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1536847

兆赫技術：市場佔有率分析、產業趨勢/統計、成長預測（2024-2030）

Terahertz Technologies - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2024 - 2030)

出版日期: 2024年08月14日 | 出版商:

Mordor Intelligence | 英文 177 Pages | 商品交期: 2-3個工作天內

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簡介目錄

預計2024年全球兆赫技術市場規模將達7.1億美元，2024-2029年預測期間複合年成長率為21.82%，2029年將達23.2億美元。

兆赫技術是一個新興且不斷發展的領域，具有開發廣泛應用的潛力，從機場乘客掃描到大容量數位資料傳輸。兆赫系統在半導體產業的採用是促進兆赫技術產業成長的因素之一。

主要亮點

基於兆赫的技術目前正在進入各行業的商業市場，包括安全、無損檢測、汽車和通訊。這正在為市場創造更多機會。 Research and Development 開發了一種兆赫發射器，其數位資料傳輸速度比第五代行動網路 (5G) 快 10 倍以上。兆赫頻段是一種新的、巨大的頻率資源，有望用於未來超高速無線通訊，並正在推動市場成長。
5G和6G網路的實施需要使用與光收發器整合的面向寬頻的光纜，以確保資料傳輸的安全可靠。因此，中低收入國家光纖通訊基礎設施的擴張預計將推動未來光纖網路設備市場的發展。
由於兆赫技術具有高頻寬和頻率，因此有望應用於短程通訊服務。加強無線通訊系統和增加對5G市場的投資也可能有助於市場發展。此外，現有的農產品檢驗技術耗時且複雜，因此需要開發安全、快速、無損的檢驗技術。
對兆赫技術應用的認知和認知不足阻礙了該市場的成長。由於兆赫成像仍然是一項相對較新的技術，因此很難取代目前主導市場的現有技術。
COVID-19期間，兆赫技術市場成長，主要應用在醫療保健、生物醫學和安全領域。此外，在大流行後時期，預計各種組織和供應商將投資於適用於多種最終用戶應用的兆赫技術解決方案的研發，從而推動所研究市場的成長。

兆赫技術市場趨勢

市場細分預計通訊終端用戶領域將顯著成長

兆赫頻寬（0.3 至 10兆赫）作為無線通訊的新前沿而備受關注，因為它可以顯著擴展未使用的頻寬。儘管已知的 100 GHz 以上無線電頻道很少，但最近已經展示了幾種高速兆赫通訊鏈路。
目前，業界對毫米波頻段 (30-300GHz) 著迷，以為 5G 行動裝置提供每秒數千兆Gigabit(Gbps) 的資料速率。然而，與毫米波通訊類似，兆赫頻段也可以用作行動回程，在基地台之間傳輸大頻寬訊號。
處理多 GHz 通道的兆赫通訊系統可能需要數位域中更大的運算能力，其中基頻系統包括物理層 (PHY) 通道編碼等任務。同樣，類比領域需要改進類比數 (ADC) 和數位類比 (DAC) 部分，以有效捕捉更高頻率的訊號。此外，6G通訊將是最大的技術投資之一，並將廣泛支援2030年連網型機器的快速成長。
2022 年在全球擴大 5G 合約預計將為 6G 網路創造新的機會，其高速網路功能預計將在未來幾年提高消費者的受歡迎程度並推動市場成長。例如，愛立信表示，2019 年至 2028 年間，全球整體5G 用戶數量預計將從 1,200 萬以上增加到 45 億以上。
許多國家都推出了6G通訊發展計劃，預計將推動市場成長。例如，2023年10月，愛立信在清奈研發中心成立了印度6G研究團隊，並啟動了「印度6G計畫」。印度研究團隊與美國和瑞典的愛立信研發團隊將協助實現網實整合連續體，使網路提供身臨其境型通訊、關鍵服務和無所不在的物聯網，同時保持分散式資料的完整性。
2024年2月，中國最大的通訊業者中國移動宣布發射首顆衛星，在太空測試6G架構。此外，2023年2月，韓國宣布計畫於2028年推出6G網路服務，比原計畫提早了兩年。該國的目標是確保未來無線電頻譜的早期主導地位。韓國啟動了一項為期五年的國家計劃，斥資約2,200億韓元（1.93億美元）開發6G通訊核心技術，同時加強與美國的聯合研究與合作。韓國的目標是在2028年成為世界上第一個實現6G行動通訊商業化的國家。

預計北美將佔據較大市場佔有率

美國是兆赫技術的主要市場，這主要是由於國防安全保障疑慮、國防投資和研發的不斷增加。此外，美國政府對航太技術安全和生產的嚴格監管、不斷成長的汽車和航太工業正在推動該區域市場的兆赫技術市場。
根據航太工業協會提供的資料，2023年美國航空航太工業總銷售額超過9,520億美元，比2021年成長6.7%。總合而言，飛機工業創造了4,180億美元的經濟價值，相當於美國名義GDP的1.65%，比2021年成長近7.0%。飛機工業的高速成長是基於兆赫技術的檢測系統成長的主要推動力。
美國航太工業出口占所有航太產品的 60% 以上。
由於各種公共場所對安全篩檢設備的需求增加，預計加拿大對該技術的需求將大幅增加。例如，加拿大航空公司在乘客登機前往該國之前對其進行篩選。加拿大航空公司的工會—加拿大公共僱員工會 (CUPE) 宣布將增加飛行前篩檢，讓空服人員負責篩檢。
為了減少國內航班出發的等候時間，機場 B 號碼頭附近設立了一條新的安檢通道。隨著新通道的開通，篩檢能力增加了 30%。 PBS-B 是一種臨時解決方案，機場和加拿大航空運輸安全局 (CATSA) 正在考慮長期解決方案，以在未來將國內篩檢整合到一個地點。
加拿大政府正在投資機場基礎設施，以改善乘客和居民的流動性、安全性和保障。例如，2024 年 2 月，蒙特婁大都會機場 (YHU) 獲得加拿大基礎設施銀行 (CIB) 9,000 萬美元的投資，用於建造新的客運航站樓。這項投資預計將開發一個新的國內機場航站大樓，增強加拿大人往返蒙特利爾的旅行選擇，並支持蒙特利爾地區的經濟機會。此類投資可能會增加兆赫掃描儀等不斷發展的技術的機會，這些技術有望促進機場基礎設施的正常運作。

兆赫技術產業概況

兆赫科技市場較為分散，主要公司包括 Luna Innovations、Teravil Ltd、TeraView Limited、Toptica Photonics AG 和 HUBNER GmbH & Co.KG。市場競爭者正在利用合作夥伴關係、創新、擴張和收購等各種策略來增加產品系列併獲得永續的競爭優勢。

2023年12月－Luna Innovations宣布獲得White Hat Capital Partners 5,000萬美元投資。透過這項投資，該公司將專注於利用光纖感測解決方案採用的曲折點，提高製造能力以滿足戰略合作夥伴的需求，並增加創新投資。
2023 年 12 月 - TeraView Limited 在其英國總部歡迎來自馬來西亞的代表團。此次訪問預計將為未來的合作夥伴關係和兆赫技術應用的機會鋪平道路。此次訪問旨在探索 Terraview 與馬來西亞技術和研究領域主要利益相關人員之間的潛在合作。

其他好處

Excel 格式的市場預測 (ME) 表
3 個月分析師支持

依技術類型
- 兆赫成像系統
  - 主動系統
  - 被動系統
- 兆赫光譜系統
  - 時域
  - 頻域
- 通訊系統
按最終用戶
- 衛生保健
- 國防/安全
- 通訊
- 產業
- 食品/農業
- 研究所
- 其他最終用戶
按地區
- 北美洲
  - 美國
  - 加拿大
- 歐洲
  - 英國
  - 德國
  - 法國
  - 西班牙
  - 歐洲其他地區
- 亞太地區
  - 中國
  - 日本
  - 印度
  - 韓國
  - 其他亞太地區
- 拉丁美洲
- 中東/非洲

第7章競爭格局

公司簡介
- Luna Innovations
- Teravil Ltd
- TeraView Limited
- Toptica Photonics AG
- HUBNER GmbH & Co. KG
- Advantest Corporation
- BATOP GmbH
- Terasense GP Inc.
- Microtech Instrument Inc.
- Menlo Systems GmbH
- Gentec Electro-optics Inc.
- Bakman Technologies LLC

第8章投資分析

第9章市場機會及未來趨勢

簡介目錄

Product Code: 52352

The Terahertz Technologies Market size is estimated at USD 0.71 billion in 2024, and is expected to reach USD 2.32 billion by 2029, growing at a CAGR of 21.82% during the forecast period (2024-2029).

Terahertz technology is an emerging and growing field with the potential for developing applications ranging from passenger scanning at an airport to large digital data transfers. The adoption of terahertz systems in the semiconductor industry is one factor contributing to the growth of the terahertz technology industry.

Key Highlights

Terahertz-based technologies are now entering the commercial markets in various industries, such as security, non-destructive testing, automotive, and telecommunication. This further creates an opportunity for the market. Researchers have developed a terahertz (Terahertz) transmitter capable of transmitting digital data at a rate ten times or faster than that offered by fifth-generation mobile networks (5G). The terahertz band is a new and vast frequency resource expected to be used for future ultrahigh-speed wireless communications, driving the market's growth.
The implementation of the 5G network and 6G network necessitates the use of high-bandwidth oriented fiber optical cables integrated with optical transceivers to ensure secure and dependable data transfers. Consequently, the expanding optical communication infrastructure in low and middle-income countries is expected to drive the optical communication and networking equipment market in the future.
Due to higher bandwidth and frequency, Terahertz technology has greater prospective applications for short-distance communication services. The increasing investments in the enhancement of wireless communication systems and the 5G market might also help develop the market. Furthermore, the existing technologies for inspecting agricultural products are time-consuming and complex, and there is an inclination to develop a safe, rapid, and non-destructive inspection technology.
Insufficient knowledge and awareness about terahertz technology's applications hinder this market's growth. Since terahertz imaging is still a relatively new technology, replacing the existing technologies currently dominating the market is difficult.
During COVID-19, the terahertz technology market witnessed growth, with its major applications in healthcare, biomedical, and security. Furthermore, in the post-pandemic period, various organizations and vendors are expected to invest in R&D of the terahertz technology solution that can be applied in multiple end-user applications, thereby driving the growth of the market studied.

Terahertz Technology Market Trends

Telecommunications End User Segment is Expected to Witness Significant Growth in the Market

The terahertz band (0.3 Terahertz to 10 Terahertz) is the successive frontier in wireless communications for its capability to unlock significantly broader segments of unused bandwidth. Though radio channels above 100 GHz are slightly known, several high-speed terahertz communication links have been demonstrated recently.
Nowadays, the industry is preoccupied with mmWave frequency bands (30 to 300 GHz) to deliver multi-gigabit-per-second (Gbps) data rates for 5G mobile devices. However, like mmWave communications, terahertz bands can be used as mobile backhaul for transferring significant bandwidth signals between base stations.
A terahertz communication system processing a multi-GHz channel is likely to demand more significant computational capacity in the digital domain, where the baseband subsystem contains tasks like physical layer (PHY) channel coding. Similarly, the analog domain requires improvements in analog-to-digital (ADC) and digital-to-analog (DAC) parts to capture higher-frequency signals efficiently. Moreover, 6G Communications will become one of the largest technology investments, which can widely serve the exponential growth with connected machines in 2030.
The growing 5G subscriptions worldwide in 2022 are expected to create new opportunities for the 6G network and are expected to gain popularity among consumers in coming years due to its high-speed network capability, which will fuel the market growth. For instance, according to Ericsson, 5G subscriptions are forecast to increase globally from 2019 to 2028, from over 12 million to over 4.5 billion subscriptions, respectively.
Many countries are launching projects to develop 6G telecommunications, which is expected to boost market growth. For instance, in October 2023, Ericsson launched the 'India 6G program' with the creation of an India 6G Research Team at its Chennai Research & Development Center. India's research team, along with Ericsson research teams in the United States and Sweden, will work together to develop the technology that will help to bring a cyber-physical continuum, where networks will provide immersive communications, critical services, and omnipresent IoT while maintaining the integrity of the delivered data.
In February 2024, China Mobile, the largest telecom operator in China, stated that it launched the first satellite to test 6G architecture in space. Further, in February 2023, South Korea announced a plan to launch a 6G network service in 2028, two years prior to its original schedule. The country aims to secure an early dominance of future wireless frequencies. South Korea launched a five-year state project to spend around 220 billion won (USD 193 million) on developing core technologies for 6G telecommunication while stepping up joint research and cooperation with the United States. The country aims to achieve the world's first commercialization of 6G mobile telecommunication in 2028.

North America is Expected to Hold Significant Market Share

The United States is a key market for terahertz technologies, primarily owing to the growing homeland security issues, investments in defense, and R&D. In addition, the stringent government regulations regarding the safety and production of aerospace technologies in the United States and the growing automotive and aerospace industries are driving the market for Terahertz technologies in the regional market.
According to the data provided by the Aerospace Industry Association, in 2023, the American A&D industry generated over USD 952 billion in total sales, which is up 6.7%over 2021 levels, and of this, USD 537 billion was generated through direct industry output, and USD 415 billion was generated through indirect output, demonstrating the value of the domestic A&D supply chain. In total, the industry generated USD 418 billion in economic value or 1.65% of the total nominal GDP of the United States, which is up nearly 7.0% above 2021. Such heightened growth from the aircraft industry is a significant driver for the growth of inspection systems based on terahertz technology.
The increase in helicopters and commercial aircraft production in the United States is expected to drive the market-the aerospace industry of the US exports more than 60% of all aerospace production.
Canada is expected to witness significant growth in demand for the technology due to increased demand for security screening equipment across various public places. For instance, Canadian airlines screen passengers before they board flights bound for the country. Air Canada's union, the Canadian Union of Public Employees (CUPE), announced additional pre-flight screening by making flight attendants responsible for the screening.
New screening lanes were added near the airport's B Pier to reduce the wait time for domestic departures. The new lanes were open, representing a 30% increase in screening capacity. PBS-B is an interim solution, while the airport and Canadian Air Transport Security Agency (CATSA) look at long-term solutions for consolidating domestic screening into one location in the future.
The Canadian government is investing in airport infrastructure to provide passengers and residents with better mobility, safety, and security. For instance, in February 2024, Montreal Metropolitan Airport (YHU) received a USD 90-million investment from the Canada Infrastructure Bank (CIB) for a new passenger terminal. The investment is expected to enable the development of a new domestic airport terminal to enhance mobility options for Canadians traveling to and from Montreal while supporting economic opportunities in the Montreal region. Investments like these are likely to add opportunities for evolving technologies that are expected to promote the proper functioning of airport infrastructures, including terahertz scanners.

Terahertz Technology Industry Overview

The terahertz technology market is fragmented, with the presence of major players like Luna Innovations, Teravil Ltd, TeraView Limited, Toptica Photonics AG, and HUBNER GmbH & Co. KG. Market players are utilizing various strategies to increase their product portfolio and gain sustainable competitive advantages, such as partnerships, innovation, expansion, and acquisitions.

December 2023 - Luna Innovations announced that it received a USD 50 million investment from White Hat Capital Partners. Through this investment, the company would focus on capitalizing on the inflection point for adopting fiber optic sensing solutions, increasing manufacturing capacity to meet the demand from strategic partnerships, and enhancing its investments in innovations.
December 2023 - TeraView Limited hosted a delegation from Malaysia at its headquarters in the United Kingdom. The visit promises to pave the way for future partnerships and opportunities in applying terahertz technology. The visit aimed to explore potential collaborations between TeraView and critical stakeholders in Malaysia's technology and research sectors.

Additional Benefits:

The market estimate (ME) sheet in Excel format
3 months of analyst support

1 INTRODUCTION

1.1 Study Assumptions and Market Definition
1.2 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET INSIGHTS

4.1 Market Overview
4.2 Industry Attractiveness - Porter's Five Forces Analysis
- 4.2.1 Bargaining Power of Suppliers
- 4.2.2 Bargaining Power of Buyers
- 4.2.3 Threat of New Entrants
- 4.2.4 Threat of Substitutes
- 4.2.5 Degree of Competition
4.3 Industry Value Chain Analysis
4.4 Impact of COVID-19 and Macroeconomic Trends on the Market

5 MARKET DYNAMICS

5.1 Market Drivers
- 5.1.1 Increased Demand in the Medical Sector and Non-destructive Testing Applications
- 5.1.2 Holistic Approach to Security Through the Usage of Terahertz Technology
5.2 Market Restraints
- 5.2.1 Lack of Awareness of the Technology in the Market
- 5.2.2 Lacking the Device Infrastructure to Support the Adoption of Terahertz Technology

6 MARKET SEGMENTATION

6.1 By Type of Technology
- 6.1.1 Terahertz Imaging Systems
  - 6.1.1.1 Active System
  - 6.1.1.2 Passive System
- 6.1.2 Terahertz Spectroscopy Systems
  - 6.1.2.1 Time Domain
  - 6.1.2.2 Frequency Domain
- 6.1.3 Communication Systems
6.2 By End User
- 6.2.1 Healthcare
- 6.2.2 Defense and Security
- 6.2.3 Telecommunications
- 6.2.4 Industrial
- 6.2.5 Food and Agriculture
- 6.2.6 Laboratories
- 6.2.7 Other End Users
6.3 By Geography
- 6.3.1 North America
  - 6.3.1.1 United States
  - 6.3.1.2 Canada
- 6.3.2 Europe
  - 6.3.2.1 United Kingdom
  - 6.3.2.2 Germany
  - 6.3.2.3 France
  - 6.3.2.4 Spain
  - 6.3.2.5 Rest of Europe
- 6.3.3 Asia-Pacific
  - 6.3.3.1 China
  - 6.3.3.2 Japan
  - 6.3.3.3 India
  - 6.3.3.4 South Korea
  - 6.3.3.5 Rest of Asia-Pacific
- 6.3.4 Latin America
- 6.3.5 Middle East & Africa

7 COMPETITIVE LANDSCAPE

7.1 Company Profiles
- 7.1.1 Luna Innovations
- 7.1.2 Teravil Ltd
- 7.1.3 TeraView Limited
- 7.1.4 Toptica Photonics AG
- 7.1.5 HUBNER GmbH & Co. KG
- 7.1.6 Advantest Corporation
- 7.1.7 BATOP GmbH
- 7.1.8 Terasense GP Inc.
- 7.1.9 Microtech Instrument Inc.
- 7.1.10 Menlo Systems GmbH
- 7.1.11 Gentec Electro-optics Inc.
- 7.1.12 Bakman Technologies LLC