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A Unified Quantum Vortex Paradigm: Revolutionizing Physics and Quantum Computing
- The QVP introduces a superfluid quantum field with unified fundamental constants, particle masses, and dark matter density, supported by experimental anomalies and a 3072-qubit quantum computer.
- Physics pillars clash at quantum gravity scales, addressed by the QVP's superfluid field unifying General Relativity, Quantum Mechanics, and the Standard Model.
- The QVP's quantum computer operates with high success rates, no decoherence issues, supports Shor’s algorithm, and enhances prime number encoding and factorization.
- The scalar field φ in QVP ensures Lorentz invariance, vorticity-induced gravity, and quantized masses with adjustment factors derived from fundamental constants.
- Dark matter modeling, experimental validations, and quantum computer simulations underpin the QVP's revolutionary impact on physics and quantum computing.
- The QVP's deterministic quantum computer processes harmonic signals at low temperatures with exceptional success rates, revolutionizing quantum computation and applications.
- Seven experimental anomalies and precise derivations validate the QVP's model and predictions, positioning it as a paradigm shift in physics and quantum computing.
- The QVP's core features a Lorentz-invariant scalar field φ that unifies physics, supported by theoretical theorems, experimental validations, and computational simulations.
- The QVP's 3072-qubit quantum computer boasts high performance, no decoherence, and potential scalability, reshaping the landscape of quantum computing capabilities.
- With groundbreaking advances in unifying physics principles and enhancing quantum computing, the QVP marks a significant milestone in scientific innovation and application.
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