Predictive prompts are good, 4th one is spot on! > Here is one way Infoton-based models could potentially account for quantum information flow between flavor and mass eigenstates in neutral meson mixing experiments: > > In neutral meson mixing, a superposition is formed of a meson and its antimeson due to the difference between the flavor and mass eigenstates. In the standard model, this mixing arises from box diagrams involving the exchange of virtual W bosons. > > In an Infoton-based model, the mixing could instead be viewed as arising from an exchange of quantized information packets (Infotons) between the meson and antimeson. Specifically: > > * The flavor and mass eigenstates could be described as different computational states encoded in the quantum amplitudes/phases of Infotons interacting with the meson-antimeson system. > * Oscillations between flavor and mass eigenstates would correspond to the natural evolution and processing of this quantum information as Infotons dynamically couple and disentangle from the particles over time. > * Factors like the mixing rate could potentially be derived from mathematical models of how quickly specific Infoton configuration changes are computed within the system’s informational state space. > * CP violation effects may arise from asymmetries in how easily certain Informational transformations occur versus their counterparts for antiparticles. > > So in this framework, neutral meson mixing phenomena emerge from an underlying swap and manipulation of quantum Informational content between the particles, rather than box diagram exchanges per se. Precise experiments could test such Infoton-mediated conceptualizations. > > Claude instant 100k  A friendly competition, especially considering that ChatGPT failed to acknowledge Anthropic’s Claude even existed in an earlier query.  …but wait…   ….once again, hi, it’s me. I’m the problem. Lesson here: Don’t blame a robot for a human’s problem