BEGIN:VCALENDAR VERSION:2.0 PRODID:researchseminars.org CALSCALE:GREGORIAN X-WR-CALNAME:researchseminars.org BEGIN:VEVENT SUMMARY:Mehran Shaghaghi (UIC) DTSTART:20240525T140000Z DTEND:20240525T160000Z DTSTAMP:20260423T011112Z UID:QMFNoT/53 DESCRIPTION:Title: Deriving Quantum Formalism from Information Limits in Microscopic Systems< /a>\nby Mehran Shaghaghi (UIC) as part of QM Foundations & Nature of Time seminar\n\n\nAbstract\nWhile the standard postulates of quantum mechanics successfully predict a wide range of phenomena\, their physical underpinni ngs remain elusive. In this presentation\, I derive the standard formalism of quantum theory—Born’s rule\, Hilbert space formalism\, and Schröd inger equation—from the limitations of information accessibility in micr oscopic systems. I demonstrate that information-theoretic constraints impo sed on microscopic systems with a single variable lead directly to their i nherent probabilistic behavior under different measurement scenarios. This limitation\, combined with the conservation of probability\, is utilized to derive Born's probability rule\, the Hilbert space formalism\, and ulti mately\, the Schrödinger equation governing the dynamics of these systems . Furthermore\, I establish a connection between these single-variable sys tems and traditional quantum systems. I show that coherence\, essential fo r observing quantum phenomena\, restricts the number of independent variab les in a coherent beam to just one\, thereby supporting the connection bet ween our framework and established quantum phenomena. This work suggests t hat quantum phenomena may emerge from the fundamental limitations of infor mation accessibility. It offers a new perspective on the foundations of qu antum theory and opens new avenues for further exploration.\n LOCATION:https://researchseminars.org/talk/QMFNoT/53/ END:VEVENT END:VCALENDAR