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Logical Qubits vs. TQC Kurtbits: A Comparative Analysis of Quantum Computation Paradigms

Author:

Lazarev, Sergiu Vasili

Category:

Research Papers

Sub-Category:

Quantum Theory / Particle Physics

Language:

English

Date Published:

July 21, 2025

File:

/Research Papers-Quantum Theory / Particle Physics/Download/10265

Downloads:

182

Keywords:

1. Logical qubit 2. Physical qubit 3. Quantum error correction 4. Quantum decoherence 5. Stabilizer codes 6. Surface code 7. Topological qubit 8. Kurtbit 9. Subquantum oscillatory computing 10. TQC (Twin Quantum Computing) 11. Subquantu

Abstract:

This paper explores the conceptual and technical differences between logical qubits in standard quantum computing and the kurtbit-based model of Twin Quantum Computing (TQC) rooted in the NMSI (New Mechanics of Subquantum Information). We provide an in- depth clarification of what logical qubits are, how they relate to physical qubits, and the essential role they play in current fault-tolerant quantum computing. Furthermore, the paper contrasts this architecture with the emerging TQC model, which does not rely on quantum entanglement or low-temperature stabilization but instead uses stabilized logical oscillations in informational vacuum. Through detailed comparison tables, we present arguments for why TQC offers a fundamentally different and potentially more robust approach to subquantum- level computation.

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