🧪 Quantum Circuit Simulator
Qubit State:
|0⟩: 1.000+0.000i
Measurement:
|0⟩
🔬 Current Research
Shor's Algorithm
Experimenting with quantum integer factorization for cryptographic applications.
Quantum Entanglement
Simulating entangled qubit states and measurement correlations.
Quantum Teleportation
Implementing quantum state transfer protocols using entangled circuits.
📚 Quantum Concepts Guide
Qubit
The fundamental unit of quantum information, representing a two-level quantum-mechanical system.
Superposition
The principle that allows quantum systems to exist in multiple states simultaneously until measured.
Entanglement
A phenomenon where quantum states become correlated such that the state of one instantly influences another.
⚛️ Experiment Overview
Our quantum experiments focus on building interactive simulations of fundamental quantum concepts. This platform allows users to:
- Visualize qubit states in the Bloch sphere
- Apply quantum gates to manipulate quantum states
- Simulate superposition and entanglement patterns
- Observe measurement probability distributions
All simulations are based on simplified quantum computation models while maintaining mathematical accuracy in state representations.
"Quantum computing opens new frontiers in solving complex problems that are intractable for classical computers."
— Research Team