Review on all-optical logic gates: design techniques and classifications – heading toward high-speed optical integrated circuits

Anagha, E. G.; Jeyachitra, R. K.

doi:10.1117/1.oe.61.6.060902

Cited by 21 publications

(6 citation statements)

References 183 publications

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“…All-optical logic gates and flip-flops are other fundamental elements for optical computing [ 22 ], even if still, at the beginning of the last decade, there were doubts about their feasibility and their possibility of competing with microelectronics [ 144 ]. Such skepticism was not fully justified, even if, still five years later, realization of an all-optical flip-flop required coupling two optical triode switches made by a nonlinear étalon and gradient-index lenses [ 19 ]; to date, however, several all-optical logic devices have been demonstrated [ 13 , 25 , 27 , 145 , 146 , 147 , 148 ].…”

Section: Nonlinear Photonics Devicesmentioning

confidence: 99%

“…If the intensity of the incident field is subsequently lowered, the field inside the cavity tends to remain large because the absorption of the material system has again been reduced. However, even if single bistable switches have already been demonstrated on different platforms, it is worth noting that the next big challenge is realization of a complex system where several bistable switches are connected in tandem and in parallel [ 19 , 20 , 21 , 22 , 23 , 24 , 25 , 26 , 27 ].…”

Section: Introductionmentioning

confidence: 99%

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An Introduction to Nonlinear Integrated Photonics: Structures and Devices

Sirleto

Righini

2023

Micromachines

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The combination of integrated optics technologies with nonlinear photonics, which has led to growth of nonlinear integrated photonics, has also opened the way to groundbreaking new devices and applications. In a companion paper also submitted for publication in this journal, we introduce the main physical processes involved in nonlinear photonics applications and discuss the fundaments of this research area. The applications, on the other hand, have been made possible by availability of suitable materials with high nonlinear coefficients and/or by design of guided-wave structures that can enhance a material’s nonlinear properties. A summary of the traditional and innovative nonlinear materials is presented there. Here, we discuss the fabrication processes and integration platforms, referring to semiconductors, glasses, lithium niobate, and two-dimensional materials. Various waveguide structures are presented. In addition, we report several examples of nonlinear photonic integrated devices to be employed in optical communications, all-optical signal processing and computing, or in quantum optics. We aimed at offering a broad overview, even if, certainly, not exhaustive. However, we hope that the overall work will provide guidance for newcomers to this field and some hints to interested researchers for more detailed investigation of the present and future development of this hot and rapidly growing field.

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Section: Nonlinear Photonics Devicesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

An Introduction to Nonlinear Integrated Photonics: Structures and Devices

Sirleto

Righini

2023

Micromachines

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“…PPLN, topological photonics, and plasmonic-based waveguides also face issues like dependencies on temperature, phase, polarization, and high loss of signal, which reduces their performance. 25 Kita et al proposed a logic gate design based on silicon wires. 26 The proposed design uses three input ports and a single design for many binary logic operations based on the variation of phase and power of the input sources.…”

Section: Introductionmentioning

confidence: 99%

“…All these technologies have their merits but most of them suffer from excess power consumption and bulky designs. PPLN, topological photonics, and plasmonic‐based waveguides also face issues like dependencies on temperature, phase, polarization, and high loss of signal, which reduces their performance 25 …”

Section: Introductionmentioning

confidence: 99%

Design of silicon slab waveguides based all‐optical logic gates

Aggarwal,

Mittal,

Kalra

2024

Micro & Optical Tech Letters

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Logic gates are an indispensable part of digital circuits, and therefore such devices with fast operating speeds and simple designs are vital for all kinds of electronic applications. This paper proposes simple Y‐shaped designs of all‐optical AND, OR, and NOT logic gates in two dimensions that are operational in both TE and TM modes. These gates are designed using silicon slab waveguides, which makes them relatively easy to fabricate. The logic gates are designed, analyzed, and optimized at 1.55 µm using the finite difference time domain method. The truth tables of the proposed all‐optical logic gates are realized for every input case. The propagation delay time is determined to be of the order of femtoseconds (10−15 s), which is very fast compared to the response time of the currently reported all‐optical logic gates (10−9 ‐ 10−12 s).

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“…Optical computing is a data processing technology that uses beam as the information carrier. Compared with electronic computing, optical computing has the advantages of high speed, high bandwidth and low power consumption, and it is a potential way to achieve artificial intelligence 1 . Optical logic gate is the core device of optical computing, which is widely used in various fields, such as error detection 2 , data coding 3 and pattern recognition 4 .…”

Section: Introductionmentioning

confidence: 99%

Orbital angular momentum logic gates based on optical diffraction neural network

guo

2023

International Conference on Optics and Machine Vision (ICOMV 2023)

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Vortex beams with orthogonal orbital angular momentum (OAM) modes have potential applications in optical computing. By exploiting the learning capability of deep neural network and the complex light-field manipulation ability of multilayer diffraction layers, the spatial position of the vortex beam is manipulated by a five-layer diffraction deep neural network as the input of the logic gate. The result of the logic gate is expressed as the light intensity in the output plane. The simulation results show that the accuracy of AND gate and OR gate is 0.9912 and 0.9887 respectively, which proves that the method of implementing logic gate based on diffraction deep neural network modulated OAM is feasible.

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Review on all-optical logic gates: design techniques and classifications – heading toward high-speed optical integrated circuits

Cited by 21 publications

References 183 publications

An Introduction to Nonlinear Integrated Photonics: Structures and Devices

An Introduction to Nonlinear Integrated Photonics: Structures and Devices

Design of silicon slab waveguides based all‐optical logic gates

Orbital angular momentum logic gates based on optical diffraction neural network

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