Optical configuration of an N: 2(N) reversible decoder using a LiNbO3-based Mach-Zehnder interferometer

Awasthi Shashank; Chowdhury Barnali; Haider Zuhaib; Ali Jalil; Yupapin Preecha; Metya Sanjeev Kumar; Majumder Alak

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Optical configuration of an N: 2(N) reversible decoder using a LiNbO3-based Mach-Zehnder interferometer

机译：使用基于LiNBO3的Mach-Zehnder干涉仪的N：2（N）可逆解码器的光学配置

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These days when integrated circuit (IC) designers are facing an uphill task in limiting energy/heat dissipation, reversible computing is emerging as a potential candidate with vast application in fields like nanotechnology, quantum-dot cellular automata, and lowpower IC. Optical reversible logics have turned up to offer high speed and low energy computations with almost no loss of input information when a certain (arithmetic or logical) operation is performed. This paper explores an optical implementation of an optimized Fredkin gate that is employed to design an N : 2(N) reversible decoder. The optical designs have been carried out using the electro-optic effect of a lithium niobate (LiNbO3)-basedMach-Zehnder interferometer under the beam propagation method (BPM) with Optiwave's OptiBPM tool. The mathematical model of output power of these designs is also performed along with its validation in MATLAB. (C) 2021 Optical Society of America

机译：如今，当集成电路（IC）设计师在限制能量/散热方面面临着艰巨的任务时，可逆计算正在成为一个潜在的候选者，在纳米技术、量子点细胞自动机和低功耗IC等领域有着广泛的应用。光学可逆逻辑已经出现，当执行某一特定（算术或逻辑）运算时，它可以提供高速、低能的计算，几乎不丢失输入信息。本文探讨了一种用于设计N:2（N）可逆译码器的优化Fredkin门的光学实现。光学设计是利用基于铌酸锂（LiNbO3）的马赫-曾德尔干涉仪的电光效应，在光束传播法（BPM）和Optiwave的OptiBPM工具下进行的。对这些设计的输出功率建立了数学模型，并在MATLAB中进行了验证。（2021）美国光学学会

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《Applied optics》 |2021年第16期|共13页
作者
Awasthi Shashank; Chowdhury Barnali; Haider Zuhaib; Ali Jalil; Yupapin Preecha; Metya Sanjeev Kumar; Majumder Alak;
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作者单位

Natl Inst Technol Arunachal Pradesh Dept ECE Integrated Circuit &

Syst Lab Yupia 791112 India;

Natl Inst Elect &

Informat Technol Arunachal Prad Naharlagun 791110 India;

Univ Tun Hussein Onn Malaysia Fac Appl Sci &

Technol Panchor 84600 Johor Malaysia;

Univ Teknol Malaysia Laser Ctr Ibnu Sina Inst Sci &

Ind Res Skudai 81310 Johor Bahru Malaysia;

Ton Duc Thang Univ Adv Inst Mat Sci Computat Opt Res Grp Dist 7 Ho Chi Minh City Vietnam;

Natl Inst Technol Arunachal Pradesh Dept ECE Integrated Circuit &

Syst Lab Yupia 791112 India;

Natl Inst Technol Arunachal Pradesh Dept ECE Integrated Circuit &

Syst Lab Yupia 791112 India;

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4. All-Optical Modulation with a Surface Plasmon Mach-Zehnder Interferometer [J] . WU Xiao-Fei, ZHANG Jia-Sen, LI Zhi, 中国物理快报：英文版 . 2009,第005期
5. ALL OPTICAL IMPLEMENTATION OF HIGH SPEED AND LOW POWER REVERSIBLE FULL ADDER USING SEMICONDUCTOR OPTICAL AMPLIFIER BASED MACH-ZEHNDER INTERFEROMETER [J] . Bommi R.M., S. Selvakumar Raja Journal of computer sciences . 2014,第7期

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6. ALL OPTICAL IMPLEMENTATION OF HIGH SPEED AND LOW POWER REVERSIBLE FULL ADDER USING SEMICONDUCTOR OPTICAL AMPLIFIER BASED MACH-ZEHNDER INTERFEROMETER | Science Publications [J] . R. M. Bommi, S. Selvakumar Raja Journal of computer sciences . 2014,第7期

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7. Analytical Investigation of an All-Optical T-Type Flip-Flop Using a Semiconductor Optical Amplifier Mach-Zehnder Interferometer with Push-Pull Configuration [J] . Satoshi Shimizu, Hiroyuki Uenohara Japanese journal of applied physics . 2011,第6Issue1期

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Optical configuration of an N: 2(N) reversible decoder using a LiNbO3-based Mach-Zehnder interferometer

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