A "Non‑Fiction" Fiction Research Thesis Presented as a Book
Author: Ace Aznur
Affiliation: Singapore Institute for Fundamental Physics (SIFP)
Achievement: Nobel Prize in Physics (Fictional, for narrative purposes)

Abstract
This book‑thesis documents the first scientifically consistent framework for engineered backward time displacement without paradox violation. Written in a non‑fiction academic style, it chronicles the decades‑long research journey of Singaporean physicist Ace Aznur, whose work unified quantum information theory, semiclassical gravity, and negative‑energy field engineering. The result was the Causality‑Preserving Temporal Loop (CPTL), a system that allows limited traversal into the past while maintaining global consistency.

Traditional physics ties the arrow of time to entropy: time moves forward because disorder increases. Aznur's research challenges this linear association. By carefully controlling quantum systems and negative energy fields, it is possible to observe localized entropy reduction, hinting at the potential for reverse temporal influence.


Ace proposed that information itself acts as a carrier of temporal effects. Instead of moving matter backward, information can be sent retrocausally, influencing past states without breaking global consistency. This formed the basis for his first successful experiments in backward information transfer.


Entangled particles share a connection that is instantaneous across space. Aznur leveraged this property to encode temporal information in one particle and measure its effects on its pair in the past. The result was causality-safe retroactive signaling, verified in controlled laboratory conditions.


2.4 Negative Energy Fields and Temporal Stabilization


The key challenge was stabilizing backward flows. Ace engineered negative energy arrays using Casimir vacuum fluctuations, providing a framework to support micro-temporal loops. These loops allowed the safe circulation of information without producing paradoxes or energy divergence.


2036-04-21: Successfully sent a quantum bit 53 microseconds into the past. Laboratory logs confirm causality preserved.


2036-09-12: Expanded the experiment to a multi-qubit system; AI simulations predict potential large-scale temporal displacement.


2037-01-08: Negative energy arrays now stable for up to 42 picoseconds. Chronal Boundary Layer integrity confirmed.


By establishing the relationship between information, entropy, and temporal flow, Chapter 2 lays the foundation for practical temporal manipulation. The research demonstrates that time's linearity is not absolute; it can be locally modulated in controlled environments.


Chapter 2 - Chapter 2 — Entropy, Information, and Temporal Flow