Overview This record presents a two-poster set introducing the Quantum Measurement Stack (QMS), a detector-plane–centered framework describing how observed reality emerges from physical measurement systems. Released together as a single unit, the posters provide both a conceptual overview and a visual explanation of the framework. Poster A — Quantum Measurement Stack - Framework (Navigation Poster) This poster serves as an entry point into the framework, connecting its three core components: Imprint Hypothesis — particles as primary excitations; wave-like behavior as interaction-derived coherence imprints Detector-Plane Imaging (DPI) — coherence structure exists prior to detection and determines observable outcomes Quantum Measurement & Control Test Bench — measurement as a structured system with detector-plane–localized information loss Related Works Imprint Hypothesis - https://zenodo.org/records/18994419 Detector Plane Imaging - https://zenodo.org/records/19105059 Quantum Measurement & Control Test Bench - https://zenodo.org/records/18075090 Poster B — Quantum Measurement Stack - Observed Reality (Master Poster) This poster presents the core mechanism of the framework as a visual model. Core Idea Same input → different detector → different observed reality A single underlying coherence structure produces different observable patterns depending on detector behavior: Interference (double-band / fringes):Appears when phase correlations are preserved, revealing structured coherence Intensity-only distribution:Appears when phase information is not retained, resulting in no stable interference These outcomes arise from detector-plane selection, where measurement systems determine which correlations are preserved and which are irreversibly lost. Code & Implementation https://github.com/srikarr20/detector-plane-imaging https://github.com/srikarr20/quantum-measurement-stack Release Note These posters are released together as a single visual introduction to the Quantum Measurement Stack, combining framework and conceptual explanation - observed reality.
Srikar R (Sat,) studied this question.
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