Latest news with #QuantumTechnology
Times of Oman
5 days ago
- Politics
- Times of Oman
DRDO inaugurates Quantum Technology Research Centre at Metcalfe House
New Delhi: The Defence Research and Development Organisation (DRDO) inaugurated the Quantum Technology Research Centre (QTRC) at Metcalfe House, Delhi, on Tuesday. The facility was inaugurated by the Secretary, Department of Defence R&D and Chairman, DRDO, Dr Samir V Kamat, to further strengthen Indigenous quantum capabilities for strategic and defence applications. QRTC is equipped with state-of-the-art experimental setups designed to propel research and development in critical quantum domains. The key capabilities of this centre include Characterisation of Vertical-Cavity Surface-Emitting Lasers and Distributed Feedback Lasers; Test-beds for evaluating single-photon sources; Set-up for characterisation of Micro-Fabricated Alkali Vapour Cell; and Experimental platforms for developing and validating Quantum Key Distribution techniques to enable ultra-secure communication and safeguard national security in the post-quantum era, spearheaded by Scientific Analysis Group (SAG), DRDO. Spearheaded by the Solid State Physics Laboratory (SSPL), QTRC also focuses on foundational technologies, including an ultra-small atomic clock based on Coherent Population Trapping for highly precise timekeeping in Global Navigation Satellite System-denied environments, an atomic magnetometer using optically pumped magnetometry for ultra-sensitive magnetic field detection, and Cutting-edge solid-state quantum devices and materials. DRDO continues to lead India's quantum initiatives across verticals such as quantum sensing, secure communications, and post-quantum cryptography. As a key stakeholder in the National Quantum Mission, DRDO is committed to fostering indigenous innovation and developing sovereign quantum technologies to secure India's strategic future. The inauguration ceremony was graced by Director General (Micro Electronic Devices, Computational Systems & Cyber Systems) Suma Varughese, whose vision and leadership were instrumental in conceptualising this cutting-edge facility. DG (Resource & Management), Dr Manu Korulla, and the Directors of SSPL and SAG, senior scientists, and other dignitaries attended the function.
Associated Press
21-05-2025
- Business
- Associated Press
Quantum Entanglement Technology Market Research Report 2025: Quantum Entanglement Tech Enters Commercial Phase with Early Adoption in Cryptography and Simulation - Forecasts to 2035
DUBLIN--(BUSINESS WIRE)--May 21, 2025-- The 'Quantum Entanglement Technology Market - A Global and Regional Analysis: Focus on Application, Product, and Region - Analysis and Forecast, 2025-2035" report has been added to offering. The Global Quantum Entanglement Technology Market is witnessing significant advancements spurred by breakthroughs in quantum physics, surging public and private R&D funding, and collaborations among academia, governments, and major tech companies. By 2024, practical quantum applications are emerging in fields like cryptography, secure communications, and specialized computing tasks such as simulations of complex molecules or optimization challenges. These early implementations rely on entanglement-based protocols to enable ultra-fast data processing and near-unbreakable security. By 2035, enhanced quantum hardware and more sophisticated algorithms are projected to unlock larger-scale quantum computing and robust quantum networks capable of distributing entangled states across vast distances. This transformation is anticipated to open entirely new industries around quantum communications, computing-as-a-service, and next-generation cybersecurity frameworks. As leading nations fund ambitious quantum initiatives, advancements in qubit scalability, quantum error correction, and stable entangled photon generation will accelerate. Consequently, the Global Quantum Entanglement Technology Market is poised for robust expansion over the next decade, reshaping how data is processed, transmitted, and protected. Trends in the Market A prominent trend is the integration of quantum entanglement with classical infrastructure, enabling hybrid networks for secure key distribution and advanced data processing. Tech companies and telecom providers collaborate on quantum-safe solutions, weaving entangled photons into existing broadband frameworks for robust encryption. This bridging of classical and quantum systems not only eases the path to adoption but also paves the way for near-term commercial applications, giving businesses a stepping stone toward full-scale quantum communication and computing platforms. Drivers in the Market The imperative for enhanced cybersecurity is a major driver of quantum entanglement innovation. Classical cryptographic methods become vulnerable as quantum computation scales, prompting governments and enterprises to adopt quantum-safe solutions. Entanglement-based quantum key distribution offers theoretically unbreakable encryption, protecting sensitive communications in financial transactions, defense systems, and critical infrastructure. This pressing security need incentivizes R&D in quantum networks, cryptography algorithms, and user-friendly integration tools. Restraints in the Market Technical complexities and high costs present a significant barrier to broader quantum entanglement adoption. Maintaining qubit coherence and generating stable entangled states require specialized environments (ultra-cold temperatures, vacuum systems, or advanced photonic setups). Such conditions demand costly infrastructure and a limited talent pool of quantum specialists. Consequently, smaller enterprises may hesitate to invest, awaiting streamlined, lower-cost hardware and cloud-based services that reduce entry hurdles. Opportunities in the Market Scalable quantum networks hold substantial opportunity. As quantum repeaters and entanglement-swapping protocols become more mature, global quantum communication grids could emerge, interlinking data centers, research labs, and secure government facilities. Suppliers of quantum networking hardware (e.g., entangled-photon generators, repeaters) and software (e.g., cryptographic layers, entanglement management tools) stand to benefit from this shift. Beyond secure communication, these networks could enable distributed quantum computing tasks and advanced sensor arrays, unlocking novel revenue streams and technological breakthroughs. Regional Analysis Key Initiatives and Driving Factors by Region Key Topics Covered: 1. Markets: Industry Outlook 1.1 Quantum Technology Trends: Current and Future Impact Assessment 1.2 R&D Review 1.2.1 Patent Filing Trend by Country, by Company 1.2.2 Key Institutions and Projects 1.3 Stakeholder Analysis 1.3.1 Use Case 1.3.2 End User and Buying Criteria 1.4 Market Dynamics Overview 1.4.1 Market Drivers 1.4.2 Market Restraints 1.4.3 Market Opportunities 2. Quantum Entanglement Technology Market (By Application) 2.1 Application by Product Segmentation 2.2 Application by Product Summary 2.3 Quantum Entanglement Technology (by Application) 2.3.1 Quantum Computing Market 2.3.2 Quantum Communications and Network Market 2.3.3 Quantum Cryptography Market 2.3.4 Quantum Warfare Market 3. Quantum Entanglement Technology Market (By Products) 3.1 Product Segmentation 3.2 Product Summary 3.3 Quantum Entanglement Technology (by Product) 3.3.1 Quantum Processors Market 3.3.2 Other Quantum Components Market 4. Quantum Entanglement Technology Market (by Region) 4.1 Quantum Entanglement Technology Market (by Region) 4.2 North America 4.2.1 Regional Overview 4.2.2 Driving Factors for Market Growth 4.2.3 Factors Challenging the Market 4.2.4 Application 4.2.5 Product 4.2.6 U.S. 4.2.6.1 Market by Application 4.2.6.2 Current State of Quantum Technologies 4.2.6.3 Key Initiatives 4.2.6.4 Key Companies 4.2.7 Canada 4.2.8 Mexico 4.3 Europe 4.4 Asia-Pacific 5. Research Methodology For more information about this report visit About is the world's leading source for international market research reports and market data. We provide you with the latest data on international and regional markets, key industries, the top companies, new products and the latest trends. View source version on CONTACT: Laura Wood, Senior Press Manager [email protected] For E.S.T Office Hours Call 1-917-300-0470 For U.S./ CAN Toll Free Call 1-800-526-8630 For GMT Office Hours Call +353-1-416-8900 KEYWORD: INDUSTRY KEYWORD: SEMICONDUCTOR SECURITY TECHNOLOGY NANOTECHNOLOGY TELECOMMUNICATIONS SOFTWARE HARDWARE SOURCE: Research and Markets Copyright Business Wire 2025. PUB: 05/21/2025 09:57 AM/DISC: 05/21/2025 09:56 AM
Yahoo
20-05-2025
- Business
- Yahoo
Quantum Entanglement Technology Market Research Report 2025-2035: Quantum Networking Infrastructure Set to Revolutionize Data Centers, Labs, and Government Security
The Global Quantum Entanglement Technology Market is rapidly advancing, propelled by quantum physics breakthroughs and increased R&D funding. Anticipated practical applications by 2024 include cryptography, secure communications, and computing tasks. By 2035, enhanced quantum hardware and algorithms are expected to unlock large-scale quantum networks and computing, creating new industries. Regional growth is led by North America, Europe, and Asia-Pacific, driven by government support, investments, and collaborations. Market challenges include high costs and technical complexities, while opportunities lie in scalable quantum networks, boosting cybersecurity and communication infrastructures. Dublin, May 20, 2025 (GLOBE NEWSWIRE) -- The "Quantum Entanglement Technology Market - A Global and Regional Analysis: Focus on Application, Product, and Region - Analysis and Forecast, 2025-2035" report has been added to offering. The Global Quantum Entanglement Technology Market is witnessing significant advancements spurred by breakthroughs in quantum physics, surging public and private R&D funding, and collaborations among academia, governments, and major tech companies. By 2024, practical quantum applications are emerging in fields like cryptography, secure communications, and specialized computing tasks such as simulations of complex molecules or optimization challenges. These early implementations rely on entanglement-based protocols to enable ultra-fast data processing and near-unbreakable 2035, enhanced quantum hardware and more sophisticated algorithms are projected to unlock larger-scale quantum computing and robust quantum networks capable of distributing entangled states across vast distances. This transformation is anticipated to open entirely new industries around quantum communications, computing-as-a-service, and next-generation cybersecurity frameworks. As leading nations fund ambitious quantum initiatives, advancements in qubit scalability, quantum error correction, and stable entangled photon generation will accelerate. Consequently, the Global Quantum Entanglement Technology Market is poised for robust expansion over the next decade, reshaping how data is processed, transmitted, and protected. Trends in the Market A prominent trend is the integration of quantum entanglement with classical infrastructure, enabling hybrid networks for secure key distribution and advanced data processing. Tech companies and telecom providers collaborate on quantum-safe solutions, weaving entangled photons into existing broadband frameworks for robust encryption. This bridging of classical and quantum systems not only eases the path to adoption but also paves the way for near-term commercial applications, giving businesses a stepping stone toward full-scale quantum communication and computing in the Market The imperative for enhanced cybersecurity is a major driver of quantum entanglement innovation. Classical cryptographic methods become vulnerable as quantum computation scales, prompting governments and enterprises to adopt quantum-safe solutions. Entanglement-based quantum key distribution offers theoretically unbreakable encryption, protecting sensitive communications in financial transactions, defense systems, and critical infrastructure. This pressing security need incentivizes R&D in quantum networks, cryptography algorithms, and user-friendly integration in the Market Technical complexities and high costs present a significant barrier to broader quantum entanglement adoption. Maintaining qubit coherence and generating stable entangled states require specialized environments (ultra-cold temperatures, vacuum systems, or advanced photonic setups). Such conditions demand costly infrastructure and a limited talent pool of quantum specialists. Consequently, smaller enterprises may hesitate to invest, awaiting streamlined, lower-cost hardware and cloud-based services that reduce entry in the Market Scalable quantum networks hold substantial opportunity. As quantum repeaters and entanglement-swapping protocols become more mature, global quantum communication grids could emerge, interlinking data centers, research labs, and secure government facilities. Suppliers of quantum networking hardware (e.g., entangled-photon generators, repeaters) and software (e.g., cryptographic layers, entanglement management tools) stand to benefit from this shift. Beyond secure communication, these networks could enable distributed quantum computing tasks and advanced sensor arrays, unlocking novel revenue streams and technological breakthroughs. Regional Analysis North America: Home to numerous quantum research hubs, including major U.S. institutions, supported by high levels of government funding and venture capital. This region boasts an advanced tech ecosystem, facilitating collaborations among universities, startups, and established players for quantum computing, cryptography, and network research. Europe: Strong policy backing via programs like the EU's Quantum Flagship nurtures the quantum ecosystem in Germany, France, the U.K., and other member states. A well-coordinated approach to research and commercialization drives significant developments in quantum processors, quantum-safe security, and communications networks. Asia-Pacific: Countries such as China, Japan, and South Korea pursue large-scale quantum initiatives, ranging from quantum satellite networks to integrated quantum computing platforms. Growing investments, plus robust collaboration between governments and private tech giants, position Asia-Pacific as a leading force in entanglement-based technologies. Rest-of-the-World: Emerging in Latin America, the Middle East, and Africa, quantum research is largely driven by global partnerships and specialized centers within select universities. While initially less developed than major markets, these regions gradually adopt quantum technologies for communications and advanced analytics as costs decrease and knowledge transfers expand. Key Initiatives and Driving Factors by Region North America Government grants and flagship programs in the U.S. supporting entangled photon sources and qubit development. Large venture capital investments fueling startups and university spinoffs. Europe Pan-European coordination under the Quantum Flagship initiative. National quantum labs in Germany, France, the U.K., and others focusing on entanglement-based networking and quantum simulation. Asia-Pacific China's quantum satellite programs demonstrating long-distance entanglement for secure communications. Japan and South Korea pushing quantum computing infrastructure for advanced R&D and industrial applications. Rest-of-the-World Collaborative global research partnerships aiding skill development and pilot projects. A focus on niche applications in fields like cryptography and specific computational challenges. Key Topics Covered:1. Markets: Industry Outlook1.1 Quantum Technology Trends: Current and Future Impact Assessment1.2 R&D Review1.2.1 Patent Filing Trend by Country, by Company1.2.2 Key Institutions and Projects1.3 Stakeholder Analysis1.3.1 Use Case1.3.2 End User and Buying Criteria1.4 Market Dynamics Overview1.4.1 Market Drivers1.4.2 Market Restraints1.4.3 Market Opportunities2. Quantum Entanglement Technology Market (By Application)2.1 Application by Product Segmentation2.2 Application by Product Summary2.3 Quantum Entanglement Technology (by Application)2.3.1 Quantum Computing Market2.3.2 Quantum Communications and Network Market2.3.3 Quantum Cryptography Market2.3.4 Quantum Warfare Market3. Quantum Entanglement Technology Market (By Products)3.1 Product Segmentation3.2 Product Summary3.3 Quantum Entanglement Technology (by Product)3.3.1 Quantum Processors Market3.3.2 Other Quantum Components Market4. Quantum Entanglement Technology Market (by Region)4.1 Quantum Entanglement Technology Market (by Region)4.2 North America4.2.1 Regional Overview4.2.2 Driving Factors for Market Growth4.2.3 Factors Challenging the Market4.2.4 Application4.2.5 Product4.2.6 U.S.4.2.6.1 Market by Application4.2.6.2 Current State of Quantum Technologies4.2.6.3 Key Initiatives4.2.6.4 Key Companies4.2.7 Canada4.2.8 Mexico4.3 Europe4.4 Asia-Pacific5. Research MethodologyFor more information about this report visit About is the world's leading source for international market research reports and market data. We provide you with the latest data on international and regional markets, key industries, the top companies, new products and the latest trends. CONTACT: CONTACT: Laura Wood,Senior Press Manager press@ For E.S.T Office Hours Call 1-917-300-0470 For U.S./ CAN Toll Free Call 1-800-526-8630 For GMT Office Hours Call +353-1-416-8900Sign in to access your portfolio
Associated Press
13-05-2025
- Business
- Associated Press
FQTI's Quantum Technology Lands Repeat Sale With Brigham Young University
ORLANDO, Fla.--(BUSINESS WIRE)--May 13, 2025-- Fonon Quantum Technologies, Inc. ('FQTI'), a technology conglomerate specializing in quantum, defense, additive manufacturing, and semiconductor technologies, announced today that its subsidiary, Quantum Technology, Inc., has secured a repeat order from Brigham Young University (BYU) for components used in experimental research in high-intensity laser physics. 'We're thrilled that our technology continues to bring value in a variety of scientific fields,' said Sanjay Adhav, President of Quantum Technology. 'BYU is one of our most valued clients. We have a great relationship with the University that dates back more than 20 years, and we are proud that our components continue to prove their worth and support the rigorous research requirements of the university.' Quantum Technology supplies electro-optical devices used in nonlinear frequency conversion, remote sensing, and pulse shaping technologies. Operating since 1969, the family-run business has established a reputation for excellence in producing high-quality crystals, Pockels cells, modulators, deflectors, electronic drivers, high-voltage amplifiers, pulse pickers, and related components. Now operating as a subsidiary of FQTI, Quantum Technology continues to deliver advanced devices for UV, infrared, and visible laser systems. Its integration into FQTI enhances Quantum Technology's sales channels, expands its market reach, and boosts its production capabilities, positioning the company for greater innovation and growth. About Fonon Quantum Technologies, Inc. Fonon Quantum Technologies Inc. (FQTI) is a diversified company specializing in advanced technologies and systems in quantum, defense, additive manufacturing, and semiconductor markets. With a strong foundation in R&D and equipment design, FQTI serves a wide array of industries through its subsidiaries: Fonon Technologies Inc., Fonon Media Corp., Quantum Technology Inc., and Beamer Laser Marking Systems. Learn more at View source version on CONTACT: Media Contact: Karla Kizzort Fonon Quantum Technologies, Inc. 407.804.1000 [email protected] KEYWORD: UNITED STATES NORTH AMERICA FLORIDA INDUSTRY KEYWORD: RESEARCH OTHER DEFENSE TECHNOLOGY DEFENSE UNIVERSITY SEMICONDUCTOR EDUCATION SCIENCE ENGINEERING GOVERNMENT TECHNOLOGY CHEMICALS/PLASTICS OTHER SCIENCE MANUFACTURING SOURCE: Fonon Quantum Technologies, Inc. Copyright Business Wire 2025. PUB: 05/13/2025 08:23 AM/DISC: 05/13/2025 08:22 AM
