The future of the internet is changing fast, and quantum communication is leading the way, especially in space. The goal is to create a super-secure internet using quantum mechanics. Countries and companies worldwide are racing to develop space-based quantum networks that will make hacking nearly impossible. This article will break down how quickly this technology is growing, using real-world data and practical insights.
1. China’s Micius satellite achieved quantum key distribution (QKD) over 1,200 km in 2017
In 2017, China’s Micius satellite made history by demonstrating quantum key distribution (QKD) over a record-breaking 1,200 kilometers. This was a major breakthrough because QKD ensures that information remains secure even if someone tries to intercept it.
The way it works is simple: quantum keys are sent between two parties, and if an outsider tries to eavesdrop, the quantum state of the key changes, alerting the sender and receiver. This level of security makes quantum communication far superior to traditional encryption methods.
For businesses and governments, this means secure communication is now possible across vast distances. The challenge now is to scale this technology globally. Researchers are working to make it faster and more efficient so that one day, everyone can benefit from ultra-secure internet from space.
2. The quantum-secure link between China and Austria demonstrated a 75-minute-long secure video call in 2017
A major application of space-based quantum communication was demonstrated when scientists in China and Austria made a fully encrypted 75-minute video call. This proved that quantum communication isn’t just a theory—it works in real-life situations.
For industries like banking, defense, and even personal communications, this means a new level of privacy is possible. No more worrying about hackers or intercepted messages.
The challenge now is making this technology more affordable and available for everyday use. Governments and tech companies need to invest in infrastructure to scale up secure quantum communications.
3. The global quantum communication market is projected to grow to $8.2 billion by 2030
With security threats increasing, demand for quantum communication is skyrocketing. Analysts predict the market will reach $8.2 billion by 2030. This means more investments, more job opportunities, and faster technological developments.
Companies looking to enter this space should focus on research and development. Investors should start paying attention to startups and organizations pioneering this field.
Entrepreneurs can explore creating new business models around quantum security services. The growth potential is huge, and those who get in early will benefit the most.
4. The European Union’s Quantum Communication Infrastructure (EuroQCI) aims to establish a pan-European quantum network by 2030
Europe is not staying behind in this race. The EU has launched the Quantum Communication Infrastructure (EuroQCI) initiative to build a secure quantum network spanning the entire continent.
By 2030, Europe plans to have a fully operational quantum-secure internet system.
Businesses should take this as a signal that quantum security is becoming the new standard. Those handling sensitive data should start preparing now by investing in quantum-resistant encryption technologies.
The transition is coming, and being ahead of the curve will offer significant advantages.
5. NASA and MIT have tested space-to-ground quantum communication at speeds of 40 megabits per second (Mbps)
NASA and MIT are pushing the boundaries by testing quantum communication at high speeds. At 40 Mbps, quantum signals are becoming fast enough to support real-time applications like video calls and secure data transfers.
For those in cybersecurity, this is exciting news. Faster quantum communication means more practical applications beyond just military and government use. Businesses that rely on high-speed secure communications should start looking into how they can integrate quantum solutions.
6. The U.S. National Quantum Initiative Act, passed in 2018, allocated $1.2 billion for quantum research, including space-based communication
Governments understand the power of quantum communication. In 2018, the U.S. committed $1.2 billion to quantum research, a sign that this technology is a priority.
This funding is driving innovation, leading to faster developments in space-based quantum communication. If you are a researcher, entrepreneur, or investor, this is the right time to explore opportunities in this space.
Government-backed initiatives provide a great foundation for startups and academic institutions to collaborate and bring quantum internet closer to reality.
7. China has invested over $10 billion in quantum research, including space-based quantum networks
China is leading the way in quantum communication, investing more than $10 billion in research and infrastructure. This massive investment is helping China build an advanced quantum communication network faster than any other country.
Other nations and private companies should take note. The quantum revolution will reshape global cybersecurity, and those who invest now will dominate the future of secure internet technologies. The best move for businesses is to start collaborating with quantum research institutions to stay ahead.
8. The European Space Agency (ESA) plans to launch a quantum satellite by 2027 as part of the SAGA project
How the ESA’s Quantum Satellite is Paving the Way for Secure Communications
The European Space Agency (ESA) is making a bold move in quantum communication with its SAGA (Secure And Guaranteed Communications) project, set to launch a quantum satellite by 2027.
This initiative is more than just another space mission—it’s a strategic push to position Europe at the forefront of secure, space-based quantum networking.
As cyber threats continue to escalate, traditional encryption methods are becoming increasingly vulnerable to quantum computing advances.
The SAGA project aims to create an infrastructure that ensures businesses, governments, and critical sectors can communicate securely, even in a future where quantum computers could potentially break today’s encryption standards.
For businesses, this is a wake-up call. Quantum-secure communication is no longer theoretical—it is being actively developed and will soon be a reality.
Companies that start preparing now will be in a much stronger position when these technologies become commercially available.
Why the SAGA Project Matters for Businesses
Future-Proofing Against Quantum Cyber Threats
With quantum computing advancing rapidly, current encryption protocols will eventually be obsolete. The ESA’s SAGA satellite will help establish a Quantum Key Distribution (QKD) network, allowing businesses to protect sensitive data using quantum-secure encryption.
This means that any attempt to intercept or manipulate quantum-encrypted messages will be immediately detectable, offering an unprecedented level of security.
For industries like banking, healthcare, defense, and cloud computing, where data breaches could be catastrophic, adopting quantum-safe encryption is no longer optional—it’s a necessity.
Forward-thinking companies should start exploring quantum-resistant encryption technologies today to avoid being caught off guard when quantum cyber threats become mainstream.
Europe’s Push for Digital Sovereignty
The SAGA project is also a critical step in Europe’s broader strategy for digital sovereignty. By investing in its own quantum satellite infrastructure, the ESA ensures that European businesses won’t have to rely on foreign quantum networks for secure communications.
For European enterprises, this means greater control over data security, compliance, and strategic independence.
Businesses operating in highly regulated industries—such as finance, aerospace, and government contracting—will soon have access to a trusted, sovereign quantum network that aligns with European security and privacy standards.
9. The QUESS (Quantum Experiments at Space Scale) satellite enables QKD with ground stations over distances exceeding 1,000 km
Unlocking Unbreakable Encryption with Space-Based QKD
The QUESS (Quantum Experiments at Space Scale) satellite has shattered traditional limitations on secure communication by enabling quantum key distribution (QKD) over distances exceeding 1,000 km.
This development is not just a scientific milestone—it’s a business revolution. For enterprises that rely on data security, QUESS is paving the way for a new era of ultra-secure global communications, immune to hacking attempts.
QKD works by leveraging the fundamental laws of quantum mechanics to distribute encryption keys in a way that makes any eavesdropping attempts detectable.
The QUESS satellite achieves this by transmitting entangled photons between space and ground stations, making it the first real-world demonstration of secure long-distance quantum communication.
For businesses handling sensitive financial transactions, government communications, or proprietary data, QUESS represents an opportunity to future-proof cybersecurity strategies.
As cyber threats grow more sophisticated, conventional encryption methods are at risk of becoming obsolete. Quantum communication offers a safeguard against this, ensuring data integrity even in a post-quantum world.
10. The U.S. DARPA program for quantum networks, launched in 2022, aims for quantum-secured satellite communications by 2027
The U.S. Push for Quantum-Secured Satellite Communications
The Defense Advanced Research Projects Agency (DARPA) has always been at the cutting edge of technological advancements, and its Quantum Network Program, launched in 2022, is no exception.
With an ambitious goal to achieve quantum-secured satellite communications by 2027, this initiative is setting the stage for the next generation of cybersecurity and secure data transfer.
For businesses, this is not just a government project—it is a signal of where secure communications are headed.
DARPA’s work is laying the foundation for a quantum-secure internet, one that will soon be commercially viable for industries dealing with financial transactions, defense communications, intellectual property, and critical infrastructure.
Why DARPA’s Quantum Network Program Matters for Businesses
A New Era of Cybersecurity
The rise of quantum computing poses a direct threat to traditional encryption methods. Today’s security protocols, including RSA and ECC encryption, rely on the difficulty of solving complex mathematical problems. However, quantum computers will be able to break these encryption methods in a matter of minutes.
DARPA’s quantum-secured satellite program is tackling this challenge head-on by developing Quantum Key Distribution (QKD) and other quantum-resistant security measures.
Businesses that rely on highly secure communications—such as banks, defense contractors, and cloud service providers—must start considering quantum security now to stay ahead of future threats.
Strategic Advantage for Early Adopters
While DARPA’s primary focus is on national security, the technologies being developed will eventually filter down into the commercial sector. Companies that prepare now will be well-positioned to take advantage of quantum-secure networks before competitors.
Organizations that begin investing in quantum-safe encryption, QKD-compatible infrastructure, and partnerships with quantum security firms will gain a long-term strategic advantage.
As quantum-secure communication becomes a standard, early adopters will lead in compliance, security, and trust.
11. Singapore and Japan are collaborating on a 50-satellite quantum communication constellation by 2035
The Strategic Vision Behind the Singapore-Japan Quantum Constellation
Singapore and Japan are joining forces to build a 50-satellite quantum communication constellation by 2035, marking one of the most ambitious collaborations in the quantum space race.
This initiative is more than just a technological milestone—it’s a strategic move to establish a dominant position in the future of secure global communications.
Both nations recognize that quantum-secure networks are the next frontier of cybersecurity, especially as traditional encryption methods face obsolescence in the face of quantum computing advancements.
By investing early, Singapore and Japan are ensuring they have autonomous, ultra-secure communication capabilities for financial transactions, defense applications, and critical infrastructure.
Why Businesses Should Pay Attention
A New Era of Secure Global Communications
This constellation is not just about national security—it has huge commercial implications. With 50 satellites providing continuous global coverage, businesses that rely on secure international communications will have access to real-time, quantum-encrypted data transmission.
This is especially crucial for industries such as finance, logistics, healthcare, and aerospace, where data breaches could be catastrophic.
Companies operating in Asia-Pacific and beyond should start evaluating how this quantum network can enhance their cybersecurity strategy. By aligning with quantum-secure communication standards now, businesses can stay ahead of regulatory changes and security threats.
Competitive Advantage for Early Adopters
Businesses that move early into quantum-secure communications will gain a first-mover advantage.
The Singapore-Japan initiative will likely drive new commercial opportunities, partnerships, and regulatory shifts, meaning companies that invest in quantum security now will be well-positioned to integrate with these networks when they become operational.
Industries that deal with cross-border transactions, intellectual property, or confidential communications should start exploring how they can integrate with quantum-secure satellite networks to future-proof their security infrastructure.
12. China’s G60 Starlink project aims to develop a global quantum communication network by 2035
China’s G60 Starlink project is an ambitious plan to establish a worldwide quantum communication network by 2035. This initiative will connect different continents using secure quantum links, ensuring ultra-secure internet for both governmental and commercial use.
For businesses and cybersecurity firms, this signals a shift towards quantum-secured networks becoming mainstream. Organizations should start exploring partnerships with quantum research teams or consider investing in quantum-safe encryption technologies.
Those who adopt these advancements early will have a significant security advantage in the future.
13. The longest ground-based quantum-secure fiber optic network is over 4,600 km in China
China currently holds the record for the longest quantum-secure fiber optic network, spanning over 4,600 km. This network connects major cities like Beijing and Shanghai, proving that quantum security can work on a large scale.
For businesses handling sensitive transactions, this serves as proof that quantum-secured communication is not just a future idea—it’s already being implemented.
Companies should start transitioning to hybrid encryption models that include quantum-safe methods to prepare for widespread adoption.
14. The average key generation rate for satellite-based QKD is currently ~1 kilobit per second (kbps)
While quantum key distribution (QKD) via satellite is secure, one of its challenges is the relatively slow key generation rate of about 1 kbps. This is slower compared to traditional encryption methods, but research is underway to increase this speed.
Tech companies and researchers should focus on optimizing the efficiency of quantum communication protocols.
Businesses considering quantum encryption should assess whether current speeds meet their needs or if they should prepare for future improvements before full implementation.
15. Quantum-secured communication is 10⁶ times more secure than traditional encryption methods
Quantum encryption is estimated to be a million times more secure than traditional encryption methods. This is because any attempt to eavesdrop on a quantum communication link disrupts the data and makes the intrusion detectable.
For industries like finance, defense, and healthcare, this level of security is invaluable. Companies should begin researching how to integrate quantum security into their operations to prevent future cybersecurity threats.
16. The first successful ground-to-air quantum communication experiment covered 20 km in 2013
In 2013, researchers successfully tested quantum communication between a ground station and an aircraft 20 km away. This experiment demonstrated that quantum encryption could work for moving targets, such as airplanes, ships, or even autonomous drones.
This breakthrough suggests that secure quantum communication could soon be implemented in military and aviation systems. Organizations in these sectors should explore how to incorporate quantum security into their operations.
17. The Chinese BeiDou Navigation System is integrating quantum communication capabilities
China’s BeiDou satellite navigation system is being upgraded with quantum communication capabilities. This means GPS-like systems will soon have quantum security, making them resistant to hacking and signal spoofing.
For industries that rely on GPS, such as aviation, maritime transport, and logistics, this upgrade will enhance security. Businesses in these fields should start preparing for quantum-safe navigation systems to prevent vulnerabilities in their operations.
18. The Tianjin Quantum Communication Demonstration Project aims to deploy QKD satellites for real-world applications by 2025
How Tianjin’s Quantum Initiative is Pioneering Commercial-Grade QKD
China has been a leader in quantum communication, and the Tianjin Quantum Communication Demonstration Project is another bold step toward making Quantum Key Distribution (QKD) commercially viable.
Set to deploy QKD-enabled satellites by 2025, this project is not just a scientific endeavor—it’s a strategic move to integrate unbreakable encryption into real-world applications across industries.
Unlike previous quantum experiments, which focused on proving the technology’s feasibility, the Tianjin project is about implementation at scale. The goal is to create a fully operational, quantum-secured communication network for businesses, government agencies, and critical infrastructure operators.
Why Businesses Need to Pay Attention
From Theory to Action: Real-World Quantum Security Solutions
For years, quantum communication has been considered futuristic, but Tianjin is proving that the future is now. The project is designed to test, refine, and deploy QKD satellites for secure data transfer in real-world settings.
This means that businesses will soon have access to quantum-safe encryption solutions that can be applied to banking, cloud computing, healthcare, and defense industries.
Companies that handle high-value intellectual property, sensitive customer data, or confidential government contracts must start preparing for a shift to quantum-secured communications. Waiting too long could mean scrambling to adopt new security standards when quantum threats become a reality.
Competitive Edge for Early Adopters
As quantum-secure networks move from research labs to commercial deployment, early adopters will gain a strong competitive advantage.
By integrating with Tianjin’s QKD infrastructure, businesses can ensure long-term security, meet evolving compliance standards, and position themselves as leaders in cybersecurity innovation.
For multinational corporations and industries that rely on secure cross-border communication, access to a quantum-secured satellite network could become a strategic necessity.
The businesses that invest in quantum-safe encryption now will be ahead of those that are forced to react later.
19. The cost of launching a quantum satellite has decreased by 50% over the past decade
A major barrier to quantum communication in space has been the cost of launching satellites. However, this cost has dropped by 50% in the last ten years, making space-based quantum networks more financially viable.
As prices continue to decline, more companies will be able to enter the market. Businesses should start evaluating potential quantum communication providers and consider how to integrate quantum-secure connections into their networks.
20. Japan’s Hikari Project aims for global quantum-secure satellite networks by 2040
The Long-Term Vision Behind Japan’s Hikari Project
Japan’s Hikari Project is not just another space initiative—it is a strategic, long-term effort to redefine how the world communicates securely.
With an ambitious timeline extending to 2040, the project aims to deploy a global quantum-secure satellite network, providing an unbreakable encryption system for governments, businesses, and critical industries worldwide.
While other nations are focusing on individual quantum satellites or regional networks, Japan is thinking bigger.
The Hikari Project envisions a fully integrated, worldwide quantum-secured communication infrastructure, ensuring that data remains immune to cyber threats, including attacks from future quantum computers.
For businesses, this project represents a clear shift toward the inevitable future of cybersecurity. Companies that start preparing now will be the ones that gain early access to quantum-secure communications, regulatory advantages, and a first-mover edge in global markets.
Why Businesses Should Pay Attention to the Hikari Project
Quantum-Secured Communication Will Become a Global Standard
With Japan investing heavily in quantum-safe satellite networks, businesses should prepare for a world where quantum-secured communication is the norm, not the exception.
The Hikari Project will provide end-to-end encryption solutions for industries such as banking, healthcare, defense, and global commerce.
Businesses that rely on secure cross-border communication should begin integrating quantum-resistant encryption solutions today to ensure future compatibility and compliance.
Future-Proofing Against Cyber Threats
Quantum computers, once fully developed, will render today’s encryption methods obsolete. The Hikari Project aims to prevent this by creating a quantum-secure global internet, ensuring that businesses, governments, and institutions can communicate without the risk of data breaches.
For corporations that handle sensitive financial transactions, classified communications, or intellectual property, adopting quantum-secure encryption now will be a crucial step toward long-term security and operational stability.
21. The International Telecommunication Union (ITU) estimates 40+ nations are actively researching quantum space communications
Why the ITU’s Quantum Space Communication Estimate is a Wake-Up Call for Businesses
The International Telecommunication Union (ITU) estimates that over 40 nations are actively researching quantum space communications, signaling that quantum-secure networks are no longer an isolated effort by a few leading countries.
This is a global race to establish the future backbone of secure digital communication.
For businesses, this means that quantum-secure networks will soon become an integral part of cybersecurity strategies worldwide. Organizations that fail to prepare now could find themselves struggling to keep up with new security standards, compliance regulations, and industry shifts.
What This Means for Businesses
Quantum-Secure Networks Will Become the Global Standard
With so many nations investing in quantum-secured satellite communications, it’s clear that quantum encryption is not just a niche technology—it’s the future of secure communication.
Businesses that rely on encrypted communications for transactions, cloud storage, or confidential data transfer must start transitioning toward quantum-resistant security solutions now.
The ITU’s estimate also suggests that nations will soon start setting their own regulatory frameworks for quantum-secure communications. Companies operating in multiple countries must stay ahead of these changes to ensure compliance and seamless operations across different markets.
Competitive Advantages for Businesses That Act Early
Companies that integrate quantum-safe encryption now will be the ones that lead in security, trust, and regulatory compliance when quantum communication becomes the global standard.
Industries such as banking, aerospace, defense, and cloud computing will be the first to require quantum-secure networks. Businesses in these sectors should invest in quantum research partnerships, pilot projects, and encryption upgrades to stay ahead of competitors.
22. The Quantum Internet Alliance (QIA) is developing long-distance entanglement distribution for intercontinental QKD
The Quantum Internet Alliance (QIA) is working on creating a quantum internet that can distribute entanglement over long distances. This will allow secure communication between continents, making global quantum-secured communication a reality.
Businesses and cybersecurity firms should start considering how they can integrate quantum networking technology into their infrastructure. Future-proofing security systems now will prevent expensive overhauls later.
23. Researchers achieved entanglement distribution between ground stations 1,200 km apart using Micius in 2020
In 2020, scientists successfully transmitted quantum entanglement between ground stations 1,200 km apart using the Micius satellite. This was a breakthrough that proved large-scale quantum networking is possible.
With this achievement, global quantum networks are closer than ever. Governments and private companies should work on developing quantum repeaters and satellite networks to make secure worldwide communication a reality.
24. The world’s first quantum-encrypted bank transfer via satellite occurred between China and Austria in 2017
In 2017, China and Austria completed the world’s first quantum-encrypted financial transaction via satellite. This showed that quantum encryption could protect financial systems from cyber threats.
Banks and financial institutions should take note and start preparing for the shift to quantum-safe encryption. The sooner they adapt, the safer their transactions will be.
25. NASA is developing a quantum entanglement-based deep-space communication system for interplanetary missions
NASA is working on using quantum entanglement for deep-space communication. This could enable secure messaging between Earth and spacecraft traveling to Mars and beyond.
Space agencies and private space exploration companies should begin considering how quantum communication can be used to secure future missions. Reliable, unhackable communication will be crucial for interplanetary travel.
26. The U.S. Air Force is testing quantum-secured communication between aircraft and ground stations
The Strategic Shift Toward Quantum-Secured Aerospace Communications
The U.S. Air Force is actively testing quantum-secured communication between aircraft and ground stations, signaling a major shift in how highly sensitive, mission-critical information is transmitted.
This is more than just a military upgrade—it’s a blueprint for the future of aerospace communications.
Traditional encryption methods, while robust today, will eventually become vulnerable to quantum computing advancements.
The Air Force’s investment in Quantum Key Distribution (QKD) technology ensures that military aircraft, drones, and defense networks remain impenetrable even in a post-quantum world.
For businesses in the aerospace, defense, and high-security communication sectors, this initiative is a clear indicator that quantum-secured networks will soon become the standard for secure data transmission.
Companies that begin integrating quantum-resistant technologies now will be in the best position to adapt to upcoming security mandates and technological advancements.
Why This Matters for Businesses Beyond Military Applications
Aerospace and Commercial Aviation Will Follow Military Adoption
History has shown that military innovations often drive commercial advancements, from GPS to cybersecurity protocols.
As the U.S. Air Force refines quantum-secure communication between aircraft and ground control, similar technology will inevitably trickle down to commercial aviation, satellite networks, and global logistics.
Businesses operating in commercial airlines, private aerospace ventures, and secure government contracting should prepare for the eventual shift toward quantum-secured aviation communication standards.
Those who invest in early adoption will have a significant competitive advantage when these technologies reach mainstream commercial deployment.
Quantum Security Will Be Essential for Secure Supply Chain Logistics
Aircraft are not the only critical assets that require unbreakable, quantum-safe communication. The same level of security will be vital for the entire aerospace and defense supply chain.
Quantum-secured communication will soon be integral to protecting sensitive logistics data, supply chain operations, and aircraft maintenance records.
Businesses involved in aerospace manufacturing, secure cargo transport, and government contracts should assess their current data security measures and prepare for quantum encryption requirements.
27. Over $5 billion has been invested in quantum-safe cryptographic solutions for space applications
Why Massive Investments in Quantum-Secure Space Communications Matter
Over $5 billion has already been invested in quantum-safe cryptographic solutions for space applications, signaling a major shift in how governments, corporations, and cybersecurity leaders are preparing for the quantum era.
This is not just about research—it’s about deploying real-world, quantum-secure networks that will soon become the standard for global communications. As cyber threats escalate and quantum computing inches closer to breaking classical encryption, businesses that fail to adapt risk being left behind.
For companies operating in finance, telecommunications, cloud computing, and government contracting, these investments mean that quantum-secure encryption will be a competitive necessity, not an optional upgrade.
How Businesses Can Leverage the Quantum-Safe Revolution
Quantum-Resistant Encryption Is Becoming a Business Imperative
With billions pouring into quantum-safe space communication, companies should view this as a direct signal that their current encryption methods will soon be outdated. Organizations handling sensitive financial transactions, cloud-based data storage, or intellectual property must act now to integrate post-quantum cryptographic algorithms into their systems.
Global standard-setting bodies such as NIST, ETSI, and the ITU are already developing quantum-resistant encryption protocols, and forward-thinking businesses should align with these evolving standards before regulatory mandates make them unavoidable.
Private Sector Opportunities in Quantum-Secure Space Networks
While much of the $5 billion investment has come from government agencies, defense organizations, and national space programs, private sector players are rapidly joining the quantum-secure race.
Companies in satellite communications, cloud security, and financial services should explore partnerships with quantum technology firms, space agencies, and cybersecurity providers to ensure they remain on the cutting edge of quantum-safe solutions.
Investing in quantum-ready infrastructure today will not only protect high-value assets and sensitive communications but will also open doors to emerging commercial opportunities in space-based quantum networking.
The Regulatory Landscape Is Changing
With billions invested in quantum-safe encryption, governments will soon begin mandating post-quantum security standards for businesses operating in critical industries.
Organizations should closely monitor global cybersecurity policies, encryption mandates, and compliance updates to ensure they remain ahead of new regulatory requirements before quantum threats become a real-world issue.
28. China aims for a global quantum communication network by 2049, coinciding with its 100th anniversary
China has set a goal to build a global quantum-secure network by 2049. This long-term vision aligns with the country’s push to be a global leader in technology.
Governments and private companies should watch this development closely. If China succeeds, it could set the standard for global quantum communication infrastructure.
29. Private companies, such as Quantum Xchange and ID Quantique, are working on quantum-secure satellite networks
Startups and private companies are heavily involved in the quantum communication revolution. Firms like Quantum Xchange and ID Quantique are developing secure quantum satellite networks.
Tech investors and entrepreneurs should consider the business opportunities emerging in this space. Now is the perfect time to invest in quantum cybersecurity solutions.
30. A 10,000-km quantum network linking Europe and Asia is in development, expected by 2035
A 10,000-km-long quantum-secure communication network connecting Europe and Asia is in the works. Once completed, it will be the longest and most secure quantum network in the world.
Companies operating in these regions should begin preparing for a shift to quantum-secured communication. Those who transition early will be at the forefront of a new, highly secure internet.
wrapping it up
Quantum communication in space is no longer just a futuristic idea—it is happening now. With rapid advancements in satellite-based quantum key distribution, entanglement distribution, and quantum-secured financial transactions, we are witnessing the early stages of a quantum internet revolution.
