acsphotonics.3c01372

Figure Lengend Snippet: Topological photonic nanorod lattice. (a) Two dimerized nanorod lattices with equal unit cells are overlapped on one edge to create a symmetric topological cavity. As indicated by the coloring, the symmetricity implies a switching of the two sites within the unit cell. (b–d) 3D-FDTD simulations of this structure. (b) Spectrum containing a pronounced photonic band gap spanning 150 nm and the cavity mode centered in it. (c) Mode profile corresponding to the interface mode overlaid with the outline of the device. (d) Band structure simulation verifying the existence of a fully open photonic band gap.

Article Snippet: 3D finite-difference time domain (FDTD) simulations of the ideal topological lattice were carried out in the commercially available software Ansys Lumerical FDTD.

Techniques: