量子感測器-市場佔有率分析、產業趨勢與統計、成長預測（2025-2030）

Quantum Sensors - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030)

出版日期: 2025年03月18日 | 出版商:

Mordor Intelligence | 英文 121 Pages | 商品交期: 2-3個工作天內

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簡介目錄

量子感測器市場規模預計在 2025 年達到 7.6 億美元，預計到 2030 年將達到 13.9 億美元，預測期內（2025-2030 年）的複合年成長率為 12.95%。

關鍵亮點

政府對量子研究的投資正在增加，以獲得經濟和軍事優勢。美國《量子資訊科學國家戰略概述》將量子感測定義為「利用動態提高測量的基本精度，實現新的制度和測量方式和模式」。這些新能力具有明顯的軍事優勢，並可能對全球市場產生正面影響。
量子感測器產業的發展受到量子技術的發展所推動，尤其是在感測、通訊和計算等領域。
例如在工業檢測和醫療診斷應用中，量子放大成像技術的出現使得高解析度成像成為可能。同樣，量子金鑰分發（QKD）技術的進步正在加速量子感測器在安全通訊網路中的使用。
與量子技術相關的研發活動日益增多，預計將為各領域的市場成長提供充足的機會，例如定位系統、電場和磁場感測器、通訊技術、顯微鏡、礦產探勘、地震學，以及軍事、建築業和汽車機會。高可靠性和準確性使得該技術可應用於多個領域。
最終用戶產業將需要大量的前期投資來將這些感測器整合到自動駕駛、改進的近距離和遠距離成像技術、醫療進步和實現詳細的地下測繪等應用中。建立這樣的系統需要高昂的安裝、設計和製造成本。

量子感測器市場趨勢

石油和天然氣產業正在快速成長

由於碳氫化合物產品的探勘、生產和運輸環境日益惡劣，石油和天然氣產業面臨重大挑戰。量子技術將被用於增強安全性，為這一領域帶來新的能力。這些技術包括利用新型重量秤尋找額外的石油蘊藏量，利用光纖分佈式溫度和應變感測以及光學氣體成像系統來檢測和定位氣體洩漏。
此外，日本化學公司 JSR 和三菱化學已加入慶應義塾大學的量子計算生態系統 IBM Q Hub，探索利用量子計算開發化學應用。這些公司希望利用該中心的合作夥伴關係，包括財富 500 強公司、學術機構、國家研究實驗室以及 20 量子位元和 50 量子位元量子電腦，探索開發適合各自業務的量子運算解決方案。
從地區來看，北美預計將佔據石油和天然氣產業的大部分佔有率。美國等國家擁有大型石油和燃氣公司和技術創新者，展現了量子感測器在石油和天然氣產業應用的潛力。
根據國際能源總署的STEPS情景，該情景考慮了目前已經實施的能源政策和正在製定的能源政策，預計2030年全球石油產量將增加到每天9,900萬桶。

亞太地區：預計大幅成長

亞太地區擁有多個經濟成長顯著的新興市場。這種成長推動了對量子感測器等先進技術的需求，這些技術可以提高效率、生產力和工業競爭力。
中國是該地區投資量子感測器並開展研究以開發可應用於各領域的新型量子感測設備的關鍵國家。預計量子技術將在未來幾年對未來的軍事行動產生重大影響。中國專注於該技術的軍事應用，並致力於成為量子資訊科學領域的重要參與企業。
例如，中國科學家研發出利用光子對之間糾纏的單光子量子雷達，能夠高精度地偵測100公里外的目標。該測試概述了量子技術在軍事應用的範圍，並有望推動量子感測器市場的發展。
此外，該地區的製造業正在快速成長，預計將推動市場成長。「中國製造2025」等中國政府計畫正在刺激和投資工廠自動化和技術研發活動。由於大多數自動化設備都是從其他國家進口的，「中國製造」計畫旨在擴大自動化設備的國內生產。
亞太地區各國政府都認知到量子技術的潛力，並正在投資研究、開發和商業化工作。政府的資金和政策支援正在刺激創新，為量子感測器產業的發展創造有利條件。

量子感測器市場概況

量子感測器市場是一個分散且競爭激烈的市場，主要參與者包括 AOSense Inc.、Apogee Instrument Inc.、M Squared Laser Limited、Muquans SAS 和 Robert Bosch GmbH。該市場中的參與企業正在採取聯盟、合併、投資和收購等策略來加強其產品供應並獲得永續的競爭優勢。

2024 年 3 月，雪佛龍公司宣布投資石油和天然氣市場的量子運算開發。雪佛龍公司的子公司雪佛龍技術創投公司參與了 1 億美元的 B 輪資金籌措。這些投資顯示石油和天然氣產業對量子技術的興趣日益濃厚。
2024年1月，法國國家太空研究中心、德國航太中心（DLR）、空中巴士防務與航太公司、GMV、FORTH/PRAXI和歐盟委員會啟動了歐洲CARIOQA計劃的A階段。透過歐盟委員會「地平線歐洲」計畫的捐助，CARIOQA 正在利用法國和德國在量子感測器方面的優勢來吸引法國、德國和歐洲未來的工業。 CARIOQA 任務的目標是到 2030 年在衛星上測試第一個原子加速計。

其他福利

Excel 格式的市場預測 (ME) 表
3個月的分析師支持

Key Highlights

Government investments in quantum research to gain economic and military advantage have been increasing. The National Strategic Overview for Quantum Information Science released by the United States defined quantum sensing as 'leveraging quantum mechanics to enhance the fundamental accuracy of measurements and enabling new regimes or modalities for sensors and measurement. Such new capabilities could afford clear military advantages and positively influence the market globally.
Innovation in the quantum sensors industry is being driven by developments in quantum technology, especially in fields like sensing communication and computation.
For instance, high-resolution imaging is now possible for industrial inspection and medical diagnostic applications because of the advent of quantum-enhanced imaging techniques. Similarly, the use of quantum sensors for secure communication networks is being fueled by advancements in quantum key distribution (QKD) technology.
Growing research and developmental activities related to quantum technology are expected to provide ample opportunities for market growth in different fields, such as positioning systems, electric and magnetic field sensors, communication technology, microscopy, mineral prospecting, and seismology, along with applications in military, construction industry, and automotive. High credibility and accuracy make this technology accessible across various sectors.
There is a high level of initial investment required in end-user industries for integrating such sensors in applications such as autonomous driving, improved imaging technologies at short and long distances, medical progress, and enabling detailed underground mapping. The high costs of setting up these systems are concerned with proper installation, design, and fabrication.

Quantum Sensors Market Trends

Oil and Gas Industry to Grow Significantly

The oil and gas industry faces remarkable challenges as hydrocarbon product exploration, production, and transportation are conducted in ever-more challenging environments. Quantum technologies bring new capabilities to the sector as they are adopted to provide increased safety and security. These range from new forms of gravimeters to discover further oil reserves to fiber optic distributed temperature and strain sensing and optical gas imaging systems to detect and locate gas leaks.
Furthermore, to explore developing chemistry applications using quantum computing, Japanese chemical companies JSR and Mitsubishi Chemical joined a quantum computing ecosystem, the IBM Q Hub, at Keio University in Japan. Both companies expect to leverage the Hub's collaborative partnership with Fortune 500 companies, academic institutions, national research labs, and access to 20-qubit and 50-qubit quantum computers to investigate developing quantum computing solutions specific to their businesses.
Based on geography, North America is expected to hold a substantial share of the oil and gas industry. Countries like the United States have a strong presence of leading oil and gas companies and technology innovators, which signifies the potential adoption of quantum sensors in the oil and gas industry.
According to IEA's Stated Policies Scenario (STEPS), which takes into account the current situation of energy policies already in place and those under development, global oil production is expected to increase to 99 million barrels per day by 2030.

Asia-Pacific is Expected to Register Major Growth

Asia-Pacific is home to several emerging markets experiencing significant economic growth. This growth drives demand for advanced technologies like quantum sensors to improve efficiency, productivity, and industry competitiveness.
In the region, China is a significant country that invests in quantum sensors and conducts research to develop new quantum sensing devices, which could be applicable in various fields. Over the next few years, quantum technology is expected to have significant implications for future military operations. China is focused on utilizing this technology for its military applications and aims to become a significant player in quantum information science.
For instance, Chinese scientists have created a single-photon quantum radar, which takes advantage of entanglement between photon pairs, capable of detecting targets up to 100 kilometers away with high accuracy. This test offers an initial overview of the scope of quantum technology in military applications, which is expected to drive the quantum sensors market.
Furthermore, the region's manufacturing industry is rapidly growing, which is expected to aid the market's growth. The Chinese government's programs, such as the Made in China 2025 plan, promote R&D activities in factory automation and technologies and invest in them. As most of the automation equipment is imported from other countries, the 'Made in China' initiative aims to expand the country's domestic production of automation equipment.
Governments in Asia-Pacific recognize the potential of quantum technologies and invest in research, development, and commercialization initiatives. Funding and policy support from governments stimulate innovation and create favorable conditions for the growth of quantum sensor industries.

Quantum Sensors Market Overview

The quantum sensors market is fragmented and competitive, with the presence of major players like AOSense Inc., Apogee Instrument Inc., M Squared Laser Limited, Muquans SAS, and Robert Bosch GmbH. Players in the market are adopting strategies such as partnerships, mergers, investments, and acquisitions to enhance their product offerings and gain sustainable competitive advantage.

In March 2024, Chevron Corporation announced an investment in quantum computing development for the oil and gas market. For this, Chevron Technology Ventures, part of Chevron Corporation, joined a USD 100 million Series B funding round. Such investments signal growing interest in quantum technologies within the oil and gas industry.
In January 2024, CNES, German Aerospace Center (DLR), Airbus Defence & Space, GMV, FORTH/PRAXI, and the European Commission kicked off phase A of the European CARIOQA project, a technology demonstration mission to space-rate quantum sensor measuring accelerations using cold atoms. CARIOQA is encouraging the future French, German, and European industries to leverage French and German excellence in quantum sensors, with contributions from the European Commission through its Horizon Europe program. The CARIOQA mission aims to test the first atomic accelerometer on a satellite by 2030.

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 Value Chain Analysis
4.3 Industry Attractiveness - Porter's Five Forces Analysis
- 4.3.1 Bargaining Power of Suppliers
- 4.3.2 Bargaining Power of Buyers
- 4.3.3 Threat of New Entrants
- 4.3.4 Threat of Substitutes
- 4.3.5 Degree of Competition
4.4 Assessment of the Impact of COVID-19 on the Industry

5 MARKET DYNAMICS

5.1 Market Drivers
- 5.1.1 Increasing Research Activities in the Quantum Field
- 5.1.2 Increasing Investment in Space Communication
5.2 Market Restraints
- 5.2.1 High Deployment and Maintenance Costs

6 MARKET SEGMENTATION

6.1 By Product Type
- 6.1.1 Atomic Clocks
- 6.1.2 Magnetic Sensors
- 6.1.3 PAR Quantum Sensors
- 6.1.4 Gravity Sensors
- 6.1.5 Other Product Types
6.2 By Application
- 6.2.1 Military and Defense
- 6.2.2 Automotive
- 6.2.3 Oil and Gas
- 6.2.4 Healthcare
- 6.2.5 Other Applications
6.3 By Geography
- 6.3.1 North America
- 6.3.2 Europe
- 6.3.3 Asia
- 6.3.4 Australia and New Zealand
- 6.3.5 Middle East and Africa
- 6.3.6 Latin America

7 COMPETITIVE LANDSCAPE

7.1 Company Profiles
- 7.1.1 AOSense Inc.
- 7.1.2 Apogee Instrument Inc.
- 7.1.3 M Squared Lasers Limited
- 7.1.4 Muquans SAS
- 7.1.5 Robert Bosch GmbH
- 7.1.6 Skye Instruments Ltd
- 7.1.7 Campbell Scientific Ltd
- 7.1.8 LI-COR Inc.