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Nonvolatile Integrated Phase-change Photonic Platform for Programmable Photonics

Nonvolatile Integrated Phase-change Photonic Platform for Programmable Photonics
Author: Jiajiu Zheng
Publisher:
Total Pages: 98
Release: 2020
Genre:
ISBN:
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With the slowing down of Moore's law and advances in nanophotonics, photonic information processing by photonic integrated circuits (PICs) has raised considerable interest to compete with electronic systems in energy-efficient high-throughput data processing, especially for emerging applications such as neuromorphic computing, quantum information, and microwave photonics. Success in these fields usually requires large-scale programmable PICs providing low-energy, compact, and high-speed building blocks with ultra-low insertion loss and precise control. Current programmable photonic systems, however, primarily rely on materials with weak and volatile thermo-optic or electro-optic modulation effects, leading to large footprints and high energy consumption. Alternatively, chalcogenide phase-change materials (PCMs) such as Ge2Sb2Te5 (GST) exhibit a substantial optical contrast in a static, self-holding fashion upon phase transitions, but the complexity of present PCM-integrated photonic applications is still limited mainly due to the poor optical or electrical actuation approaches. In this dissertation, by integrating GST on silicon photonic devices, a highly scalable nonvolatile integrated phase-change photonic platform with strong broadband attenuation modulation and optical phase modulation for programmable photonics is demonstrated. Utilizing a free-space pulsed laser, reversible all-optically quasi-continuous programming of the platform is performed, resulting in a nonvolatile multi-level microring-based photonic switch with a high extinction ratio up to 33 dB. To extend the platform to a multi-port broadband scheme, compact (~30 micrometers), low-loss (~1 dB), and broadband (over 30 nm with cross talk less than -10 dB) 1 x 2 and 2 x 2 switches are demonstrated based on the asymmetric directional coupler design. Electrical switching of the platform with different heaters including graphene, indium tin oxide, and silicon PIN diode heaters that allows large-scale integration and fast energy-efficient large-area switching is then modeled and compared, followed by the experiment with PIN diode heaters. Using GST-clad silicon waveguides and microring resonators, intrinsically compact and energy-efficient photonic switching units operated with low driving voltages, near-zero additional loss, and reversible switching with long endurance are obtained in a complementary metal-oxide-semiconductor (CMOS)-compatible process. This work paves the way for the very large-scale CMOS-integrated programmable electronic-photonic systems such as optical neural networks and general-purpose integrated photonic processors.

Phase Change Materials-Based Photonic Computing

Phase Change Materials-Based Photonic Computing
Author: Harish Bhaskaran
Publisher: Elsevier
Total Pages: 272
Release: 2024-01-21
Genre: Technology & Engineering
ISBN: 012823492X
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Phase Change Materials-Based Photonic Computing provides a clear introduction to the field, introducing concepts of photonics, computing, phase change materials and future outlooks. Phase change materials are well known and studied in many contexts, and photonics is a longstanding field, with photonic neuromorphic computing recently gathering interest. However, the two fields are disparate and few people understand the key concepts needed to integrate the two. This book will be the first to do so in this promising field. It is suitable for researchers and practitioners in academia and industry working in the disciplines of materials science and engineering, electrical engineering and computing. Introduces the advanced fundamental concepts of photonics computing and phase change materials, including brief video lectures to accompany each chapter Reviews the remaining challenges to translation, opportunities and future outlooks Addresses definitions, historical context, foundational concepts and the latest advances of phase change materials-based photonics computing

Programmable Integrated Photonics

Programmable Integrated Photonics
Author: José Capmany
Publisher:
Total Pages: 361
Release: 2020-02-21
Genre:
ISBN: 0198844409
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This book provides the first comprehensive, up-to-date and self-contained introduction to the emergent field of Programmable Integrated Photonics (PIP). It covers both theoretical and practical aspects, ranging from basic technologies and the building of photonic component blocks, to designalternatives and principles of complex programmable photonic circuits, their limiting factors, techniques for characterization and performance monitoring/control, and their salient applications both in the classical as well as in the quantum information fields. The book concentrates and focusesmainly on the distinctive features of programmable photonics, as compared to more traditional ASPIC approaches.After some years during which the Application Specific Photonic Integrated Circuit (ASPIC) paradigm completely dominated the field of integrated optics, there has been an increasing interest in PIP. The rising interest in PIP is justified by the surge in a number of emerging applications that callfor true flexibility and reconfigurability, as well as low-cost, compact, and low-power consuming devices.Programmable Integrated Photonics is a new paradigm that aims at designing common integrated optical hardware configurations, which by suitable programming, can implement a variety of functionalities. These in turn can be exploited as basic operations in many application fields. Programmabilityenables, by means of external control signals, both chip reconfiguration for multifunction operation, as well as chip stabilization against non-ideal operations due to fluctuations in environmental conditions and fabrication errors. Programming also allows for the activation of parts of the chip,which are not essential for the implementation of a given functionality, but can be of help in reducing noise levels through the diversion of undesired reflections.

Neuromorphic Photonic Devices and Applications

Neuromorphic Photonic Devices and Applications
Author: Min Gu
Publisher: Elsevier
Total Pages: 415
Release: 2023-12-15
Genre: Technology & Engineering
ISBN: 0323972608
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Neuromorphic Photonic Devices and Applications synthesizes the most critical advances in photonic neuromorphic models, photonic material platforms and accelerators for neuromorphic computing. The book discusses fields and applications that can leverage these new platforms. A brief review of the historical development of the field is followed by a discussion of the emerging 2D photonic materials platforms and recent work in implementing neuromorphic models and 3D neuromorphic systems. The application of artificial intelligence (AI), such as neuromorphic models to inverse design neuromorphic materials and devices and predict performance challenges is discussed throughout. Finally, a comprehensive overview of the applications of neuromorphic photonic technologies and the challenges, opportunities and future prospects is discussed, making the book suitable for researchers and practitioners in academia and R&D in the multidisciplinary field of photonics. Includes overview of primary scientific concepts for the research topic of neuromorphic photonics such as neurons as computational units, artificial intelligence, machine learning and neuromorphic models Reviews the latest advances in photonic materials, device platforms and enabling technology drivers of neuromorphic photonics Discusses potential applications in computing and optical communications

Reconfigurable Photonics Based on Broadband Low-loss Optical Phase Change Materials

Reconfigurable Photonics Based on Broadband Low-loss Optical Phase Change Materials
Author: Yifei Zhang (Materials scientist)
Publisher:
Total Pages: 0
Release: 2021
Genre:
ISBN:
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Optical phase change materials (O-PCMs), a unique group of materials featuring drastic optical property contrast upon solid-state phase transition, have found widespread adoption in photonic switches and routers, reconfigurable meta-optics, reflective display, and optical neuromorphic computers. Current phase change materials, such as Ge-Sb-Te (GST), exhibit large contrast of both refractive index ([delta]n) and optical loss ([delta]k), simultaneously. The coupling of both optical properties fundamentally limits the function and performance of many potential applications. We report a new class of O-PCMs, Ge-Sb-Se-Te (GSST) which breaks this traditional coupling. Guided by first-principle computational designs, the compositionally optimized alloy Ge2Sb2Se4Te1 claims an unprecedented material figure of merit (FOM) over two orders of magnitude larger than that of classical GST alloys, benefiting from blue-shifted interband transitions as well as minimal free carrier absorptions, as confirmed by Hall measurements. In-situ heating TEM and XRD measurements are carried out to confirm and understand the crystal structures of Ge2Sb2Se4Te1. We show that the optimized alloy, Ge2Sb2Se4Te1, combining broadband low loss (1 - 18.5 [mu]m), large optical contrast ([delta]n = 2.0), and significantly improved glass forming ability, enables an entirely new field of integrated and free-space photonic applications. Based on the extraordinary optical and switching properties of this new O-PCM, GSST, we are able to demonstrate an entirely new field of integrated and free-space photonic applications with record-low losses and nonvolatile reconfigurable switching. Nonvolatile optical switches with both narrow-band and broadband responses were realized based on GSS4T1. Their record low loss and switching contrast, derived from the exceptional FOM of the material, qualify the device as a useful building block for scalable photonic networks. A transient directional coupler is proposed and realized to facilitate wafer-scale photonic testing. Material cycling lifetime is also investigated by tracking the reflectance contrast between the amorphous and crystalline state on a single pixel over 1,000 cycles. For the first time, large-scale electrically-driven active metasurface based on PCMs are demonstrated with the geometry-optimized metal-heater platform. Devices including reconfigurable spectral filters with world record large spectral tuning range and metasurface deflectors are demonstrated.

Neuromorphic Photonics

Neuromorphic Photonics
Author: Paul R. Prucnal
Publisher: CRC Press
Total Pages: 412
Release: 2017-05-08
Genre: Science
ISBN: 1498725244
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This book sets out to build bridges between the domains of photonic device physics and neural networks, providing a comprehensive overview of the emerging field of "neuromorphic photonics." It includes a thorough discussion of evolution of neuromorphic photonics from the advent of fiber-optic neurons to today’s state-of-the-art integrated laser neurons, which are a current focus of international research. Neuromorphic Photonics explores candidate interconnection architectures and devices for integrated neuromorphic networks, along with key functionality such as learning. It is written at a level accessible to graduate students, while also intending to serve as a comprehensive reference for experts in the field.

Phase Change Materials

Phase Change Materials
Author: Simone Raoux
Publisher: Springer Science & Business Media
Total Pages: 430
Release: 2010-06-10
Genre: Technology & Engineering
ISBN: 0387848746
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"Phase Change Materials: Science and Applications" provides a unique introduction of this rapidly developing field. Clearly written and well-structured, this volume describes the material science of these fascinating materials from a theoretical and experimental perspective. Readers will find an in-depth description of their existing and potential applications in optical and solid state storage devices as well as reconfigurable logic applications. Researchers, graduate students and scientists with an interest in this field will find "Phase Change Materials" to be a valuable reference.

Photonic Interconnects for Computing Systems

Photonic Interconnects for Computing Systems
Author: Mahdi Nikdast
Publisher: River Publishers
Total Pages: 454
Release: 2017
Genre: Computers
ISBN: 879351980X
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Photonic Interconnects for Computing Systems provides a comprehensive overview of the current state-of-the-art technology and research achievements in employing silicon photonics for interconnection networks and high-performance computing, summarizing main opportunities and some challenges.

Quantum Optics with Semiconductor Nanostructures

Quantum Optics with Semiconductor Nanostructures
Author: Frank Jahnke
Publisher: Elsevier
Total Pages: 607
Release: 2012-07-16
Genre: Technology & Engineering
ISBN: 0857096397
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An understanding of the interaction between light and matter on a quantum level is of fundamental interest and has many applications in optical technologies. The quantum nature of the interaction has recently attracted great attention for applications of semiconductor nanostructures in quantum information processing. Quantum optics with semiconductor nanostructures is a key guide to the theory, experimental realisation, and future potential of semiconductor nanostructures in the exploration of quantum optics.Part one provides a comprehensive overview of single quantum dot systems, beginning with a look at resonance fluorescence emission. Quantum optics with single quantum dots in photonic crystal and micro cavities are explored in detail, before part two goes on to review nanolasers with quantum dot emitters. Light-matter interaction in semiconductor nanostructures, including photon statistics and photoluminescence, is the focus of part three, whilst part four explores all-solid-state quantum optics, crystal nanobeam cavities and quantum-dot microcavity systems. Finally, part five investigates ultrafast phenomena, including femtosecond quantum optics and coherent optoelectronics with quantum dots.With its distinguished editor and international team of expert contributors, Quantum optics with semiconductor nanostructures is an essential guide for all those involved with the research, development, manufacture and use of semiconductors nanodevices, lasers and optical components, as well as scientists, researchers and students. A key guide to the theory, experimental realisation, and future potential of semiconductor nanostructures in the exploration of quantum optics Chapters provide a comprehensive overview of single quantum dot systems, nanolasers with quantum dot emitters, and light-matter interaction in semiconductor nanostructures Explores all-solid-state quantum optics, crystal nanobeam cavities and quantum-dot microcavity systems, and investigates ultrafast phenomena