The Global Quantum Technology Market 2025-2035

The Global Quantum Technology Market 2025-2035

The global quantum technology market is an emerging industry with the potential to revolutionize computing, cryptography, sensing, imaging, and communications. Billions of dollars have been invested so far, reflecting the massive interest from governments, established tech giants, and venture capitalists.

The Global Quantum Technology Market 2025-2035 provides an in-depth analysis of the rapidly evolving quantum technology landscape, offering strategic insights into market trends, technological advancements, and growth projections for the period 2025-2035. As quantum technologies transition from research labs to commercial applications, this report serves as an essential guide for investors, policymakers, and industry stakeholders navigating this transformative field.
Report contents include:
Market Size and Growth Projections: Detailed forecasts for the global quantum technology market, segmented by key sectors including quantum computing, quantum communications, and quantum sensing.

Technology Analysis: In-depth examination of various quantum technologies, including superconducting qubits, trapped ions, silicon spin qubits, photonic qubits, and emerging approaches like topological quantum computing.

Application Landscape: Comprehensive overview of quantum technology applications across industries such as pharmaceuticals, finance, cybersecurity, and materials science.

Competitive Landscape: Analysis of over 265 key players, from tech giants to innovative startups, shaping the quantum technology ecosystem. Companies profiled include Diraq, LQUOM, memQ, Nanofiber Quantum Technologies, Nomad Atomics, Oxford Ionics, PASQAL, Planckian, Polaris Quantum Biotech (POLARISqb), PsiQuantum, Quantum Bridge, Quantum Circuits, Inc., QUANTier, Quantum Brilliance, Quantum Motion, Quantinuum, Quside Technologies S.L., Quobly, Riverlane, SemiQon, Silicon Extreme, Silicon Quantum Computing (SQC) and Sparrow Quantum.

Investment Trends: Insights into venture capital, corporate investments, and government funding driving the quantum sector's growth.

Regulatory Environment: Overview of global government initiatives and regulatory frameworks influencing quantum technology development and adoption.

Quantum Computing: Analysis of hardware (including various qubit technologies), software platforms, and quantum-as-a-service offerings.

Quantum Communications: Examination of quantum key distribution (QKD) systems, post-quantum cryptography, and the emerging quantum internet.

Quantum Sensing: Insights into quantum sensors for applications in navigation, medical imaging, and scientific research.

Materials for Quantum Technology: Overview of critical materials and components enabling quantum devices.

Quantum technology applications across various sectors:

Pharmaceuticals and Healthcare: Drug discovery, protein folding simulations

Finance: Portfolio optimization, risk analysis, fraud detection

Cybersecurity: Post-quantum cryptography, secure communications

Materials Science: Quantum chemistry simulations for new materials development

Logistics and Transportation: Route optimization, traffic flow management

Long-term market projections to 2035

Potential disruptive technologies and their impact

Scenarios for quantum supremacy and its implications across industries



This market report is an indispensable resource for:
Quantum technology companies and start-ups
Investors and venture capitalists
Government agencies and policymakers
Research institutions and universities
Technology consultants and analysts
End-user industries exploring quantum applications


  • EXECUTIVE SUMMARY
    • First and second quantum revolutions
      • Table First and second quantum revolutions.
    • Current quantum technology market landscape
      • Key developments
    • Investment Landscape
    • Global government initiatives
      • Table Global government initiatives in quantum technologies.
    • Industry developments 2020-2024
      • Table Quantum technologies industry developments 2020-2024.
    • Challenges for quantum technologies adoption
      • Table Challenges for quantum technologies adoption.
  • QUANTUM COMPUTING
    • What is quantum computing?
      • Operating principle
        • Table Applications for quantum computing
      • Classical vs quantum computing
        • Table Comparison of classical versus quantum computing.
        • Table Key quantum mechanical phenomena utilized in quantum computing.
      • Quantum computing technology
        • Table Types of quantum computers.
      • Competition from other technologies
        • Table Comparative analysis of quantum computing with classical computing, quantum-inspired computing, and neuromorphic computing.
        • Table Different computing paradigms beyond conventional CMOS.
      • Quantum algorithms
        • Table Applications of quantum algorithms.
        • Table QML approaches.
      • Hardware
        • Table Coherence times for different qubit implementations.
        • Table Superconducting qubit market players.
        • Table Initialization, manipulation and readout for trapped ion quantum computers.
        • Table Ion trap market players.
        • Table Initialization, manipulation, and readout methods for silicon-spin qubits.
        • Table Silicon spin qubits market players.
        • Table Initialization, manipulation and readout of topological qubits.
        • Table Topological qubits market players.
        • Table Pros and cons of photon qubits.
        • Table Comparison of photon polarization and squeezed states.
        • Table Initialization, manipulation and readout of photonic platform quantum computers.
        • Table Photonic qubit market players.
        • Table Initialization, manipulation and readout for neutral-atom quantum computers.
        • Table Pros and cons of cold atoms quantum computers and simulators
        • Table Neural atom qubit market players.
        • Table Initialization, manipulation and readout of Diamond-Defect Spin-Based Computing.
        • Table Key materials for developing diamond-defect spin-based quantum computers.
        • Table Diamond-defect qubits market players.
        • Table Pros and cons of quantum annealers.
        • Table Quantum annealers market players.
      • Software
        • Table Quantum computing software market players.
    • Market challenges
      • Table Market challenges in quantum computing.
    • SWOT analysis
    • Quantum computing value chain
      • Table Quantum computing value chain.
    • Markets and applications for quantum computing
      • Table Markets and applications for quantum computing.
      • Pharmaceuticals
        • Table Market players in quantum technologies for pharmaceuticals.
      • Chemicals
        • Table Market players in quantum computing for chemicals.
      • Transportation
        • Table Automotive applications of quantum computing,
        • Table Market players in quantum computing for transportation.
      • Financial services
        • Table Market players in quantum computing for financial services
  • QUANTUM CHEMISTRY AND ARTIFICAL INTELLIGENCE (AI)
    • Technology description
    • Applications
      • Table Applications in quantum chemistry and artificial intelligence (AI).
    • SWOT analysis
    • Market challenges
      • Table Market challenges in quantum chemistry and Artificial Intelligence (AI).
    • Market players
      • Table Market players in quantum chemistry and AI.
  • QUANTUM COMMUNICATIONS
    • Technology description
    • Types
      • Table Main types of quantum communications.
    • Applications
      • Table Applications in quantum communications.
    • Quantum Random Numbers Generators (QRNG)
      • Overview
      • Applications
        • Table QRNG applications.
      • Advantages
        • Table Key Players Developing QRNG Products.
      • Principle of Operation of Optical QRNG Technology
        • Table Optical QRNG by company.
      • Non-optical approaches to QRNG technology
      • SWOT Analysis
    • Quantum Key Distribution (QKD)
      • Overview
      • Asymmetric and Symmetric Keys
      • Principle behind QKD
      • Why is QKD More Secure Than Other Key Exchange Mechanisms ?
      • Discrete Variable vs. Continuous Variable QKD Protocols
      • Key Players
      • Challenges
      • SWOT Analysis
    • Post-quantum cryptography (PQC)
      • Overview
      • Security systems integration
      • PQC standardization
      • Transitioning cryptographic systems to PQC
      • Market players
        • Table Market players in post-quantum cryptography.
      • SWOT Analysis
    • Quantum homomorphic cryptography
    • Quantum Teleportation
    • Quantum Networks
      • Overview
      • Advantages
      • Role of Trusted Nodes and Trusted Relays
      • Entanglement Swapping and Optical Switches
      • Multiplexing quantum signals with classical channels in the O-band
      • Twin-Field Quantum Key Distribution (TF-QKD)
      • Enabling global-scale quantum communication
      • Advanced optical fibers and interconnects
      • Photodetectors in quantum networks
      • Cryostats
      • Infrastructure requirements
      • Global activity
      • SWOT analysis
    • Quantum Memory
    • Quantum Internet
    • Market challenges
      • Table Market challenges in quantum communications.
    • Market players
      • Table Market players in quantum communications.
  • QUANTUM SENSING
    • Technology description
      • Table Comparison between classical and quantum sensors.
      • Table Applications in quantum sensors.
      • Quantum Sensing Principles
        • Table Technology approaches for enabling quantum sensing
        • Table Value proposition for quantum sensors.
      • SWOT analysis
      • Atomic Clocks
        • Table Key challenges and limitations of quartz crystal clocks vs. atomic clocks.
        • Table New modalities being researched to improve the fractional uncertainty of atomic clocks.
        • Table Companies developing high-precision quantum time measurement
        • Table Key players in atomic clocks.
      • Quantum Magnetic Field Sensors
        • Table Comparative analysis of key performance parameters and metrics of magnetic field sensors.
        • Table Types of magnetic field sensors.
        • Table Market opportunity for different types of quantum magnetic field sensors.
        • Table Applications of SQUIDs.
        • Table Market opportunities for SQUIDs (Superconducting Quantum Interference Devices).
        • Table Key players in SQUIDs.
        • Table Applications of optically pumped magnetometers (OPMs).
        • Table Key players in Optically Pumped Magnetometers (OPMs).
        • Table Applications for TMR (Tunneling Magnetoresistance) sensors.
        • Table Market players in TMR (Tunneling Magnetoresistance) sensors.
        • Table Applications of N-V center magnetic field centers
        • Table Key players in N-V center magnetic field sensors.
      • Quantum Gravimeters
        • Table Applications of quantum gravimeters
        • Table Comparative table between quantum gravity sensing and some other technologies commonly used for underground mapping.
        • Table Key players in quantum gravimeters.
      • Quantum Gyroscopes
        • Table Comparison of quantum gyroscopes with MEMs gyroscopes and optical gyroscopes.
        • Table Markets and applications for quantum gyroscopes.
        • Table Key players in quantum gyroscopes.
      • Quantum Image Sensors
        • Table Types of quantum image sensors and their key features/.
        • Table Applications of quantum image sensors.
        • Table Key players in quantum image sensors.
      • Quantum Radar
        • Table Comparison of quantum radar versus conventional radar and lidar technologies.
        • Table Applications of quantum radar.
      • Quantum chemical sensors
      • Quantum NEM and MEMs
    • Market and technology challenges
      • Table Market and technology challenges in quantum sensing.
  • QUANTUM BATTERIES
    • Technology description
      • Table Comparison between quantum batteries and other conventional battery types.
    • Types
      • Table Types of quantum batteries.
    • Applications
      • Table Applications of quantum batteries.
    • SWOT analysis
    • Market challenges
      • Table Market challenges in quantum batteries.
    • Market players
      • Table Market players in quantum batteries.
  • MATERIALS FOR QUANTUM TECHNOLOGY
    • Table Materials in Quantum Technology.
    • Superconductors
      • Overview
      • Types and Properties
        • Table Superconductors in quantum technology.
      • Opportunities
    • Photonics, Silicon Photonics and Optical Components
      • Overview
      • Types and Properties
        • Table Photonics, silicon photonics and optics in quantum technology.
      • Opportunities
    • Nanomaterials
      • Overview
      • Types and Properties
        • Table Nanomaterials in quantum technology.
      • Opportunities
  • MARKET ANALYSIS
    • Market map
    • Key industry players
      • Start-ups
      • Tech Giants
      • National Initiatives
    • Investment funding
      • Table Quantum technologies investment funding.
      • Venture Capital
        • Table Top funded quantum technology companies.
      • M&A
      • Corporate Investment
      • Government Funding
    • Global market revenues 2018-2035
      • Quantum computing
        • Table Global market for quantum computing-Hardware, Software & Services, 2023-2035 (billions USD).
      • Other segments
        • Table Markets for quantum sensors, by types, 2018-2035 (Millions USD).
        • Table Markets for QKD systems, 2018-2035 (Millions USD).
  • COMPANY PROFILES
    • A* Quantum
    • AbaQus
    • Absolut System
    • Adaptive Finance Technologies
    • Aegiq
    • Agnostiq GmbH
    • Algorithmiq Oy
    • Airbus
    • Alea Quantum
    • Alpine Quantum Technologies GmbH (AQT)
    • Alice&Bob
    • Aliro Quantum
    • Anametric, Inc.
    • Anyon Systems Inc.
    • Aqarios GmbH
    • Aquark Technologies
    • Archer Materials
    • Arclight Quantum
    • Arqit Quantum Inc.
    • ARQUE Systems GmbH
    • Artificial Brain
    • Atlantic Quantum
    • Atom Computing
    • Atom Quantum Labs
    • Atomionics
    • Atos Quantum
    • Baidu, Inc.
    • BEIT
    • Bleximo
    • BlueQubit
    • Bohr Quantum Technology
    • Bosch Quantum Sensing
    • BosonQ Ps
    • C12 Quantum Electronics
    • Cambridge Quantum Computing (CQC)
    • CAS Cold Atom
    • CEW Systems Canada Inc.
    • Chipiron
    • Chiral Nano AG
    • ColibriTD
    • Classiq Technologies
    • Crypta Labs Ltd.
    • CryptoNext Security
    • Crystal Quantum Computing
    • D-Wave Systems
    • Dirac
    • Diraq
    • Delft Circuits
    • Delta g
    • Duality Quantum Photonics
    • EeroQ
    • eleQtron
    • Element Six
    • Elyah
    • Entropica Labs
    • Equal1.labs
    • EvolutionQ
    • Exail Quantum Sensors
    • EYL
    • First Quantum, Inc.
    • Fujitsu
    • Genesis Quantum Technology
    • Good Chemistry
    • Google Quantum AI
    • Haiqu
    • Hefei Wanzheng Quantum Technology Co., Ltd.
    • High Q Technologies Inc.
    • Horizon Quantum Computing
    • HQS Quantum Simulations
    • HRL
    • Huayi Quantum
    • IBM
    • Icarus Quantum
    • Icosa Computing
    • ID Quantique
    • InfinityQ
    • Infineon Technologies AG
    • Infleqtion
    • Intel
    • IonQ
    • ISARA Corporation
    • IQM Quantum Computers
    • JiJ
    • JoS QUANTUM GmbH
    • KEEQuant GmbH
    • KETS Quantum Security
    • Ki3 Photonics
    • Kipu Quantum
    • Kiutra GmbH
    • Kuano Limited
    • Kvantify
    • levelQuantum
    • Ligentec
    • LQUOM
    • Lux Quanta
    • M Squared Lasers
    • Materials Nexus
    • Maybell Quantum Industries
    • memQ
    • Menlo Systems GmbH
    • Menten AI
    • Microsoft
    • Miraex
    • Molecular Quantum Solutions
    • Montana Instruments
    • Multiverse Computing
    • Mycryofirm
    • Nanofiber Quantum Technologies
    • NEC Corporation
    • Next Generation Quantum
    • Nomad Atomics
    • Nord Quantique
    • Nordic Quantum Computing Group AS
    • NTT
    • Nu Quantum
    • NVision
    • 1Qbit
    • ORCA Computing
    • Orange Quantum Systems
    • Origin Quantum Computing Technology
    • Oxford Ionics
    • Oxford Quantum Circuits (OQC)
    • PacketLight Networks
    • ParityQC
    • Pasqal
    • Peptone
    • Phasecraft
    • Photonic, Inc.
    • Pixel Photonics
    • Planqc GmbH
    • Planckian
    • Plassys
    • Polaris Quantum Biotech (POLARISqb)
    • Post Quantum
    • PQSecure
    • PQShield
    • ProteinQure
    • PsiQuantum
    • Q.ANT
    • Q* Bird
    • Qaisec
    • Qasky (Anhui Wentian Quantum Technology)
    • QBoson
    • Qblox
    • qBraid
    • Q-CTRL
    • QC Design
    • QC Ware
    • QC82
    • Quantum Diamond Technologies Inc. (QDTI)
    • QEDMA
    • Qilimanjaro Quantum Tech
    • Qindom
    • QLM Technology
    • QMware
    • Qnami
    • QphoX
    • Qrate Quantum Communications
    • Qpurpose
    • Quantum Resistant Cryptography (QRC)
    • Qruise
    • QSIMPLUS
    • QSimulate
    • QTI s.r.l.
    • Quandela
    • Quanscient Oy
    • Quantagonia
    • QuantaMap
    • QuantCAD LLC
    • QuantiCor Security GmbH
    • Qunasys
    • QUANTier
    • Quantinuum
    • QuantrolOx
    • Quantropi
    • Quantum Benchmark
    • Quantum Bridge Technologies
    • Quantum Brilliance
    • Quantum Computing Inc.
    • Quantum Circuits Inc
    • QuantumCTek
    • Quantum Diamond Technologies, Inc.
    • QuantumDiamonds GmbH
    • Quantum Dice
    • Quantum Flytrap
    • Quantum Generative Materials LLC
    • Quantum Machines
    • Quantum Mads
    • Quantum Motion Technology
    • Quantum Optics Jena GmbH
    • Quantum Source
    • Quantum South
    • Quantum Systems
    • Quantum Transistors
    • Quantum Xchange
    • QuantrolOx
    • QuantX
    • Qubitekk
    • Qubit Pharmaceuticals
    • Qubrid LLC
    • QUDOOR
    • QUDORA Technologies
    • QuEL, Inc.
    • QuEra Computing
    • Quintessence Labs
    • QuantGates
    • QuantWare
    • Quobly
    • Quoherent
    • QuiX Quantum
    • QunaSys
    • QNu Labs
    • QuantLR
    • QuantWare
    • Qunova Computing
    • Qunnect
    • QuSecure
    • Quside Technologies S.L.
    • Qutronix
    • Randaemon
    • Resquant
    • Rigetti Computing
    • Riverlane
    • Rotonium
    • Safran
    • Sandbox AQ
    • SaxonQ
    • SBQuantum
    • SCALINQ
    • SDT, Inc.
    • Seeqc
    • Senko Advance Components Ltd
    • SemiQon Technologies Oy
    • SemiWise
    • Silent Waves
    • Silicon Extreme
    • Silicon Quantum Computing
    • Solid State AI
    • softwareQ
    • Sparrow Quantum ApS
    • SpeQtral
    • SpinQ Technology
    • Stafford Computing
    • Strangeworks, Inc.
    • Supracon AG
    • sureCore Ltd.
    • Synergy Quantum SA
    • Terra Quantum
    • ThinkQuantum
    • t0.technology
    • Tokyo Quantum Computing
    • Toshiba Digital Solutions
    • TuringQ
    • Universal Quantum
    • Vapor Cell Technologies
    • VeriQloud
    • Vexlum Oy
    • Viqthor
    • Wave Photonics
    • Welinq
    • Xanadu
    • XeedQ GmbH
    • Xofia
    • XT Quantech
    • Zapata Computing
    • Zhongwei Daxin Technology
  • RESEARCH METHODOLOGY
  • TERMS AND DEFINITIONS
  • REFERENCES

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