(a) Schematics of the word INFORMATION is written on a material in binary code using magnetic recording. Red denotes magnetization pointing out of the plane and blue is magnetization pointing into the plane. (b)–(d) Time evolution of the digital magnetic recording information states simulated using micromagnetic Monte Carlo. (b) Initial random state. (c) INFORMATION is written (t = 0 s). (d) Iteration 930 (t = 1395 s) showing the degradation of information states. Reproduced with permission from M. M. Vopson and S. Lepadatu, AIP Adv. 12, 075310 (2022). Copyright 2022 AIP Publishing.
Topics: Chemistry, DNA, General Relativity, Genetics, Nucleotides, Thermodynamics
Reference: Electronic Orbitals, Chem Libre Text dot org
As Morpheus describes, “You take the blue pill, the story ends. You wake up in your bed and believe whatever you want to believe. You take the red pill; you stay in Wonderland. And I show you how deep the rabbit hole goes.” Neo takes the red pill and wakes up in the real world. Source: Britannica Online: Red Pill and Blue Pill Symbolism
The simulation hypothesis is a philosophical theory in which the entire universe and our objective reality are just simulated constructs. Despite the lack of evidence, this idea is gaining traction in scientific circles as well as in the entertainment industry. Recent scientific developments in the field of information physics, such as the publication of the mass-energy-information equivalence principle, appear to support this possibility. In particular, the 2022 discovery of the second law of information dynamics (infodynamics) facilitates new and interesting research tools at the intersection between physics and information. In this article, we re-examine the second law of infodynamics and its applicability to digital information, genetic information, atomic physics, mathematical symmetries, and cosmology, and we provide scientific evidence that appears to underpin the simulated universe hypothesis.
Introduction
In 2022, a new fundamental law of physics has been proposed and demonstrated, called the second law of information dynamics or simply the second law of infodynamics.1 Its name is an analogy to the second law of thermodynamics, which describes the time evolution of the physical entropy of an isolated system, which requires the entropy to remain constant or to increase over time. In contrast to the second law of thermodynamics, the second law of infodynamics states that the information entropy of systems containing information states must remain constant or decrease over time, reaching a certain minimum value at equilibrium. This surprising observation has massive implications for all branches of science and technology. With the ever-increasing importance of information systems such as digital information storage or biological information stored in DNA/RNA genetic sequences, this new powerful physics law offers an additional tool for examining these systems and their time evolution.2
The second law of infodynamics and its implications for the simulated universe hypothesis, Melvin M. Vopson, AIP Advances
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