Application of nonlinear photonic crystal ring resonators in realizing all optical OR/NOT/AND gates
Author:
, , , , ,Year
: 2019
Abstract: Arithmetic logic unit (ALU) is the core of any digital processing systems. For creating
an all optical ALU one needs basic logic gates such as optical NOT, OR and AND gates
along with an optical full adder and optical multiplexer. In this paper we aim to design
and propose these three basic logic gates using nonlinear photonic crystal ring resonators.
The simulations will be done using plane wave expansion and finite difference time
domain methods. The proposed structures work based on controlling the optical behavior
of the nonlinear resonators using optical power. The simulation results show that the
switching threshold for this resonant ring is about 15 mW/μm2. Reduced delay times and
switching optical power are the main advantages of the proposed structures. Also by adding
two resonant rings in input ports we reduced the cross reflection between the input
ports.
an all optical ALU one needs basic logic gates such as optical NOT, OR and AND gates
along with an optical full adder and optical multiplexer. In this paper we aim to design
and propose these three basic logic gates using nonlinear photonic crystal ring resonators.
The simulations will be done using plane wave expansion and finite difference time
domain methods. The proposed structures work based on controlling the optical behavior
of the nonlinear resonators using optical power. The simulation results show that the
switching threshold for this resonant ring is about 15 mW/μm2. Reduced delay times and
switching optical power are the main advantages of the proposed structures. Also by adding
two resonant rings in input ports we reduced the cross reflection between the input
ports.
Keyword(s): Photonic crystal,Ring resonator,Logic gates,Kerr effect
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Application of nonlinear photonic crystal ring resonators in realizing all optical OR/NOT/AND gates
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| contributor author | سید ابراهیم حسینی | en |
| contributor author | Mohammad Bagher Tavakoli | en |
| contributor author | مهرداد شکوه صارمی | en |
| contributor author | Seyed Ebrahim Hosseini | fa |
| contributor author | Mohammad Bagher Tavakoli | fa |
| contributor author | Mehrdad Shokooh-Saremi | fa |
| date accessioned | 2020-06-06T13:45:56Z | |
| date available | 2020-06-06T13:45:56Z | |
| date issued | 2019 | |
| identifier uri | https://libsearch.um.ac.ir:443/fum/handle/fum/3368149?locale-attribute=en | |
| description abstract | Arithmetic logic unit (ALU) is the core of any digital processing systems. For creating an all optical ALU one needs basic logic gates such as optical NOT, OR and AND gates along with an optical full adder and optical multiplexer. In this paper we aim to design and propose these three basic logic gates using nonlinear photonic crystal ring resonators. The simulations will be done using plane wave expansion and finite difference time domain methods. The proposed structures work based on controlling the optical behavior of the nonlinear resonators using optical power. The simulation results show that the switching threshold for this resonant ring is about 15 mW/μm2. Reduced delay times and switching optical power are the main advantages of the proposed structures. Also by adding two resonant rings in input ports we reduced the cross reflection between the input ports. | en |
| language | English | |
| title | Application of nonlinear photonic crystal ring resonators in realizing all optical OR/NOT/AND gates | en |
| type | Journal Paper | |
| contenttype | External Fulltext | |
| subject keywords | Photonic crystal | en |
| subject keywords | Ring resonator | en |
| subject keywords | Logic gates | en |
| subject keywords | Kerr effect | en |
| journal title | Optical and Quantum Electronics | fa |
| pages | 228-228 | |
| journal volume | 51 | |
| journal issue | 7 | |
| identifier link | https://profdoc.um.ac.ir/paper-abstract-1074915.html | |
| identifier articleid | 1074915 |