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Kvantovaya Elektronika, 2017, Volume 47, Number 2, Pages 169–172 (Mi qe16560)  

This article is cited in 16 scientific papers (total in 16 papers)

Optical gates

All-optical XNOR gate based on 2D photonic-crystal ring resonators

Tamer A. Moniem

Misr University for Science & Technology, Egypt

Abstract: A novel all-optical XNOR gate is proposed, which combines the nonlinear Kerr effect with photonic-crystal ring resonators (PCRRs). The total size of the proposed optical XNOR gate based on photonic crystals with a square lattice of silicon rods is equal to 35 × 21 μm. The proposed structure has a bandgap in the range from 0.32 to 0.44. To confirm the operation and feasibility of the overall system use is made of analytical and numerical simulation using the dimensional finite difference time domain (FDTD) and plane wave expansion (PWE) methods.

Keywords: photonic crystals, photonic-crystal ring resonators, optical gates, optical switches.

Full text: PDF file (2825 kB)
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English version:
Quantum Electronics, 2017, 47:2, 169–172

Bibliographic databases:

Received: 19.12.2016
Revised: 22.01.2017

Citation: Tamer A. Moniem, “All-optical XNOR gate based on 2D photonic-crystal ring resonators”, Kvantovaya Elektronika, 47:2 (2017), 169–172 [Quantum Electron., 47:2 (2017), 169–172]

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  • http://mi.mathnet.ru/eng/qe/v47/i2/p169

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    Citing articles on Google Scholar: Russian citations, English citations
    Related articles on Google Scholar: Russian articles, English articles

    This publication is cited in the following articles:
    1. Moniem T.A., El-Din E.S., Opt. Commun., 402 (2017), 36–40  crossref  isi
    2. M. Radhouene, M. Najjar, M. K. Chhipa, S. Robinson, B. Suthar, Optik, 172 (2018), 924–929  crossref  isi  scopus
    3. S. I. Gandhi, T. Sridarshini, Laser Phys., 29:4 (2019), 046206  crossref  isi  scopus
    4. T. Zhao, M. Asghari, F. Mehdizadeh, J. Electron. Mater., 48:4 (2019), 2482–2486  crossref  isi  scopus
    5. G. Tavakoli, H. Alipour-Banaei, M. Hassangholizadeh-Kashtiban, J. Mod. Opt., 66:6 (2019), 599–605  crossref  isi  scopus
    6. M. R. Geraili, S. E. Hosseini, M. B. Tavakoli, M. Shokooh-Saremi, Opt. Quantum Electron., 51:7 (2019), 228  crossref  isi
    7. P. Li, Y. Wang, P. Xu, Appl. Optics, 58:16 (2019), 4205–4210  crossref  isi
    8. A. Askarian, G. Akbarizadeh, M. Fartash, Appl. Optics, 58:22 (2019), 5931–5935  crossref  isi
    9. M. Hassangholizadeh-Kashtiban, H. Alipour-Banaei, M. B. Tavakoli, R. Sabbaghi-Nadooshan, Opt. Mater., 94 (2019), 371–377  crossref  isi
    10. M. Hassangholizadeh-Kashtiban, H. Alipour-Banaei, M. B. Tavakoli, R. Sabbaghi-Nadooshan, Appl. Optics, 59:3 (2020), 635–641  crossref  isi  scopus
    11. A. Askarian, G. Akbarizadeh, M. Fartash, Optik, 207 (2020), UNSP 164424  crossref  isi
    12. S. Sadegh-Bonab, H. Alipour-Banaei, Photonics Nanostruct., 39 (2020), 100777  crossref  isi
    13. M. Narimanzadeh, A. Andalib, Opt. Appl., 50:1 (2020), 61–68  crossref  isi
    14. S. Lashkari, J. Jamali, H. Masoumi, J. Optoelectron. Adv. Mater., 22:3-4 (2020), 116–120  isi
    15. A. Asghari-Govar, A. Andalib, M. Zavvari, P. Mohammadi, Optik, 203 (2020), UNSP 163953  crossref  isi
    16. K. R. Prabha, R. Arunkumar, S. Robinson, Frequenz, 74:11-12 (2020), 417–426  crossref  isi
  • Квантовая электроника Quantum Electronics
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