NishMath

References :

• Alex Jimenez: Scientists provide first-ever demonstration of quantum teleportation over fiber-optic cables Quantum teleportation successfully demonstrated over fiber optic cables carrying Internet traffic, marking a breakthrough in quantum communication
• TechSpot: Engineers at Northwestern University have demonstrated quantum teleportation over a fiber optic cable already carrying Internet traffic.
• www.thebrighterside.news: Scientists provide first-ever demonstration of quantum teleportation over fiber-optic cables
• Dataconomy: Quantum teleportation over the internet? Northwestern just made it happen
• The Daily Galaxy ?Great Discoveries Channel: Quantum Teleportation Becomes Reality: A Breakthrough for Communication
• OODAloop: Quantum Computing Method May Make Simulating Materials More Practical
• news.northwestern.edu: first-demonstration-of-quantum-teleportation-over-busy-internet-cables
• Future Leap: Quantum Teleportation Achieved Over 30 km of Internet Traffic
• thequantuminsider.com: Northwestern University engineers have achieved quantum teleportation over fiber optic cables already carrying Internet traffic, an advance that could simplify the infrastructure needed for quantum computing and advanced sensing technologies
• DMNews: dmnews reporting Quantum teleportation achieved over fiber optic network
• www.dmnews.com: Quantum teleportation achieved over fiber optic network

Classification:

• HashTags: Quantum Teleportation Internet
• Company: Northwestern University
• Target: Internet Infrastructure
• Product: Quantum Teleportation
• Feature: Quantum Teleportation
• Type: Research
• Severity: Medium

Recent breakthroughs in quantum research are showing rapid advancements, particularly in quantum teleportation and material simulation. Researchers have successfully demonstrated quantum teleportation through existing fiber optic networks, marking a significant leap from theoretical concepts to practical application. This allows information to be transferred instantly and securely by using quantum entanglement between particles without any physical movement of those particles. This achievement has been considered as a breakthrough and has been considered impossible prior to these findings.

The field of material simulation also shows huge improvements with a new quantum computing method that reduces computational resource requirements. This approach uses “pseudopotentials” to simplify interactions within atomic cores of materials, making simulations more practical and efficient. Quantum simulations were applied to study catalytic reactions, identifying over 3000 unique molecular configurations in the process. These advances demonstrate the growing importance of quantum mechanics in various areas of science, ranging from communication to material design, and also shows the potential for quantum advancements in many practical applications.


References :

• The Daily Galaxy ?Great Discoveries Channel: Quantum Teleportation Becomes Reality: A Breakthrough for Communication
• oodaloop.com: Quantum Computing Method May Make Simulating Materials More Practical
• thequantuminsider.com: It’s Starting to Look A Lot Like Quantum: Unwrap the Top 10 Quantum Research Stories of 2024
• www.techexplorist.com: Quantum geometry measured for the first time

Classification:

• HashTags: QuantumPhysics QuantumTeleportation MaterialScience
• Company: Quantum
• Target: Applications
• Product: Physics
• Feature: Quantum
• Type: Research
• Severity: Major