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Slot waveguide dispersion in fiber: >> http://kiu.cloudz.pw/download?file=slot+waveguide+dispersion+in+fiber << (Download)
Slot waveguide dispersion in fiber: >> http://kiu.cloudz.pw/read?file=slot+waveguide+dispersion+in+fiber << (Read Online)
8 Feb 2017 Therefore, chalcogenide glasses are very attractive for fabricating fiber and waveguides in mid-infrared wavelengths.–) Recently, chalcogenide glasses Bao et al. have demonstrated the double slot waveguide design and the structure showed dispersion over a bandwidth of 878 nm.) A strip-slot hybrid
16 Jun 2011 We propose, for the first time to our knowledge, the theoretical investigation of silicon nanocrystals-based sandwiched slot waveguides which are dispersion-engineered for exciting optical solitons inside very short structures (only 1.2 mm long). Several parametric simulations have been performed by
We propose a slot-waveguide with high dispersion, in which a slot waveguide is coupled to a strip waveguide. A negative dispersion of up to -181520 ps/nm/km is obtained due to a strong interaction of the slot and strip modes. A flat and large dispersion is achievable by cascading the dispersive slot-waveguides with varied
Different from previously reported slot waveguides, the strip/slot hybrid waveguide employs the mode transition from a strip mode to a slot mode to introduce unique waveguide dispersion. The flat dispersion profile is featured by three zero-dispersion wavelengths, which is obtained for the first time in on-chip silicon
A study of group velocity dispersion of horizontal slot waveguides filled by Si nanocrystals with different Silicon concentrations has revealed a change in.
25 Jan 2016 Strip-slot separation has been utilized to tune the magnitude of dispersion. Such a structure should find applications in the design of integrated-optic dispersion compensators for optical telecommunication and ultrafast waveguide lasers. Effective index and dispersion of symmetric and asymmetric modes as
We investigate the chromatic dispersion properties of silicon channel slot waveguides in a broad spectral region centered at ~1.5 ?m. The variation of the dispersion profile as a function of the slot fill factor, i.e., the ratio between the slot and waveguide widths, is analyzed. Symmetric as well as asymmetric geometries are
dispersion. The flat dispersion profile is featured by three zero-dispersion wavelengths, which is obtained for the first time in on-chip silicon waveguides, to the best of our knowledge. The waveguide . Z. Zheng, M. Iqbal, and J. Liu, “Dispersion characteristics of SOI-based slot optical waveguides," Opt. Commun. 281(20)
Opt Express. 2012 Jun 4;20(12):13189-94. doi: 10.1364/OE.20.013189. Effect of index contrasts in the wide spectral-range control of slot waveguide dispersion. Ryu H(1), Kim J, Jhon YM, Lee S, Park N. Author information: (1)Photonic Systems Laboratory, School of EECS, Seoul National Univ., Seoul 151-744, Korea.
On-chip, high-dispersion-value and coupled strip/slotted waveguide structure for efficient dispersion compensation. Abstract: We propose a slot-waveguide-based dispersion compensator with a negative dispersion of ?181520 ps/nm/km. Dispersion compensation for a 320 Gb/s NRZ signal at 11-km fiber transmission has
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