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市場調査レポート
商品コード
1276488
光導波路の世界市場規模、シェア、産業動向分析レポート:タイプ別、相互接続レベル別、材料別(ガラス、ポリマー、半導体)、伝播別、産業別、地域別展望と予測、2023年~2029年Global Optical Waveguide Market Size, Share & Industry Trends Analysis Report By Type, By Interconnect Level, By Material (Glass, Polymer and Semiconductor), By Propagation, By Industry, By Regional Outlook and Forecast, 2023 - 2029 |
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光導波路の世界市場規模、シェア、産業動向分析レポート:タイプ別、相互接続レベル別、材料別(ガラス、ポリマー、半導体)、伝播別、産業別、地域別展望と予測、2023年~2029年 |
出版日: 2023年04月28日
発行: KBV Research
ページ情報: 英文 318 Pages
納期: 即納可能
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光導波路市場規模は2029年までに99億米ドルに達し、予測期間中にCAGR7.0%の市場成長率で上昇すると予測されています。
ポータブルでウェアラブルな拡張現実(AR)ガジェットは、近年、最も革新的な技術の1つとなっています。光導波路技術は、その美しさ、大量生産能力、光学性能から、コンシューマーグレードのARメガネを提供する上で最も可能性があります。したがって、光導波路技術は、消費者向けARメガネの比類ない選択肢とみなされています。
光導波路のエンドユーザーとして最も重要なのはフォトニクス産業です。導波路を3次元空間に設置することで、電気回路と光ファイバーの一体化が可能になります。光ファイバーは、屈折率の低い2つの誘電体からなる円形の断面を持つ導波路であることが多いです。光ファイバーは石英ガラスが最も多く使われているが、短距離伝送を必要とする用途にはプラスチック製の光ファイバーも使われることがあります。
COVID-19影響分析
光導波路市場は、COVID-19の発生により、いずれの場合も影響を受けました。世界なサプライチェーンが寸断された結果、光導波路に関わる部品や製品の生産・流通が滞っています。しかし、高速インターネット需要の拡大や、様々な最終産業における光ファイバー技術の受け入れ拡大が、光導波路の使用増加に寄与しています。その結果、COVID-19は光導波路ディスプレイ市場に好影響を与えています。
市場成長要因
フォトニック集積回路の進歩
光子は、電気回路の抵抗、コンデンサ、トランジスタ、配線と同様に、PICの導波路、偏光子、移相器などの光学素子を通過します。PICが提供するハイエンド機能には、低損失伝送、小型フットプリント、広帯域幅、電気短絡に対する耐性、電磁干渉 (EMI) の欠如などがあります。データセンターインターコネクト (DCI)、ハイパフォーマンスコンピューティング (HPC)、電気通信、および光コンピューティングは、これらのPICの高い採用率が見られる開発中のアプリケーションケースの一部です。
電子デバイスの小型化需要の高まり
小型化により、機械、光学、電気製品、デバイスはより小さくなります。世界的に、電子機器の小型化は徐々に勢いを増しています。消費者は、電子機器の携帯性や軽さにますます惹かれています。それゆえ、小型の電気部品の使用が増加しています。電子機器は、利用可能なスペースを最大限に活用し、小型のフォームファクター電子部品を採用して最終製品のデザインを向上させるために作成されています。消費者は、最小限のサイズで最大の性能を持つハンドヘルド電子ガジェットを選んでいます。
市場抑制要因
設計・製造上の問題
光導波路は、近年フットプリントが大幅に縮小していることなどから、マイクロチップや集積回路への組み込みが困難です。また、光導波路の小型化、高耐久性などの要求により、設計・製造にコストがかかります。これらの要件は、コンポーネントの性能属性を損なうものであってはなりません。その結果、光導波路の製造と配備に必要な高いコストと時間が、市場拡大の障壁となっています。
タイプ別の展望
光導波路市場は、タイプ別に平面導波路とチャネル導波路に分類されます。2022年には、チャネル導波路セグメントが光導波路市場を独占し、最大の収益シェアを獲得しました。その双方向の横方向の光閉じ込め特性は、優れた速度&帯域幅を提供し、このセグメントの拡大に貢献することができます。光ファイバー、アクティブ光ケーブル、ファイバーケーブルのようなチャネル導波路コンポーネントは、誘導波の方向を調整したり、横方向のシフトを提供するために、曲げたり湾曲させることができます。
材料の展望
光導波路市場は、材料別にガラス、ポリマー、半導体に分類されます。半導体セグメントは、2022年の光導波路市場において有望な成長率を調達しました。半導体製の光導波路は、設計の自由度がかなり高く、製造が簡単です。半導体製光導波路は、高い光伝達効率、信号損失の少なさ、電磁波障害のなさ、ビット誤り率の低さなどが特徴です。これらの特性は、高速混合信号ベースの信頼性の高い現代通信に適しています。
伝播の展望
光導波路市場は、伝播方式によってシングルモードとマルチモードに分類されます。2022年の光導波路市場では、マルチモードセグメントが突出した収益シェアを予測しています。マルチモード伝播の高い減衰率と分散率が、このセグメントの拡大に寄与しています。OM5ファイバーの存在により伝送距離が長くなると、光信号の品質が低下します。OM5ファイバーは、中距離を高速で伝送し、高い帯域幅を顧客に提供するため、この分野は予想される期間中、大きな需要があります。
相互接続レベルの展望
光導波路市場は、相互接続レベルに基づき、メトロ・長距離光相互接続、基板間・ラックレベル光相互接続、チップレベル・基板レベル光相互接続に分類されます。チップレベル・基板レベル光相互接続セグメントは、2022年に光導波路市場でかなりの収益シェアを獲得しました。高速データ転送速度と低消費電力でコパッケージされたオプティクス、コンピュータ、光トランシーバへの需要が高まっています。チップレベル・基板レベル光相互接続のニーズの高まりは、パラレルコンピューティング、マルチコアコンピュータ、3Dデバイスの台頭によってもたらされています。その結果、多くのエンドユーザー分野の高い計算速度要件を満たすために、その重要性が増しています。
エンドユーザーの展望
光導波路市場は、エンドユーザー別に、通信、データセンター・ハイパフォーマンスコンピューティング(HPC)、医療、計測、航空宇宙・防衛、コンシューマーエレクトロニクス、産業、その他に分類されます。2022年の光導波路市場では、通信分野が最も高い収益シェアを占めています。このセグメントの成長は、無線および定点通信システムのユーザー数の増加、低価格の通信機器へのアクセス、通信サービスプロバイダーが提供する低価格のサービス、世界のインターネットユーザー層の拡大が要因となっています。
地域別展望
地域別に見ると、光導波路市場は北米、欧州、アジア太平洋、LAMEAで分析されています。2022年には、アジア太平洋地域が最大の収益シェアを獲得し、光導波路市場をリードしました。同地域のフォトニクスや半導体分野の発展を促進する政府の政策が、市場成長の原動力となっています。光導波路市場の拡大は、同地域のさまざまなフォトニクス新興企業の存在によって支えられています。フォトニクスソリューションの市場開拓と生産は、これらの企業にとって常に焦点となっています。
List of Figures
The Global Optical Waveguide Market size is expected to reach $9.9 billion by 2029, rising at a market growth of 7.0% CAGR during the forecast period.
Waveguides are transparent, minuscule optical parts that expand the exit pupil while transferring a projected virtual image to the eye. An optical waveguide is a physical structure that facilitates the transmission of electromagnetic radiation in the optical spectrum. Common optical waveguides include optical fiber and transparent plastic and glass dielectric waveguides.
The growing use of electronic devices is one of the key driving forces behind the optical waveguide market. In high bandwidth applications, such as the widely used smart gadgets, the rapid volume of data flow has led to increasing data traffic, which has multiplied the requirement for optical waveguides. Faster and higher bandwidth connections, such as FFTN, FTTH, and FTTC that use optical fiber lines to transfer data are now necessary.
Portable and wearable augmented reality (AR) gadgets have become one of the most innovative forms of technology in recent years. Because of its aesthetics, capacity to be produced in large quantities, and optical performance, optical waveguide technology offers the most potential to provide consumer-grade AR glasses. Hence, it is regarded as an unrivaled option for consumer-grade AR glasses.
The Photonics industry is the most important end user of optical waveguide. Setting up the waveguides in three-dimensional space enables the integration of electrical circuits and optical fibers. An optical fiber is often a waveguide with a circular cross-section made of two dielectric materials, one of which has a lower refractive index. Although silica glass is used most frequently to make optical fibers, plastic optical fiber can also be used for applications requiring short-distance transmission.
COVID-19 Impact Analysis
The optical waveguide market was impacted in both instances by the onset of the COVID-19 outbreak. As a result of the disruption of global supply chains, production & distribution of components and products involving optical waveguides were slowed down. Despite this, the expanded demand for high-speed internet and the expanding acceptance of fiber optic technology in various end-use industries have contributed to the rise in the use of optical waveguides. As a result, COVID-19 has had a favorable impact on the optical waveguide display market.
Market Growth Factors
Advancements in photonic integrated circuits
Photons go through optical elements like waveguides, polarizers, and phase shifters in PICs, analogous to resistors, capacitors, transistors, and wires in electrical circuits. High-end capabilities offered by PICs include low-loss transmission, miniature footprints, wide bandwidth, resilience to electric short circuits, and lack of electromagnetic interference (EMI). Data center interconnect (DCI), high-performance computing (HPC), telecommunication, and optical computing are a few developing application cases that are seeing significant acceptance rates for these PICs.
Rising demand for miniaturization of electronic devices
Miniaturization produces smaller mechanical, optical, and electrical products & devices. Globally, the miniaturization of electronic devices is gradually gaining momentum. Consumers are increasingly drawn to the portability and lightweight of electronic devices. Hence, the use of miniature electric components is increasing. Electronic devices are being created to maximize the available space and enhance the final product design, employing small form factor electronic components. Consumers choose handheld electronic gadgets with minimal size and maximum performance.
Market Restraining Factors
Designing & fabricating issues
Optical waveguides are difficult to integrate into microchips & integrated circuits for a number of reasons, including the fact that their footprints have shrunk significantly in recent years. Additional costs for design and fabrication are caused by criteria such as miniaturization and ruggedness for such components. These requirements must not compromise the performance attributes of the component. As a result, the high costs and length of time required for producing and deploying optical waveguides act as a barrier to the market's expansion.
Type Outlook
Based on type, the optical waveguide market is segmented into planar waveguide and channel waveguide. In 2022, the channel waveguide segment dominated the optical waveguide market with the maximum revenue share. Its two-way transverse optical confinement property, which offers superior speed & bandwidth, can be credited with the segment's expansion. To adjust the guided wave's direction or to provide a lateral shift, the channel waveguides components, like optical fibers, active optical cables, and fiber cables, can be bent or curved.
Material Outlook
On the basis of material, the optical waveguide market is fragmented into glass, polymer and semiconductor. The semiconductor segment procured a promising growth rate in the optical waveguide market in 2022. Optical waveguides made of semiconductors have considerable design freedom and are simple to manufacture. High light transfer efficiency, minimal signal loss, the absence of electromagnetic disturbances, and a lower bit error rate are all characteristics of optical waveguides made from semiconductors. These attributes are suited for high-speed mixed signals-based, dependable modern communication.
Propagation Outlook
By propagation, the optical waveguide market is classified into single mode and multi-mode. The multimode segment projected a prominent revenue share in the optical waveguide market in 2022. Multimode propagation's high attenuation & dispersal rate contribute to the segment's expansion. As the transmission distance increases due to the presence of OM5 fiber, the quality of optical signals will diminish. As it offers customers high bandwidth at rapid speeds across moderate distances, the segment will be in great demand during the anticipated period.
Interconnect level Outlook
Based on interconnect level, the optical waveguide market is bifurcated into metro & long haul optical interconnect, board-to-board & rack-level optical interconnect, and chip- & board-level optical interconnect. The chip- & board-level optical interconnect segment acquired a substantial revenue share in the optical waveguide market in 2022. The demand for co-packaged optics, computers, and optical transceivers with fast data transfer speeds and low power consumption is rising. An increased need for chip-and-board-level optical interconnects is driven by the rise of parallel computing, multicore computers, and 3D devices. As a result, they are becoming increasingly important to meet numerous end-use sectors' high computation speed requirements.
End User Outlook
By end user, the optical waveguide market is categorized into telecommunication, data center & high-performance computing (HPC), medical, metrology, aerospace & defense, consumer electronics, industrial and others. In 2022, the telecommunication segment held the highest revenue share in the optical waveguide market. The segment's growth is driven by a rising number of wireless and fixed-point communications system users, the accessibility of low-cost communication equipment, the low-cost services provided by telecom service providers, and an expanding global Internet user base.
Regional Outlook
Region wise, the optical waveguide market is analyzed across North America, Europe, Asia Pacific and LAMEA. In 2022, the Asia Pacific region led the optical waveguide market by generating the largest revenue share. Government policies that foster the development of the photonics or semiconductor sectors in the region are what drive the market growth. The expansion of the optical waveguide market is being aided by the presence of various photonics start-up companies in the region. The market-scale development & production of photonics solutions is a constant focus for these firms.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Corning Incorporated, Sumitomo Electric Industries, Ltd., Yangtze Optical Fibre and Cable Joint Stock Limited Company, Fujikura Ltd., Prysmian Group, Furukawa Electric Co., Ltd., CommScope Holding Company, Inc., Sterlite Technologies Limited, Coherent Corp. and DigiLens Inc.
Strategies Deployed in Optical Waveguide Market
Mar-2023: Sumitomo Electric Industries, Ltd. formed a partnership with US Conec, Ltd., designs and manufactures a full suite of industry leading connector embodiment packages. Through this partnership, the company aimed to deliver connectivity solutions using their MMC connector to help clients reduce installation time.
Jan-2023: Prysmian launched 864-fiber version of its Sirocco HD microduct cables. The new Sirocco HD microduct cables features Prysmian's BendBright-A2 200-µm single-mode bend-insensitive fiber that reduce the diameter of the cable. The product is designed to install into microducts.
Oct-2022: STL revealed multicore fibre and cable. The new product features Quad-core fibre connectivity and Quantum communication feasibility and reduces Carbon footprint. Additionally, the Multicore fibre and cable transform 5G and data center connectivity.
Sep-2022: Corning Inc expanded its business to Mszczonow, Poland. The new optical fiber manufacturing facility would aim to fulfill the increasing demand for high-speed connectivity in the European Union and neighboring regions. Through this geographic expansion, the company would increase its local supply and manufacturing to fulfill the demand in international markets.
Aug-2022: STL introduced a range of compatible optical connectivity products including Stellar fibre, Pre-connectorized drop cabling solutions, Closure (CORC) and Celesta Intelligently Bonded Ribbon Cable combined with Compact Optical Ribbon Closure (CORC). The launch is aimed at enabling accelerated network rollouts to empower digital transformation and smooth user experience.
Aug-2022: Furukawa Electric LatAm entered into partnership with Nokia, a Finnish telecommunication, information technology, and consumer electronics corporation. Through this partnership, the company aimed to bring innovative solution to the clients and provide a reliable and secure technological platform.
Dec-2021: Prysmian Group took over Omnisens S.A., a leader in high performance fiber-optic based monitoring solutions. The acquisition would solidify the company's value-added businesses.
Jul-2021: Furukawa Electric Co., Ltd. joined hands with Fujitsu Optical Components Limited, an optical component business of Fujitsu Limited. The company aims to develop communications networks by integrating the technologies together. Additionally, the company would offer transceiver solutions to its customers across Asia region.
Jul-2021: DigiLens Inc. formed a partnership with Mitsubishi Chemical Corporation, global leader in the chemical industry. The company aims to bring plastic waveguide for XR glasses for consumer and business use.
Jan-2021: Sterlite Technologies acquired Optotec, an Italy-based manufacturer of optical interconnect products. The addition of Optotec enables the acquiring company to offer a comprehensive set of solutions to its clients across Middle East, India and Europe.
Oct-2020: Corning Optical Communications LLC, a subsidiary of Corning Incorporated joined hands with CommScope Technologies LLC, a subsidiary of CommScope Holding Company, Inc., to offer a broad range of optical connectivity solutions. The collaboration is aimed at making wide range of solutions optical connectivity solutions.
Feb-2019: Sumitomo Electric Industries teamed up with Optoscribe, supplier of 3D glass-based integrated photonics components. The collaboration is aimed at addressing the performance challenge faced by datacom and telecom applications and for further deployment of multicore fiber and related technologies.
Market Segments covered in the Report:
By Type
By Interconnect Level
By Material
By Propagation
By Industry
By Geography
Companies Profiled
Unique Offerings from KBV Research