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Y. Trabelsi
Researcher at Tunis University
Publications - 50
Citations - 513
Y. Trabelsi is an academic researcher from Tunis University. The author has contributed to research in topics: Photonic crystal & Fibonacci number. The author has an hindex of 10, co-authored 31 publications receiving 235 citations. Previous affiliations of Y. Trabelsi include Tunis El Manar University & Florida State University College of Arts and Sciences.
Papers
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Journal ArticleDOI
Biophotonic sensor for the detection of creatinine concentration in blood serum based on 1D photonic crystal
Arafa H. Aly,Doaa Mohamed,Mona A. Mohaseb,Mona A. Mohaseb,N. S. Abd El-Gawaad,Y. Trabelsi,Y. Trabelsi +6 more
TL;DR: In this paper, the transmittance spectra of a one dimensional alternating dielectric photonic crystal (PC) designed as (AB)7/C/(AB) 7 made of MgF2, CeO2 and creatinine concentration present in blood was analyzed.
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Tunable narrowband optical filters using superconductor/dielectric generalized Thue-Morse photonic crystals
TL;DR: In this paper, a narrowband tunable transmission optical filters according to hybrid dielectric/ superconductor quasi-photonic structures are designed using the transfer-matrix method (TMM) and The two-fluid model.
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Design of structural gigahertz multichanneled filter by using generalized Fibonacci superconducting photonic quasicrystals
Y. Trabelsi,Naim Ben Ali,Amna Elhawil,R. Krishnamurthy,Mounir Kanzari,Iraj Sadegh Amiri,Preecha P. Yupapin +6 more
TL;DR: In this paper, the design properties of one-dimensional photonic quasicrystals (PQC) were studied in a microwave frequency range using the transfer matrix method (TMM) and Gorter Casimir Two-Fluid Model (GCTM).
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Transmittance spectrum in a one-dimensional photonic crystal with Fibonacci sequence superconductor–semiconductor
Francis Segovia-Chaves,Francis Segovia-Chaves,Herbert Vinck-Posada,Y. Trabelsi,Y. Trabelsi,N. Ben Ali +5 more
TL;DR: In this article, the transmittance spectrum in a quasi-periodic one-dimensional photonic crystal (1D-PC) consisting of superconducting materials (HgBa 2 Ca 2 Cu 3 O 8 + δ ) and semiconductor (GaAs) was calculated.
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Tunable high Tc superconducting photonic band gap resonators based on hybrid quasi-periodic multilayered stacks
TL;DR: In this paper, a superconducting resonator can be achieved by tuning the temperature, pressure, and thickness of the photonic system materials, where GF and GTM are the generalized Fibonacci and Thue-Morse sequences, respectively.