About This Quantum
Cryptography Project
A passion project exploring the future of unbreakable encryption, built by a 16-year-old quantum enthusiast
The Project
This interactive quantum cryptography simulation demonstrates the BB84 protocol - the first and most famous quantum key distribution (QKD) scheme that uses quantum mechanics to guarantee secure communication.
Unlike traditional encryption that relies on mathematical complexity, quantum cryptography is based on the fundamental laws of physics, making it theoretically unbreakable even by quantum computers.
Technical Implementation
- Frontend: HTML5, CSS3, JavaScript
- Visualizations: Custom SVG animations and CSS effects
- Quantum Principles: Superposition, entanglement, no-cloning theorem
- Protocol: BB84 with polarization encoding
The Creator
Abhinaw Singh
Hey! I'm a 16-year-old developer passionate about quantum computing and cryptography. I built this project to make quantum security concepts accessible to everyone, proving you don't need a PhD to understand this cutting-edge technology.
Why Quantum Cryptography?
Future-Proof Security
With quantum computers on the horizon, traditional encryption methods will become vulnerable. Quantum cryptography offers a solution that's secure against any computational attack.
Physics-Based Protection
Security guaranteed by the laws of quantum mechanics, not mathematical assumptions. Eavesdropping attempts fundamentally alter the quantum states, making interception detectable.
Real-World Applications
From secure government communications to protecting financial transactions, quantum cryptography will be essential for our digital future.
Ready to Explore Quantum Security?
Experience quantum cryptography in action with our interactive BB84 protocol simulation