Hello everyone,
My name is Abdallah Ahmed Salem, an independent researcher from Egypt, and I would like to share a speculative but testable quantum model I’ve been developing: Quantum Resonant Energy Amplification (QREA)
The idea explores whether it is possible to extract directed energy or influence the quantum path of a particle (like an electron or photon) through a sequence of weak measurements. By introducing a weak-guided path mechanism — inspired by delayed-choice and weak value amplification concepts — the model suggests that under specific resonance conditions, energy or information could be cumulatively redirected without full collapse of the wavefunction.
The project is based on two pillars:
- Directional quantum guidance via weak interaction** — where the wavefunction "steers" without collapsing.
- Energy amplification through interference and information extraction** — resembling resonant tunneling effects, but from measurement theory.
I’ve already implemented several numerical simulations which show intriguing behavior: a particle subjected to controlled weak guidance appears to accumulate path deviation or energy concentration. The goal is to transition this idea into a real lab experiment with single photons or electrons.
I believe this model might offer a new way to understand quantum back-action and energy-information transfer during weak measurement regimes.
I’d be grateful for your comments, questions, or constructive criticism — especially regarding feasibility, related literature, or potential experimental paths.
Thank you!
Abdallah Ahmed Salem
mostemphy@gmail.com