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Quantum Sensors Market 2024-2044


量子センサー市場 2024-2044

この調査レポートでは、量子センサー市場、技術、プレイヤーを評価し、技術開発者やエンドユーザーへのインタビューをもとに、複数のタイプの原子時計や磁場センサーを含む17の量子センシング技術分野を取り上... もっと見る

 

 

出版社 出版年月 電子版価格 ページ数 言語
IDTechEx
アイディーテックエックス
2023年7月21日 US$7,000
電子ファイル(1-5ユーザライセンス)
ライセンス・価格情報
注文方法はこちら
185 英語

※ 調査会社の事情により、予告なしに価格が変更になる場合がございます。


 

Summary

この調査レポートでは、量子センサー市場、技術、プレイヤーを評価し、技術開発者やエンドユーザーへのインタビューをもとに、複数のタイプの原子時計や磁場センサーを含む17の量子センシング技術分野を取り上げています。
 
主な掲載内容(目次より抜粋)
  • アトミック・クロック
  • 量子磁界センサー
  • 量子重力計
  • 量子ジャイロスコープ
  • 量子イメージセンサー
 
Report Summary
Quantum sensors promise to unlock new applications through dramatically increased sensitivity. Assessing the quantum sensor market, technologies and players, this report draws on interviews with technology developers and end users to cover 17 quantum sensing technology areas including multiple types of atomic clocks and magnetic field sensors. Applications of quantum sensors in electric vehicles, GPS denied navigation, medical imaging, and quantum computing are comprehensively explored, with the quantum sensor market forecast reach US$7.1bn by 2044.
 
Quantum sensors use quantum phenomena to enable highly sensitive measurements of many physical properties. These include time (atomic clocks), magnetic field and current, gravity, angular motion, single-photons and more. Superior sensitivity relative to their classical counterparts means that quantum sensors are attracting interest for applications including within electric and autonomous vehicles, brain scanners, quantum computers, underground mapping equipment, satellites and even consumer electronics. Furthermore, growing hype around other quantum technologies such as computing and communication assists in driving interest and investment into the quantum sensor space.
 
Wide-ranging technologies and applications
Given the diversity of technologies and target applications, there is significant variation of technology readiness level (TRL) and addressable market size across the quantum sensor space. For example, millions of chip-scale tunnelling magneto resistance (TMR) sensors have been sold into the automotive sector for remote current sensing, whilst biomagnetic imaging with optically pumped magnetometers is still at a very early stage. Similarly, bench-top sized atomic clocks have been used for years for research and accurate time tracking, whilst chip-scale devices have yet to become mainstream. Through conversations with both research centres and technology developers, this report assesses the technical and commercial readiness level of each underlying quantum sensing technology and provides a roadmap for future development.
 
Each quantum sensing technology is analysed in turn, discussing the fundamental operating principles, miniaturisation and manufacturing challenges, competitive landscape, and industry players. The report covers atomic clocks, quantum magnetic field sensors, quantum gyroscopes, quantum gravimeters and quantum image sensors. Each quantum sensor category is assessed using SWOT analyses and technical benchmarking tables. Applications explored include timing and inertial navigation, remote current sensing, biomagnetic imaging, underground asset mapping and quantum computing read-out.
 
 
Quantum sensor market technologies and applications roadmap. Source: Quantum Sensor Market 2024-2044
 
Key aspects of the quantum sensors market report
The research behind the report has been compiled IDTechEx analysts, following existing coverage of areas such as quantum computing, quantum dots and emerging image sensor technology. The methodology involved a mixture of primary and secondary research, with a key focus on speaking to executives and scientists from companies and research institutes developing quantum sensors, as well as stakeholders and end-users of quantum sensor technology. The growth potential in both the medium and long-term are compared - including estimates of both CAGR and market size. The report contains granular market forecasts covering 17 distinct quantum sensor product categories, forecasting across twenty years from 2024-2044. Annual revenue and annual sales volume forecasts are both included.
 
Key aspects of the Quantum Sensors Market report
This report provides a high-level assessment of the overall quantum sensing landscape. Covering fundamental technologies, key sensor types, and applications, this report includes:
  • An introduction to quantum sensing and the underlying technologies.
  • Roadmaps by technology and application for quantum sensors.
  • Discussion of macro-trends driving the adoption of quantum sensors.
  • Examples of recent innovations from established and emerging players.
  • Industry analysis based on multiple interviews and conferences.
  • Multiple SWOT analyses across key technologies.
  • 20-year market forecasts across 5 key technology types, segmented into 17 distinct forecast lines. This includes annual revenue and annual sales volume forecasts.
  • Assessments of technical and commercial readiness.
  • Company profiles covering established and emerging players, the majority based on primary interviews.
 
 


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Table of Contents

1. EXECUTIVE SUMMARY
1.1. The quantum sensor market 'at a glance'
1.2. Quantum sensors: Analyst viewpoint
1.3. What are quantum sensors?
1.4. Overview of quantum sensing technologies and applications
1.5. The value proposition of quantum sensors varies by hardware approach, application and competition
1.6. Comparing the scale of addressable markets (in volume) for key quantum sensing technologies
1.7. Why is navigation the most likely mass-market application for quantum sensors?
1.8. Quantum sensor market - Key forecasting results (1)
1.9. Investment in quantum sensing is growing
1.10. Quantum sensor industry market map
1.11. The quantum sensors market will transition from 'emerging' to 'growing'
1.12. Scaling up manufacture of miniaturized physics packages is a key challenge for chip-scale quantum sensors
1.13. Comparing the scale of addressable markets (in volume) for key quantum sensing technologies
1.14. Quantum sensor market - Key forecasting results (1)
1.15. Quantum sensor market - Key forecasting results (2)
1.16. Identifying medium term opportunities in the quantum sensor market: Market size vs CAGR (2024-2034)
1.17. Identifying long term opportunities in the quantum sensor market: Market size vs CAGR (2035-2044)
1.18. Atomic clocks: Sector roadmap
1.19. Quantum magnetometers: Sector roadmap
1.20. Quantum gravimeters: Sector roadmap
1.21. Quantum gyroscopes: Sector roadmap
2. INTRODUCTION
2.1. What are quantum sensors?
2.2. Classical vs Quantum
2.3. Quantum phenomena enable highly-sensitive quantum sensing
2.4. Key technology approaches to quantum sensing
2.5. Overview of quantum sensing technologies and applications
2.6. The value proposition of quantum sensors varies by hardware approach, application and competition
2.7. The quantum sensors market will transition from 'emerging' to 'growing'
2.8. Investment in quantum sensing is growing
2.9. Scaling up manufacture of miniaturized physics packages is a key challenge for chip-scale quantum sensors
3. ATOMIC CLOCKS
3.1.1. Atomic Clocks: Chapter Overview
3.2. Atomic Clocks: Technology Overview
3.2.1. Introduction: High frequency oscillators for high accuracy clocks
3.2.2. Challenges with quartz clocks
3.2.3. Hyperfine energy levels and the Caesium time standard
3.2.4. Atomic clocks self-calibrate for clock drift
3.2.5. Identifying disruptive atomic-clock technologies (1)
3.2.6. Identifying disruptive atomic-clock technologies (2)
3.2.7. Optical atomic clocks
3.2.8. Frequency combs for optical clocks and optical quantum systems
3.2.9. New modalities enhance fractional uncertainty of atomic clocks
3.2.10. Chip Scale Atomic Clocks for portable precision time-keeping
3.2.11. Assured portable navigation and timing (PNT) is a key application for chip-scale atomic clocks
3.2.12. A challenge remains to miniaturize atomic clocks without compromising on accuracy, stability and cost
3.3. Atomic Clocks: Key Players
3.3.1. Comparing key players in atomic clock hardware development
3.3.2. Key players: Lab-based microwave atomic clocks
3.3.3. Chip-scale atomic clock player case study: Microsemi and Teledyne
3.4. Atomic Clocks: Sector Summary
3.4.1. Atomic clocks: End users and addressable markets
3.4.2. Atomic clocks: Sector roadmap
3.4.3. Atomic Clocks: SWOT analysis
3.4.4. Atomic clocks: Conclusions and Outlook
4. QUANTUM MAGNETIC FIELD SENSORS
4.1.1. Quantum magnetic field sensors: Chapter overview
4.1.2. Introduction: Quantifying magnetic fields
4.1.3. Sensitivity is key to the value proposition for quantum magnetic field sensors
4.1.4. High sensitivity applications in healthcare are quantum computing are key market opportunities for quantum magnetic field sensors
4.1.5. Classifying magnetic field sensor hardware
4.2. Superconducting Quantum Interference Devices (Squids) - Technology, Applications and Key Players
4.2.1. Applications of SQUIDs
4.2.2. Operating principle of SQUIDs
4.2.3. SQUID fabrication services are offered by specialist foundries
4.2.4. Commercial applications and market opportunities for SQUIDs
4.2.5. Comparing key players with SQUID intellectual property (IP)
4.2.6. SQUIDs: SWOT analysis
4.3. Optically Pumped Magnetometers (OPMs) - Technology, Applications and Key Players
4.3.1. Operating principles of Optically Pumped Magnetometers (OPMs)
4.3.2. Applications of optically pumped magnetometers (OPMs) (1)
4.3.3. Applications of optically pumped magnetometers (OPMs) (2)
4.3.4. MEMS manufacturing techniques and non-magnetic sensor packages key for miniaturized optically pumped magnetometers
4.3.5. Comparing key players with OPM intellectual property (IP)
4.3.6. Comparing the technology approaches of key players developing miniaturized OPMs for healthcare
4.3.7. OPMs: SWOT analysis
4.4. Tunneling Magneto Resistance Sensors (TMRs) - Technology, Applications and Key Players
4.4.1. Introduction to tunneling magnetoresistance sensors (TMR)
4.4.2. Operating principle and advantages of tunneling magnetoresistance sensors (TMR)
4.4.3. Comparing key players with TMR intellectual property (IP)
4.4.4. Commercial applications and market opportunities for TMRs
4.4.5. Automotive market demand is growing for TMR sensors
4.4.6. TMRs: SWOT analysis
4.5. Nitrogen Vacancy Centers (N-V Centers) - Technology, Applications and Key Players
4.5.1. Introduction to N-V center magnetic field sensors
4.5.2. Operating Principles of N-V Centers magnetic field sensors
4.5.3. Applications of N-V center magnetic field centers
4.5.4. Comparing key players in N-V center magnetic field sensor development
4.5.5. N-V Center Magnetic Field Sensors: SWOT analysis
4.6. Quantum Magnetic Field Sensors: Sector Summary
4.6.1. Comparing market opportunities for quantum magnetic field sensors
4.6.2. Comparing market opportunities for quantum magnetic field sensors
4.6.3. Assessing the performance of magnetic field sensors
4.6.4. Comparing minimum detectable field and SWaP characteristics
4.6.5. Quantum Magnetometers: Sector Roadmap
4.6.6. Conclusions and Outlook
5. QUANTUM GRAVIMETERS
5.1.1. Quantum gravimeters: Chapter overview
5.2. Quantum Gravimeters: Technologies, Applications and Key Players
5.2.1. The main application for gravity sensors is for mapping utilities and buried assets
5.2.2. Operating principles of atomic interferometry-based quantum gravimeters
5.2.3. Comparing quantum gravity sensing with incumbent technologies for underground mapping
5.2.4. Comparing key players in quantum gravimeters
5.2.5. Quantum gravimeter development depends on collaboration between laser manufacturers, sensor OEMs and end-users
 

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