CHRONOS QUANTUM

Groundbreaking research on temporal information transfer

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The CHRONOS QUANTUM Project

The CHRONOS QUANTUM project explores revolutionary possibilities for transmitting information through time using quantum physical phenomena.

Our interdisciplinary team is developing the Temporal Quantum Information Transducer (TQIT), a theoretical system based on the principles of quantum entanglement, micro-wormholes, and temporal causality filtering.

The TQIT could enable information to be sent up to 24 hours into the past – a scientific breakthrough with enormous implications for our understanding of space, time, and information.

Project Overview

  • Temporal Quantum Entanglement
  • Micro-Wormhole Generator
  • Temporal Filter Mechanism
  • Quantum Coherence Stabilizer
  • Multiverse Interference Analysis

Main Components of the TQIT

Quantum Coherence Stabilizer

Maintains quantum states over a 24-hour period using topological quantum materials and cryotechnology.

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Micro-Wormhole Generator

Creates tiny spacetime tunnels at the Planck scale using the Casimir effect and directed high-energy lasers.

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Temporal Filter Mechanism

Prevents paradoxes using Novikov's self-consistency principle and quantum computer-based causal chain analysis.

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Current Project Status

The CHRONOS QUANTUM project is currently in the theoretical concept phase. Our scientists are working on the mathematical foundations and simulations for the TQIT components.

Theoretical Concept: 35%

The full project will span a period of 11 years, with estimated commissioning in 2036.

  • Theoretical Concept 35%
  • Site Preparation 0%
  • Core Infrastructure 0%
  • Quantum Systems 0%
  • Integration & Testing 0%