量子技術市場：依計算、通訊、成像、安全、感測、建模和模擬劃分（2024-2029）

本報告對量子技術市場進行了全面調查，重點介紹了專注於量子技術的公司/組織的研發工作，並確定了我正在評估的潛在的改變遊戲規則的量子技術解決方案。 我們也評估量子技術對其他關鍵技術和解決方案領域的影響，包括邊緣運算、區塊鏈、物聯網和大數據分析。 本報告提供了量子技術投資、研發和原型設計的區域和主要國家分析。

本書的主要發現：

• 2029 年全球量子科技市場總規模將達 613 億美元。
• 量子運算將以 43.7% 的複合年增長率引領市場，到 2029 年達到 613 億美元。
• 依地區劃分，北美將成為最大的量子科技市場。
• 中國將以 38.9% 的複合年增長率領先亞太市場，到 2029 年將達到 68.9 億美元。
• 德國將以 28.9% 的複合年增長率領先歐洲市場，到 2029 年將達到 42 億美元。
• 到 2029 年，全球量子點市場規模將達到 154 億美元，複合年增長率為 48.7%，其中顯示器領域為主導。
• 到 2029 年，全球量子感測市場規模將達到 14 億美元，是量子成像市場規模的兩倍多。
• 在超導量子乾涉裝置的推動下，全球量子磁力計市場將於 2029 年達到 11 億美元。

量子技術的發展

量子技術在去年取得了一些令人興奮的發展：

• 模組化量子電腦：IBM 計劃推出 Heron 處理器，該處理器專注於高品質量子位元以及直接連接到其他 Heron 處理器的能力。 這意味著向模組化量子電腦的過渡，這可以顯著擴展量子運算能力。
• 量子感測器：量子感測器的進步使得檢測物理世界中的量子活動成為可能，這是傳統感測器無法實現的。
• 混合量子應用：利用量子和經典計算來解決複雜問題的混合應用的趨勢不斷增長。
• 量子通訊：量子通訊技術的改進旨在實現基於量子密碼學的安全通訊通道。
• 新量子位元：新型量子位元（量子電腦的基本建構模組）的研究正在取得進展。
• 先進材料：新材料的開發對於提高量子電腦的性能和可擴展性至關重要。
• 後量子密碼學：隨著量子電腦的進步，也需要能夠抵禦量子攻擊的密碼技術。 該領域被稱為後量子密碼學2。
• 量子模擬：量子電腦用於模擬複雜的量子系統，對於新藥物和新材料的開發至關重要。
• 量子機器學習：將量子電腦與機器學習結合，為資料分析和模式識別創造了新的可能性。

目錄

第 1 章執行摘要

第 2 章簡介

• 瞭解量子技術
  • 量子科技框架
  • 量子霸權
• 量子技術領域
  • 量子計算
  • 量子密碼通信
  • 量子感測與成像
  • 量子點粒子
  • 量子級聯雷射
  • 量子磁力計
  • 量子密鑰分配
• 量子科技科學
  • 量子比特
  • 量子模擬
  • 量子密碼學
  • 量子光學
  • 量子隱形傳態
  • 量子資訊處理
  • 量子糾錯
  • 量子測量
  • 量子井和製造
  • 潛力大
  • 量子限制
  • 量子力學
  • 量子密鑰
  • 量子神經元
  • 量子駭客
  • 量子網絡
  • 量子電子學
• 疊加與糾纏
• 退相干和壓縮態
• 量子控制與安全
• 虛擬化
• 量子技術價值鏈
  • 軟體/平台公司
  • 半導體公司
  • 人工智慧公司
  • 分析提供者
  • 物聯網公司
  • 連線提供者
  • 企業和政府
  • 大學
  • 創投公司
  • 大型運算公司
• 量子科技市場影響因素
  • 成長動力/機遇
  • 市場課題
• 全球經濟衰退的前景
• 量子技術專利情況
• 量子科技的競爭格局

第三章量子技術與應用分析

• 量子計算
  • 量子位元開發進展
  • 量子計算機
  • 量子運算技術堆疊
  • 量子軟體平台
  • 產業應用與獲利機會
  • 百億億級運算平台
  • 市場混亂與企業準備分析
  • 專利和監管框架
  • 投資與商業模式分析
  • 競爭格局分析
  • 新創公司
  • 政府機關與地方政府
  • 大學研發
  • 創投公司
  • 國家與參與組織/公司的努力
• 量子密碼通信
  • 技術分析
  • 工業應用分析
  • 基於位置的加密
  • 抗量子密碼學
  • 專利分析
• 量子感測與成像
  • 技術分析
  • 產品分析
  • 量子成像裝置
  • 工業應用分析
  • 專利分析
• 量子點粒子
  • QD 產品
  • 量子點鎘材料
  • 生產流程分析
  • 工業應用分析
  • 專利分析
• 量子級聯雷射
  • 製造技術
  • 連續波和脈衝操作
  • 級聯雷射封裝
  • 工業應用分析
  • 專利分析
• 量子磁力計
  • 產品分析
  • 工業應用分析
  • 地球物理應用
  • 專利分析
• 量子密鑰分配
  • QKD 技術
  • 量子密鑰分配網絡
  • 政府部門申請
  • 對企業和私人企業的應用
  • 專利分析
• 量子雲與混合平台
• 量子5G通信
• 量子6G的影響
• 6G無線技術
  • 6G 量子機器學習
• 6G無線通信
  • 6G 功能所需的量子技術
• 量子人工智慧
  • 嵌入式硬體
  • 人工智慧晶片組
  • 人工智慧軟體和應用
  • 量子資料分析
• 量子人工智慧技術
  • 深度學習
  • 人工神經網絡
  • 模式識別
  • 上下文識別處理
  • 群體智能
• 量子物聯網技術
• 量子邊緣網絡
• 量子區塊鏈

第四章公司分析

• 1QB Information Technologies Inc.
• ABB（Keymile）
• Adtech Optics Inc.
• Airbus Group
• Akela Laser Corporation
• Alibaba Group Holding Limited
• Alpes Lasers SA
• Altairnano
• Amgen Inc.
• Anhui Qasky Science and Technology Limited Liability Company
• Anyon Systems Inc.
• AOSense Inc.
• Apple Inc.（InVisage Technologies）
• Biogen Inc.
• Block Engineering
• Booz Allen Hamilton Inc.
• BT Group
• Cambridge Quantum Computing Ltd.
• Chinese Academy of Sciences
• D-Wave Systems Inc.
• Emerson Electric Corporation
• Fujitsu Ltd.
• Gem Systems
• GeoMetrics Inc.
• Google Inc.
• GWR Instruments Inc.
• Hamamatsu Photonics K.K.
• Hewlett Packard Enterprise
• Honeywell International Inc.
• HP Development Company L.P.
• IBM Corporation
• ID Quantique
• Infineon Technologies
• Intel Corporation
• KETS Quantum Security
• KPN
• LG Display Co. Ltd.
• Lockheed Martin Corporation
• MagiQ Technologies Inc.
• Marine Magnetics
• McAfee LLC
• MicroSemi Corporation
• Microsoft Corporation
• Mirsense
• Mitsubishi Electric Corp.
• M-Squared Lasers Limited
• Muquans
• Nanoco Group PLC
• Nanoplus Nanosystems and Technologies GmbH
• Nanosys Inc.
• NEC Corporation
• Nippon Telegraph and Telephone Corporation
• NN-Labs LLC.
• Nokia Corporation
• Nucrypt
• Ocean NanoTech LLC
• Oki Electric
• Oscilloquartz SA
• OSRAM
• PQ Solutions Limited（Post-Quantum）
• Pranalytica Inc.
• QC Ware Corp.
• QD Laser Co. Inc.
• QinetiQ
• Quantum Circuits Inc.
• Quantum Materials Corp.
• Qubitekk
• Quintessence Labs
• QuSpin
• QxBranch LLC
• Raytheon Company
• Rigetti Computing
• Robert Bosch GmbH
• Samsung Electronics Co. Ltd.（QD Vision Inc.）
• SeQureNet（Telecom ParisTech）
• SK Telecom
• ST Microelectronics
• Texas Instruments
• Thorlabs Inc
• Toshiba Corporation
• Tristan Technologies
• Twinleaf
• Universal Quantum Devices
• Volkswagen AG
• Wavelength Electronics Inc.
• ZTE Corporation

第五章量子技術市場分析與預測

• 世界量子科技市場
• 全球量子技術市場：依技術分類
• 量子計算市場
  • 全球量子運算市場：依細分市場
  • 全球量子運算市場：依技術分類
  • 全球量子運算市場：依產業分類
• 量子密碼通訊市場
  • 全球量子密碼市場：依細分市場
  • 全球量子加密通訊市場：依應用分類
  • 全球量子密碼市場：依行業分類
• 量子感測與成像市場
  • 全球量子感測與成像市場：依細分市場
  • 依產品劃分的全球量子感測與成像市場
  • 全球量子感測與成像市場：依產業分類
• 量子點市場
  • 全球量子點市場：依細分市場
  • 全球量子點市場：依產業劃分
• 量子級聯雷射市場
  • 全球量子級聯雷射市場：依製造技術劃分
  • 全球量子級聯雷射市場：依運作模式劃分
  • 全球量子級聯雷射市場：依封裝類型
  • 全球量子級聯雷射市場：依行業分類
• 量子磁力計市場
  • 全球量子磁力計市場：依產品
  • 依行業劃分的全球量子磁力計市場
• 量子金鑰分發市場
  • 全球量子密鑰分發市場：依技術分類
  • 全球量子金鑰分銷市場：依行業分類
• 全球量子科技市場：依發展劃分
  • 全球量子技術市場的雲端部署選項
  • 全球量子技術市場：依雲端部署劃分
• 全球量子技術市場：依行業分類
• 全球量子科技市場：連結性別
  • 全球量子技術市場連結性比較分析
  • 全球量子技術市場：透過無線連接
• 全球量子科技市場：依收入來源劃分
• 量子智慧市場
  • 全球量子智慧市場
  • 全球量子智慧市場：依細分市場
  • 全球量子智慧市場：以人工智慧技術劃分
• 量子物聯網技術市場
  • 全球量子物聯網技術市場
  • 全球量子物聯網技術市場：依平台劃分
  • 全球量子物聯網技術市場：依產業分類
• 全球量子邊緣網路市場
• 世界量子區塊鏈市場
• 全球量子百億億次運算市場
• 量子科技市場：依地區
  • 全球量子技術市場區域比較
  • 全球量子技術市場：依地區

第 6 章一般性評論/建議

Overview:

This report provides a comprehensive analysis of the quantum technology market. It assesses companies/organizations focused on quantum technology including R&D efforts and potential gaming-changing quantum tech-enabled solutions.

The report evaluates the impact of quantum technology upon other major technologies and solution areas including, edge computing, blockchain, IoT, and big data analytics. The report provides an analysis of quantum technology investment, R&D, and prototyping by region and within each major country globally.

The report also provides global and regional forecasts as well as the outlook for quantum technology's impact on embedded hardware, software, applications, and services from 2024 to 2029. The report provides conclusions and recommendations for a wide range of industries and commercial beneficiaries including semiconductor companies, communications providers, high-speed computing companies, artificial intelligence vendors, and more.

Select Report Findings:

• Overall global quantum technology market will reach $61.3 billion by 2029
• Quantum computing will lead the market at $61.3 billion by 2029 and 43.7% CAGR
• North America will be the biggest regional market for quantum technologies overall
• China will lead the APAC quantum technology market at $6.89 billion by 2029 with 38.9%CAGR
• Germany will lead the European quantum technology market at $4.2 billion by 2029 with 28.9%CAGR
• The global quantum dots market will reach $15.4 billion by 2029, growing a 48.7%CAGR and led by displays
• The quantum sensing market will reach $1.4 billion globally by 2029, over twice the size of the quantum imaging market
• The quantum magnetometer market will reach $1.1 billion globally by 2029, led by superconducting quantum interference devices

Much more than only computing, the quantum technology market provides a foundation for improving all digital communications, applications, content, and commerce. In the realm of communications, quantum technology will influence everything from encryption to the way that signals are passed from point A to point B. While currently in the R&D phase, networked quantum information and communications technology (ICT) is anticipated to become a commercial reality that will represent nothing less than a revolution for virtually every aspect of ICT.

However, there will be a need to integrate the ICT supply chain with quantum technologies in a manner that does not attempt to replace every aspect of classical computing but instead leverages a hybrid computational framework.

Traditional high-performance computing will continue to be used for many existing problems for the foreseeable future, while quantum technologies will be used for encrypting communications, signaling, and will be the underlying basis in the future for all commerce transactions. This does not mean that quantum encryption will replace blockchain, but rather provide improved encryption for blockchain technology.

Quantum Technology Developments

In the last year, quantum technology has seen several exciting developments:

• Modular Quantum Computers: IBM is expected to introduce the Heron processor, which will focus on high-quality qubits and the ability to connect directly to other Heron processors. This marks a shift towards modular quantum computers, which could significantly scale up quantum computing capabilities.
• Quantum Sensors: Advances in quantum sensors are enabling detection of quantum activities in the physical world, which classical sensors cannot do.
• Hybrid Quantum Applications: There's a growing trend of hybrid applications that leverage both quantum and classical computing to solve complex problems.
• Quantum Communication: Improvements in quantum communication technologies are aimed at creating secure communication channels based on quantum cryptography.
• Novel Qubits: Research into new types of qubits, which are the fundamental building blocks of quantum computers, continues to progress.
• Advanced Materials: The development of new materials is crucial for improving the performance and scalability of quantum computing hardware.
• Post-Quantum Cryptography: As quantum computing advances, so does the need for cryptography that can withstand quantum attacks. This field is known as post-quantum cryptography2.
• Quantum Simulations: Quantum computers are being used to simulate complex quantum systems, which is essential for the development of new drugs and materials.
• Quantum Machine Learning: The integration of quantum computing into machine learning is opening up new possibilities for data analysis and pattern recognition.

These developments are part of a broader effort to move quantum computing from experimental setups to practical, real-world applications. The field is becoming more international, with a focus on long-term goals and practical hardware

Quantum Technology Market Beyond Computing

The quantum technology market will be a substantial enabler of dramatically improved sensing and instrumentation. For example, gravity sensors may be made significantly more precise through quantum sensing. Quantum electromagnetic sensing provides the ability to detect minute differences in the electromagnetic field.

This will provide a wide-ranging number of applications, such as within the healthcare arena wherein quantum electromagnetic sensing will provide the ability to provide significantly improved mapping of vital organs. Quantum sensing will also have applications across a wide range of other industries such as transportation wherein there is the potential for substantially improved safety, especially for self-driving vehicles.

Quantum sensing and imaging go hand-in-hand as the former supports the latter and vice versa. Quantum sensing may be used to produce images that reveal information heretofore unobtainable. Conversely, quantum image processing may be used to dramatically improve microscopy, pattern recognition, and segmentation in images. Quantum processes enable detection of image details that would otherwise go unnoticed within the current constraints of background effects/illumination, low light levels, and wavelength limitations.

Commercial applications for the quantum imaging market are potentially wide-ranging including exploration, monitoring, and safety. For example, gas image processing may detect minute changes that could lead to early detection of tank failure or the presence of toxic chemicals. In concert with quantum sensing, quantum imaging may also help with various public safety-related applications such as search and rescue. Some problems are too difficult to calculate but can be simulated and modelled.

Quantum simulations and modelling is an area that involves the use of quantum technology to enable simulators that can model complex systems that are beyond the capabilities of classical. Even the fastest supercomputers today cannot adequately model many problems such as those found in atomic physics, condensed-matter physics, and high-energy physics.

To accomplish this goal, quantum simulators create a more controllable quantum environment to simulate what is actually occurring in nature within a real-world, uncontrollable, inaccessible quantum environment. Quantum simulation and modelling can lead to a variety of practical commercial benefits such as the design of improved computing systems, development of new materials, and predictive analytics for large interdependent systems such as a smart city ecosystem.

Sovereign governments are extremely interested in the quantum technology market and the interest goes way beyond the pride of being the first to be able to claim quantum supremacy for developing a quantum computer that can beat the best classical computer. Governments are interested in quantum technology because of the many military/defense and overall security implications. For example, quantum computing can render all existing encryption useless and exposed to hacking and infiltration.

This means that all financial transactions and state secrets are potentially at risk with quantum computing. Conversely, quantum computing-enabled encryption will be completely unbreakable. In another example, quantum sensing and imaging may be used to detect the presence of aircraft (even stealth fighters).

Advanced Light Detection and Ranging (LIDAR) systems equipped with quantum imaging processes may identify the presence of aircraft based on minute changes in the environment. Conversely, quantum-equipped planes may similarly foil quantum LIDAR detection systems, protecting themselves by projecting images that simulate a normal ambient environment.

Quantum Technology Commercial Impact

The commercial implications for quantum technology cannot be overstated. In many respects today, quantum provides interesting capabilities in search of scalability to support real-world commercial problems. The reason that so much money is being invested in quantum technology is because there is a firm belief that quantum science, such as advanced material science (e.g. quantum computing used in molecular chemistry), will lead to commercially beneficial quantum technologies, such as dramatically improved materials for manufacture of consumer, enterprise, industrial, and governmental goods.

In terms of commercializing quantum technologies, there will be a need to evolve quantum science to an ROI-focused quantum technology market. We see this happening in many ways including industrial-academic collaboration and public-private partnerships, many of which will require governmental funding, stimulated by a desire to substantially improve both digital and physical infrastructure.

This will require a better public and board room understanding of how quantum technologies will improve society. For example, the casual observer may believe that the aforementioned gravity sensors are part of the realm of astrophysics. This could not be further from the truth as there are many potential commercial applications such as locating and mapping underground structures. This has obvious implications for the trillion-dollar global construction industry for new construction, seismic retrofits, smart building integration, and many smart city applications.

One of the key drivers for this developing market opportunity will be future 6G technology market solutions. This is because 6G will provide the potential for many new applications, services, and solutions-related benefits such as substantive improvements in the areas of sensing, imaging, and location determination.

Higher frequencies will enable much faster sampling rates as well as significantly greater accuracy, down to the centimeter level. The combination of sub-mmWave (e.g. wavelengths smaller than one millimeter) and the use of frequency selectivity to determine relative electromagnetic absorption rates will lead to potentially significant advances in wireless sensing solutions.

Companies in Report:

Table of Contents

1.0. Executive Summary

2.0. Introduction

• 2.1. Understanding Quantum Technology
  • 2.1.1. Quantum Technology Framework
  • 2.1.2. Quantum Supremacy
• 2.2. Quantum Technology Branches
  • 2.2.1. Quantum Computing
  • 2.2.2. Quantum Cryptography Communication
  • 2.2.3. Quantum Sensing and Imaging
  • 2.2.4. Quantum Dots Particles
  • 2.2.5. Quantum Cascade Laser
  • 2.2.6. Quantum Magnetometer
  • 2.2.7. Quantum Key Distribution
• 2.3. Quantum Technology Science
  • 2.3.1. Quantum Bit
  • 2.3.2. Quantum Simulation
  • 2.3.3. Quantum Cryptography
  • 2.3.4. Quantum Optics
  • 2.3.5. Quantum Teleportation
  • 2.3.6. Quantum Information Processing
  • 2.3.7. Quantum Error Correction
  • 2.3.8. Quantum Metrology
  • 2.3.9. Quantum Well and Fabrication
  • 2.3.10. Potential Well
  • 2.3.11. Quantum Confinement
  • 2.3.12. Quantum Mechanics
  • 2.3.13. Quantum Key
  • 2.3.14. Quantum Neuron
  • 2.3.15. Quantum Hacking
  • 2.3.16. Quantum Network
  • 2.3.17. Quantum electronics
• 2.4. Superposition and Entanglement
• 2.5. Decoherence and Squeezed States
• 2.6. Quantum Control and Security
• 2.7. Virtualization
• 2.8. Quantum Technology Value Chain
  • 2.8.1. Software/Platform Companies
  • 2.8.2. Semiconductor Companies
  • 2.8.3. AI Companies
  • 2.8.4. Analytics Providers
  • 2.8.5. IoT Companies
  • 2.8.6. Connectivity Providers
  • 2.8.7. Enterprises and Government
  • 2.8.8. Universities
  • 2.8.9. Venture Capital Firms
  • 2.8.10. Large Scale Computing Companies
• 2.9. Quantum Technology Market Factors
  • 2.9.1. Growth Drivers and Opportunities
  • 2.9.2. Market Challenges
• 2.10. Prospect for Global Recession
• 2.11. Quantum Technology Patent Landscape
• 2.12. Quantum Technology Competitive Landscape

3.0. Quantum Technology and Application Analysis

• 3.1. Quantum Computing
  • 3.1.1. Qubit Development Progress
    • 3.1.1.1. Qubits in Number
    • 3.1.1.2. Flip-Flop Qubit
  • 3.1.2. Quantum Computer
    • 3.1.2.1. Quantum Annealer
    • 3.1.2.2. Analog Quantum
    • 3.1.2.3. Universal Quantum
  • 3.1.3. Quantum Computing Technology Stack
  • 3.1.4. Quantum Software Platform
  • 3.1.5. Industry Application and Revenue Opportunity
  • 3.1.6. Exascale Computing Platform
  • 3.1.7. Market Disruption and Company Readiness Analysis
  • 3.1.8. Patent and Regulatory Framework
  • 3.1.9. Investment and Business Model Analysis
  • 3.1.10. Competitive Landscape Analysis
    • 3.1.10.1. Vendor Companies
  • 3.1.11. Start-up Companies
  • 3.1.12. Government and Local Agencies
  • 3.1.13. University Research and Development
    • 3.1.13.1. Research Center
  • 3.1.14. Venture Capital Firms
    • 3.1.14.1. Funding Organizations
  • 3.1.15. Country Initiatives and Participant Agencies/Companies
    • 3.1.15.1. China
    • 3.1.15.2. USA
    • 3.1.15.3. European Union
    • 3.1.15.4. UK
    • 3.1.15.5. Canada
    • 3.1.15.6. Mexico
    • 3.1.15.7. Brazil
    • 3.1.15.8. France
    • 3.1.15.9. Russia
    • 3.1.15.10. Germany
    • 3.1.15.11. Netherlands
    • 3.1.15.12. Denmark
    • 3.1.15.13. Sweden
    • 3.1.15.14. Saudi Arabia
    • 3.1.15.15. Switzerland
    • 3.1.15.16. UAE
    • 3.1.15.17. Qatar
    • 3.1.15.18. Kuwait
    • 3.1.15.19. Israel
    • 3.1.15.20. Japan
    • 3.1.15.21. India
    • 3.1.15.22. Singapore
    • 3.1.15.23. Australia
    • 3.1.15.24. South Korea
• 3.2. Quantum Cryptography Communication
  • 3.2.1. Technology Analysis
    • 3.2.1.1. Hardware Agnostic Communication
    • 3.2.1.2. Device Independent Cryptography
  • 3.2.2. Industry Application Analysis
  • 3.2.3. Position Based Cryptography
  • 3.2.4. Post Quantum Cryptography
  • 3.2.5. Patent Analysis
• 3.3. Quantum Sensing and Imaging
  • 3.3.1. Technology Analysis
    • 3.3.1.1. Quantum Sensing Technology
    • 3.3.1.2. Quantum Imaging Technology
  • 3.3.2. Product Analysis
  • 3.3.3. Quantum Imaging Device
  • 3.3.4. Industry Application Analysis
  • 3.3.5. Patent Analysis
• 3.4. Quantum Dots Particles
  • 3.4.1. QD Products
    • 3.4.1.1. QD Display
  • 3.4.2. QD Cadmium Materials
    • 3.4.2.1. Artificial Quantum Materials
  • 3.4.3. Production Process Analysis
    • 3.4.3.1. Colloidal Synthesis
    • 3.4.3.2. Energy Creation
    • 3.4.3.3. Quantum Dot Size and Color
  • 3.4.4. Industry Application Analysis
  • 3.4.5. Patent Analysis
• 3.5. Quantum Cascade Laser
  • 3.5.1. Fabrication Technology
  • 3.5.2. Continuous Wave and Pulsed Operation
  • 3.5.3. Cascade Laser Packaging
  • 3.5.4. Industry Application Analysis
  • 3.5.5. Patent Analysis
• 3.6. Quantum Magnetometer
  • 3.6.1. Product Analysis
    • 3.6.1.1. SERFs vs. SQUIDs
    • 3.6.1.2. NV-Centers Sensors
    • 3.6.1.3. Proton Magnetometers
    • 3.6.1.4. Overhauser Magnetometers
    • 3.6.1.5. Optically Pumped Magnetometers
    • 3.6.1.6. Chip-Scale Atomic Magnetometers
  • 3.6.2. Industry Application Analysis
  • 3.6.3. Geophysical Application
  • 3.6.4. Patent Analysis
• 3.7. Quantum Key Distribution
  • 3.7.1. QKD Technology
    • 3.7.1.1. Infrastructure
    • 3.7.1.2. Equipment and Components
  • 3.7.2. Quantum Key Distribution Network
  • 3.7.3. Government Sector Application
  • 3.7.4. Enterprise and Civilian Industry Application
  • 3.7.5. Patent Analysis
• 3.8. Quantum Cloud vs. Hybrid Platform
• 3.9. Quantum 5G Communication
• 3.10. Quantum 6G Impact
• 3.10.1 6G Wireless Technologies
  • 3.10.2. Quantum Machine Learning for 6G
• 3.10.3 6G Wireless Communication
  • 3.10.4. Quantum Technology need for 6G Capabilities
• 3.11. Quantum Artificial Intelligence
  • 3.11.1. Embedded Hardware
  • 3.11.2. AI Chipsets
  • 3.11.3. AI Software & Application
  • 3.11.4. Quantum Data Analytics
• 3.12. Quantum AI Technology
  • 3.12.1. Deep Machine Learning
  • 3.12.2. Artificial Neural Network
  • 3.12.3. Pattern Recognition
  • 3.12.4. Context Aware Processing
  • 3.12.5. Swarm Intelligence
• 3.13. Quantum IoT Technology
• 3.14. Quantum Edge Network
• 3.15. Quantum Blockchain

4.0. Company Analysis

• 4.1. 1QB Information Technologies Inc.
• 4.2. ABB (Keymile)
• 4.3. Adtech Optics Inc.
• 4.4. Airbus Group
• 4.5. Akela Laser Corporation
• 4.6. Alibaba Group Holding Limited
• 4.7. Alpes Lasers SA
• 4.8. Altairnano
• 4.9. Amgen Inc.
• 4.10. Anhui Qasky Science and Technology Limited Liability Company
• 4.11. Anyon Systems Inc.
• 4.12. AOSense Inc.
• 4.13. Apple Inc. (InVisage Technologies)
• 4.14. Biogen Inc.
• 4.15. Block Engineering
• 4.16. Booz Allen Hamilton Inc.
• 4.17. BT Group
• 4.18. Cambridge Quantum Computing Ltd.
• 4.19. Chinese Academy of Sciences
• 4.20. D-Wave Systems Inc.
• 4.21. Emerson Electric Corporation
• 4.22. Fujitsu Ltd.
• 4.23. Gem Systems
• 4.24. GeoMetrics Inc.
• 4.25. Google Inc.
• 4.26. GWR Instruments Inc.
• 4.27. Hamamatsu Photonics K.K.
• 4.28. Hewlett Packard Enterprise
• 4.29. Honeywell International Inc.
• 4.30. HP Development Company L.P.
• 4.31. IBM Corporation
• 4.32. ID Quantique
• 4.33. Infineon Technologies
• 4.34. Intel Corporation
• 4.35. KETS Quantum Security
• 4.36. KPN
• 4.37. LG Display Co. Ltd.
• 4.38. Lockheed Martin Corporation
• 4.39. MagiQ Technologies Inc.
• 4.40. Marine Magnetics
• 4.41. McAfee LLC
• 4.42. MicroSemi Corporation
• 4.43. Microsoft Corporation
• 4.44. Mirsense
• 4.45. Mitsubishi Electric Corp.
• 4.46. M-Squared Lasers Limited
• 4.47. Muquans
• 4.48. Nanoco Group PLC
• 4.49. Nanoplus Nanosystems and Technologies GmbH
• 4.50. Nanosys Inc.
• 4.51. NEC Corporation
• 4.52. Nippon Telegraph and Telephone Corporation
• 4.53. NN-Labs LLC.
• 4.54. Nokia Corporation
• 4.55. Nucrypt
• 4.56. Ocean NanoTech LLC
• 4.57. Oki Electric
• 4.58. Oscilloquartz SA
• 4.59. OSRAM
• 4.60. PQ Solutions Limited (Post-Quantum)
• 4.61. Pranalytica Inc.
• 4.62. QC Ware Corp.
• 4.63. QD Laser Co. Inc.
• 4.64. QinetiQ
• 4.65. Quantum Circuits Inc.
• 4.66. Quantum Materials Corp.
• 4.67. Qubitekk
• 4.68. Quintessence Labs
• 4.69. QuSpin
• 4.70. QxBranch LLC
• 4.71. Raytheon Company
• 4.72. Rigetti Computing
• 4.73. Robert Bosch GmbH
• 4.74. Samsung Electronics Co. Ltd. (QD Vision Inc.)
• 4.75. SeQureNet (Telecom ParisTech)
• 4.76. SK Telecom
• 4.77. ST Microelectronics
• 4.78. Texas Instruments
• 4.79. Thorlabs Inc
• 4.80. Toshiba Corporation
• 4.81. Tristan Technologies
• 4.82. Twinleaf
• 4.83. Universal Quantum Devices
• 4.84. Volkswagen AG
• 4.85. Wavelength Electronics Inc.
• 4.86. ZTE Corporation

5.0. Quantum Technology Market Analysis and Forecasts 2024 - 2029

• 5.1. Global Quantum Technology Market 2024 - 2029
• 5.2. Global Quantum Technology Market by Technology 2024 - 2029
• 5.3. Quantum Computing Market 2024 - 2029
  • 5.3.1. Global Quantum Computing Market by Segment
    • 5.3.1.1. Global Quantum Computing Market by Hardware
    • 5.3.1.2. Global Quantum Computing Market by Application Software
    • 5.3.1.3. Global QCaaS Market by Type
      • 5.3.1.3.1. Global QCaaS Market by Professional Service
  • 5.3.2. Global Quantum Computing Market by Technology
  • 5.3.3. Global Quantum Computing Market by Industry Vertical
• 5.4. Quantum Cryptography Communication Market 2024 - 2029
  • 5.4.1. Global Quantum Cryptography Communication Market by Segment
    • 5.4.1.1. Global Quantum Cryptography Communication Market by Hardware
    • 5.4.1.2. Global Quantum Cryptography Communication Market by Service
  • 5.4.2. Global Quantum Cryptography Communication Market by Application
  • 5.4.3. Global Quantum Cryptography Communication Market by Industry Vertical
• 5.5. Quantum Sensing and Imaging Market 2024 - 2029
  • 5.5.1. Global Quantum Sensing and Imaging Market by Segment
    • 5.5.1.1. Global Quantum Sensing Market by Technology
    • 5.5.1.2. Global Quantum Imaging Market by Technology
  • 5.5.2. Global Quantum Sensing and Imaging Market by Product
    • 5.5.2.1. Global Quantum Atomic Clock Market by Product
    • 5.5.2.2. Global Quantum Light Detector Market by Product
  • 5.5.3. Global Quantum Sensing and Imaging Market by Industry Vertical
• 5.6. Quantum Dots Market 2024 - 2029
  • 5.6.1. Global Quantum Dots Market by Segment
    • 5.6.1.1. Global Quantum Dots Market by Product
      • 5.6.1.1.1. Global QD Display Market by Type
    • 5.6.1.2. Global Quantum Dots Market by Materials
      • 5.6.1.2.1. Global Cadmium-Based QD Market by Materials
      • 5.6.1.2.2. Global Cadmium-Free QD Market by Materials
  • 5.6.2. Global Quantum Dots Market by Industry Vertical
    • 5.6.2.1. Global Quantum Dots Market by Healthcare and Medical Application
• 5.7. Quantum Cascade Laser Market 2024 - 2029
  • 5.7.1. Global Quantum Cascade Laser Market by Fabrication Technology
  • 5.7.2. Global Quantum Cascade Laser Market by Operation Mode
  • 5.7.3. Global Quantum Cascade Laser Market by Packaging Type
  • 5.7.4. Global Quantum Cascade Laser Market by Industry Vertical
• 5.8. Quantum Magnetometer Market 2024 - 2029
  • 5.8.1. Global Quantum Magnetometer Market by Product
  • 5.8.2. Global Quantum Magnetometer Market by Industry Vertical
    • 5.8.2.1. Global Quantum Magnetometer Market by Global Positioning and Communications Application
    • 5.8.2.2. Global Quantum Magnetometer Market by Geophysical Application
    • 5.8.2.3. Global Quantum Magnetometer Market by Scientific Research and Development Application
• 5.9. Quantum Key Distribution Market 2024 - 2029
  • 5.9.1. Global Quantum Key Distribution Market by Technology
    • 5.9.1.1. Global Quantum Key Distribution Market by Infrastructure Type
  • 5.9.2. Global Quantum Key Distribution Market by Industry Vertical
    • 5.9.2.1. Global Quantum Key Distribution Market by Government
    • 5.9.2.2. Global Quantum Key Distribution Market by Enterprise/Civilian Industry
• 5.10. Global Quantum Technology Market by Deployment
  • 5.10.1. Cloud Deployment Options for Global Quantum Technology Market
  • 5.10.2. Global Quantum Technology Market by Cloud Deployment
• 5.11. Global Quantum Technology Market by Sector
• 5.12. Global Quantum Technology Market by Connectivity
  • 5.12.1. Comparative Analysis of Global Quantum Technology Market Connectivity
  • 5.12.2. Global Quantum Technology Market by Wireless Connectivity
• 5.13. Global Quantum Technology Market by Revenue Source
• 5.14. Quantum Intelligence Market 2024 - 2029
  • 5.14.1. Global Quantum Intelligence Market
  • 5.14.2. Global Quantum Intelligence Market by Segment
    • 5.14.2.1. Global Quantum Intelligence Market by AI Chipsets Product
  • 5.14.3. Global Quantum Intelligence Market by AI Technology
• 5.15. Quantum IoT Technology Market 2024 - 2029
  • 5.15.1. Global Quantum IoT Technology Market
  • 5.15.2. Global Quantum IoT Technology Market by Platform
  • 5.15.3. Global Quantum IoT Technology Market by Sector
• 5.16. Global Quantum Edge Network Market
• 5.17. Global Quantum Blockchain Market
• 5.18. Global Quantum Exascale Computing Market
• 5.19. Regional Quantum Technology Market 2024 - 2029
  • 5.19.1. Regional Comparison of Global Quantum Technology Market
  • 5.19.2. Global Quantum Technology Market by Region
    • 5.19.2.1. North America Quantum Technology Market by Country
    • 5.19.2.2. Europe Quantum Technology Market by Country
    • 5.19.2.3. Asia Pacific Quantum Technology Market by Country
    • 5.19.2.4. Middle East and Africa Quantum Technology Market by Country
    • 5.19.2.5. Latin America Quantum Technology Market by Country

6.0. Conclusions and Recommendations

Figures

• Figure 1: Quantum Technology Framework
• Figure 2: Quantum Technology Competitive Landscape
• Figure 3: Quantum Computer Architecture
• Figure 4: Quantum Computing Application Paradigm
• Figure 5: AdTech DFB Waveguide Fabrication
• Figure 6: Fault Tree Analysis
• Figure 7: Block Engineering Chemical Detection System
• Figure 8: NOx Reduction Process
• Figure 9: CFQD Quantum Dot Film Display
• Figure 10: Quantum Dot Enhancement Film Evolution
• Figure 11: Factory Flow Line Optimization
• Figure 12: Post-Quantum VPN Security Framework
• Figure 13: Fabry Perot Quantum Cascade Lasers
• Figure 14: Global Quantum Technology Market 2024 - 2029
• Figure 15: Global Quantum Intelligence Market 2024 - 2029
• Figure 16: Global Quantum IoT Technology Market 2024 - 2029
• Figure 17: Global Quantum Edge Network Market 2024 - 2029
• Figure 18: Global Quantum Blockchain Market 2024 - 2029
• Figure 19: Global Quantum Exascale Computing Market 2024 - 2029

Tables

• Table 1: Quantum Technology Patent Filing Ratio
• Table 2: Quantum Technology Patent Granted Ratio
• Table 3: Quantum Computing Patents by Organization
• Table 4: Quantum Computing Patents Comparison
• Table 5: Quantum Cryptography Communication Patent Filing Ratio
• Table 6: Quantum Cryptography Communication Patent Granted Ratio
• Table 7: Quantum Sensing and Imaging Patent Filing Ratio
• Table 8: Quantum Sensing and Imaging Patent Granted Ratio
• Table 9: Quantum Dots Patent Filing Ratio
• Table 10: Quantum Dots Patent Granted Ratio
• Table 11: Quantum Cascade Laser Patent Filing Ratio
• Table 12: Quantum Cascade Laser Patent Granted Ratio
• Table 13: Quantum Magnetometer Patent Filing Ratio
• Table 14: Quantum Magnetometer Patent Granted Ratio
• Table 15: Quantum Key Distribution Network
• Table 16: QKD Patent Filing Ratio
• Table 17: QKD Patent Granted Ratio
• Table 18: Global Quantum Technology Market by Technology 2024 - 2029
• Table 19: Global Quantum Computing Market by Segment 2024 - 2029
• Table 20: Global Quantum Computing Market by Segment 2024 - 2029
• Table 21: Global Quantum Computing Market by Application Software 2024 - 2029
• Table 22: Global QCaaS Market by Type 2024 - 2029
• Table 23: Global QCaaS Market by Professional Service 2024 - 2029
• Table 24: Global Quantum Computing Market by Technology 2024 - 2029
• Table 25: Global Quantum Computing Market by Industry Vertical 2024 - 2029
• Table 26: Global Quantum Cryptography Communication Market by Segment 2024 - 2029
• Table 27: Global Quantum Cryptography Communication Market by Hardware 2024 - 2029
• Table 28: Global Quantum Cryptography Communication Market by Service 2024 - 2029
• Table 29: Global Quantum Cryptography Communication Market by Application 2024 - 2029
• Table 30: Global Quantum Cryptography Communication Market by Industry Vertical 2024 - 2029
• Table 31: Global Quantum Sensing and Imaging Market by Segment 2024 - 2029
• Table 32: Global Quantum Sensing Market by Technology 2024 - 2029
• Table 33: Global Quantum Imaging Market by Technology 2024 - 2029
• Table 34: Global Quantum Sensing and Imaging Market by Product 2024 - 2029
• Table 35: Global Quantum Atomic Clock Market by Product 2024 - 2029
• Table 36: Global Quantum Light Detector Market by Product 2024 - 2029
• Table 37: Global Quantum Sensing and Imaging Market by Industry Vertical 2024 - 2029
• Table 38: Global Quantum Dots Market by Segment 2024 - 2029
• Table 39: Global Quantum Dots Market by Product 2024 - 2029
• Table 40: Global QD Display Market by Type 2024 - 2029
• Table 41: Global Quantum Dots Market by Materials 2024 - 2029
• Table 42: Global Cadmium-Based QD Market by Materials 2024 - 2029
• Table 43: Global Cadmium-Free QD Market by Materials 2024 - 2029
• Table 44: Global Quantum Dots Market by Industry Vertical 2024 - 2029
• Table 45: Global Quantum Dots (QD) Market by Healthcare and Medical Application 2024 - 2029
• Table 46: Global Quantum Cascade Laser Market by Fabrication Technology 2024 - 2029
• Table 47: Global Quantum Cascade Laser Market by Operation Mode 2024 - 2029
• Table 48: Global Quantum Cascade Laser Market by Packaging Type 2024 - 2029
• Table 49: Global Quantum Cascade Laser Market by Industry Vertical 2024 - 2029
• Table 50: Global Quantum Magnetometer Market by Product 2024 - 2029
• Table 51: Global Quantum Magnetometer Market by Industry Vertical 2024 - 2029
• Table 52: Global Quantum Magnetometer Market by Global Positioning and Communications Application 2024 - 2029
• Table 53: Global Quantum Magnetometer Market by Geophysical Application 2024 - 2029
• Table 54: Global Quantum Magnetometer Market by Scientific Research and Development Application 2024 - 2029
• Table 55: Global Quantum Key Distribution Market by Technology 2024 - 2029
• Table 56: Global Quantum Key Distribution Market by Infrastructure Type 2024 - 2029
• Table 57: Global Quantum Key Distribution Market by Industry Vertical 2024 - 2029
• Table 58: Global Quantum Key Distribution Market by Government 2024 - 2029
• Table 59: Global Quantum Key Distribution Market by Enterprise/Civilian Industry 2024 - 2029
• Table 60: Global Quantum Technology Market by Deployment 2024 - 2029
• Table 61: Global Quantum Technology Market by Cloud Deployment 2024 - 2029
• Table 62: Global Quantum Technology Market by Sector 2024 - 2029
• Table 63: Global Quantum Technology Market by Connectivity 2024 - 2029
• Table 64: Global Quantum Technology Market by Cellular Connectivity 2024 - 2029
• Table 65: Global Quantum Technology Market by Revenue Source 2024 - 2029
• Table 66: Global Quantum Intelligence Market by Segment 2024 - 2029
• Table 67: Global Quantum Intelligence Market by AI Chipsets Product 2024 - 2029
• Table 68: Global Quantum Intelligence Market by AI Technology 2024 - 2029
• Table 69: Global Quantum IoT Technology Market by Platform 2024 - 2029
• Table 70: Global Quantum IoT Technology Market by Sector 2024 - 2029
• Table 71: Global Quantum Technology Market by Region 2024 - 2029
• Table 72: North America Quantum Technology Market by Country 2024 - 2029
• Table 73: Europe Quantum Technology Market by Country 2024 - 2029
• Table 74: APAC Quantum Technology Market by Country 2024 - 2029
• Table 75: MEA Quantum Technology Market by Country 2024 - 2029
• Table 76: Latin America Quantum Technology Market by Country 2024 - 2029