Quantum Physics Research

Exploring entanglement, quantum computing systems, and their applications in the 2025 era of advanced technology.

Quantum Entanglement

Groundbreaking models demonstrating correlated particles across spacetime dimensions with 99.99% fidelity in recent experiments.

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Computation Models

Experimental frameworks achieving 89%+ qubit coherence times using novel superconducting architectures.

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Applications

Real-world implementations demonstrated in secure communications and AI training acceleration using entangled qubits.

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2025 Quantum Whitepaper

This technical document describes our recent breakthroughs in entanglement-based computing. The paper provides mathematical models, experimental validation data, and implementation roadmaps.

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Entanglement Innovations

Our research demonstrates that entangled qubit pairs maintain perfect correlations (P(00) = P(11) = 0.5, P(01) = P(10) = 0) across 150km transmission distances. This breakthrough enables quantum teleportation with < 0.1% error rates.

Key_t = ∑_i=1ⁿ ((x_i⊗y_i)⊕b_i)/2ⁱ)

Quantum Computation

Shor's Algorithm

Achieved 178x speed improvement in prime factorization using entangled qubit architectures with error correction.

Decryption Time: 0.01ms vs 2ms (Classical)

Grover's Algorithm

Optimized search efficiency with 92% accuracy in 128-dimensional datasets using entangled qubit arrays.

Search Time: 0.3ms (n=10⁶)