6G 통신 광학 및 옵트로닉스 기회 : 시장, 기술(2026-2046년)
6G Communications Optical and Optronic Opportunities: Markets, Technologies 2026-2046
상품코드 : 1842717
리서치사 : Zhar Research
발행일 : 2025년 10월
페이지 정보 : 영문 452 Pages
 라이선스 & 가격 (부가세 별도)
US $ 4,900 ₩ 7,062,000
PDF (Single User License) help
PDF 보고서를 1명만 이용할 수 있는 라이선스입니다. 인쇄 가능하며 인쇄물의 이용 범위는 PDF 이용 범위와 동일합니다.
US $ 14,700 ₩ 21,187,000
PDF (Site License) help
PDF 보고서를 동일 사업장의 모든 분이 이용할 수 있는 라이선스입니다. 인쇄 가능하며 인쇄물의 이용 범위는 PDF 이용 범위와 동일합니다.
US $ 19,600 ₩ 28,249,000
PDF (Enterprise License) help
PDF 보고서를 동일 기업의 모든 분이 이용할 수 있는 라이선스입니다. 인쇄 가능하며 인쇄물의 이용 범위는 PDF 이용 범위와 동일합니다.


한글목차

광학 및 옵트로닉스는 6G 통신의 성공에 필수적인 요소이며, 이 보고서는 그 방향성을 보여줍니다. 본 보고서는 투자자부터 통신사업자, 광학 및 옵트로닉스 소재공급자나 통합사업자에 이르기까지 6G 밸류체인에 관련된 모든 관계자를 대상으로 하고 있습니다. 6G는 주로 기존의 5G 하드웨어와 주파수를 개선하여 도입되지만 물리층을 넘는 레벨에서의 대폭적인 개선이 기대되고 있습니다. 파괴적인 새로운 서비스와 높은 수익성을 실현하기 위해서는 광학 및 광자의 도입이 시급합니다.

필수적인 새로운 하드웨어

6G는 성능을 굉장히 향상시켜 널리 받아들여지는 성능을 실현하고, 완전히 새로운 유형의 클라이언트 디바이스나 비즈니스 모델을 창출할 가능성을 약속하고 있습니다. 따라서 광무선통신(OWC), 광신호처리(OSP), 자기발전용 태양광발전기술, 주광방사냉각(PDRC)에 의한 수동냉각기술, 개량형 광섬유 및 중간매체 등을 추가할 필요가 있습니다. 인프라의 대부분은 광학적으로 투명하게 되어, 「사회에 녹는 통신망」으로서, 보다 많은 장소에서 받아들여지는 것이 요구되고 있습니다.

뛰어난 성능을 광범위하게 실현하기 위한 필수 루트

이러한 광학 및 옵트로닉스 기술을 도입해야 6G는 진정으로 약속된 성능 수준에 도달할 가능성이 있습니다. 단순한 GHz 대역 위성 통신이나 실내 Wi-Fi에 머무르지 않고, 6G는 레이저 및 레이저 다이오드, 재구성 가능한 광자 지적 표면(RIS), 포토닉 칩, 다접합형 태양전지 필름, 성층권을 비행하는 솔라 드론 기지국, 옵트로닉 전송선, 광 홀로그래피, 스마트 윈도우 등에 응용되는 다기능 구조형 옵트로닉 소재 등의 새로운 광기술의 세계를 포함합니다.

매우 종합적이고 실용적인 452 페이지 상업 보고서

452페이지의 본 보고서는 박사 수준의 전문 지식을 바탕으로 2025년까지의 진전을 철저히 분석했습니다. 내용은 항상 업데이트되므로 최신 정보를 얻을 수 있으며 OWC뿐만 아니라 모든 기회를 다룹니다.

목차

제1장 주요 요약과 결론

제2장 소개

3장 6G용 광 무선 통신(OWC) 인프라 및 클라이언트 장치

제4장 6G용 광학 재구성형 지적 표면(ORIS) 및 광 튜닝 기술(진전 포함, 2025년)

5장 6G 인프라 및 클라이언트 디바이스를 위한 기타 광학/광학 지원 기술(고체 방사선 냉각, PDRC, 투명 하드웨어, 스마트 윈도우)

제6장 광신호처리(OSP), 다기능 6G 인프라 및 클라이언트 디바이스를 포함한 태양광 발전, 원적외선 및 테라헤르츠(THz) 파도 및 케이블, 광섬유, 옵트로닉스 센서

제7장 6G 관련 재료 및 하드웨어에 관여하는 40개사 : 제품·계획·특허·Zhar Research에 의한 평가

KTH
영문 목차

영문목차

Summary

6G Communications Optical and Optronic Opportunities: Markets, Technologies 2026-2046

Your optics and optronics are essential for 6G Communications to succeed. The new report, "6G Communications Optical and Optronic Opportunities: Markets, Technologies 2026-2046" shows the way. It serves those entering the 6G value chain from investors to operators and particularly suppliers and integrators of those vital optical and optronic materials. Yes, 6G will launch mostly with modified 5G hardware and 5G frequency use but strong improvements above the physical layer. However, urgently, that must be followed by adding the optics and optronics that galvanises disruptive services and paybacks.

Essential new hardware

6G promises the widely available performance improved by magnitudes that can lead to radically new client devices and business propositions. For this, it must add Optical Wireless Communications OWC, Optical Signal Processing OSP, photovoltaics for self-powering, Passive Daylight Radiative Cooling PDRC, extra, improved fiber optics intermediary and more. Much infrastructure will need to become optically transparent to, "vanish into the fabric of society" - acceptable in far more places.

Essential route to widespread superlative performance

Only with these and other forms of optics and optronics can 6G approach the promised magnitudes of improvement in parameters during widespread deployment. Think beyond ubiquity from mere GHz satcoms and defaulting to WiFi indoors. 6G must embrace a world of lasers, laser diodes, optronic reconfigurable intelligent surfaces and receivers, photonic chips, multijunction solar film, solar drone "towers in the sky", optronic transmission lines, optical holography and multifunctional structural optronic material including in smart windows.

Uniquely thorough and broad-ranging report

The commercially-oriented 452-page report, "6G Communications Optical and Optronic Opportunities: Markets, Technologies 2026-2046" is uniquely useful. It deeply examines the remarkable advances through 2025 with PhD level insights. It is constantly updated so you only get the latest. It covers all your opportunities not just OWC.

New initiatives, advances, comparisons, possibilities

The 71-page "Executive Summary and Conclusions" is easy reading with graphics presenting 11 of the SWOT appraisals, the materials and component toolkits and prioritisation by new research success and appraised usefulness. Scan the 48 forecast lines and graphs with explanations. See 16 key conclusions. The 35-page Chapter 2. "Introduction" gives the lessons though wireless communications generations and need for two phases of 6G. Here are candidate optical and optronic materials and components and the trend from components-in-a-box to smart materials and metasurfaces. See examples of optical transparency developed for 6G. In all chapters, there are many references to research papers and assessment of them. They are mostly through 2025, with some that will publish in 2026.

Chapter 3. "Optical Wireless Communications involving infrastructure and client devices for 6G" (30 pages) gives the basics. Then see such things as Optical Satellite Networks between satellites and aircraft-to-satellite and optical ground stations with Airbus embracing 6G proposing a formidable toolkit. There are infograms on "Importance of optical/ optronic communication hardware in 6G" and "OWC with fiber optics in a potential Tbps 6G network adding far IR (THz), near IR and visible light". Read application in 6G of Non-Terrestrial Networks NTN including the work of 6G-NTN. See 6G client devices will incorporating more optical and optronic technology. What future OWC lasers, laser diodes, photodetectors and other OWC photonics are revealed in 2025 and planned 2026 research? Infograms and comparisons tables are used throughout, not rambling text.

Chapter 4. "Optical Reconfigurable Intelligent Surfaces ORIS and optical tuning for 6G including advances in 2025" (67 pages) goes deeply into latest advances, the potential and the objectives in these areas. What ORIS benefits, challenges, materials? Why does optical tuning control attract even for the opening non-optical frequencies of 6G? What materials?

Chapter 5. "Other optical and optronic support for 6G infrastructure and client devices : solid-state radiative cooling, PDRC, transparent hardware, smart windows" (93 pages) covers a large number of opportunities beyond OWC. Many are yet to be widely considered for 6G but, being important, they are your opportunity to fill gaps in the market. For example, every wireless generation uses infrastructure needing much more electricity and therefore needing much more cooling. PDRC does not cause local heating unlike conventional vapor compression cooling.

Dr. Peter Harrop, the primary author and CEO of Zhar Research advises, "PDRC converts heat to the infrared atmospheric window of frequency that emits into outer space and it reflects radiative heat arriving, sometimes doing even more. As 6G infrastructure increasingly merges into such things as high-rise buildings and solar drones loitering in the stratosphere, its cooling, energy harvesting and other services tend to become solid-state, optically transparent and shared with the host. 6G smart windows are one example covered. Learn which materials and technologies are winning in the 2025 research pipeline and in other work and planning."

Chapter 6. "Optical Signal Processing OSP, photovoltaics including as multifunctional 6G infrastructure and client devices, Far IR THz waveguides and cable, fiber optics, optronic sensors" (92 pages) is a deep dive into these aspects. What OSP advances are relevant to 6G? Materials? How will photovoltaics retain the fastest cost reduction and double output for a given area? Relevance to 6G infrastructure and client devices? PDRC cooling of the challenging cold side of thermoelectric harvesters needed? Photovoltaics handling data? Thermovoltaics? What are the many optronic sensors needed for 6G? Next THz waveguides and possibility of cable? Fiber optics reinvented? Materials winning in 2025 research?

Company profiles: 6G relevance and progress

The report then ends with 51 pages covering Chapter 7. "40 companies involved in "6G materials and hardware: products, plans, patents, Zhar Research appraisals: 2025-6", including 6G-related patents, achievements, intentions, and commentary.

The report, "6G Communications Optical and Optronic Opportunities: Markets, Technologies 2026-2046" is your essential guide.

CAPTION: Optical, optronic opportunities for 6G infrastructure and client devices 2026-2046. Source, "6G Communications Optical and Optronic Opportunities: Markets, Technologies 2026-2046".

Table of Contents

1. Executive summary and conclusions

2. Introduction

3. Optical Wireless Communication infrastructure and client devices for 6G

4. Optical Reconfigurable Intelligent Surfaces ORIS and optical tuning for 6G including advances in 2025

5. Other optical and optronic support for 6G infrastructure and client devices : solid-state radiative cooling, PDRC, transparent hardware, smart windows

6. Optical Signal Processing OSP, photovoltaics including as multifunctional 6G infrastructure and client devices, Far IR THz waveguides and cable, fiber optics, optronic sensors

7. 40 companies involved in 6G materials and hardware: products, plans, patents, Zhar Research appraisals: 2025-6

(주)글로벌인포메이션 02-2025-2992 kr-info@giikorea.co.kr
ⓒ Copyright Global Information, Inc. All rights reserved.
PC버전 보기