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SUMMARY:Physics from quantum information
DTSTART:20260225T010000Z
DTEND:20260225T020000Z
DTSTAMP:20260415T184300Z
UID:indico-event-2771@indico.phys.hawaii.edu
DESCRIPTION:Speakers: Dejan Stojkovic (SUNY\, Buffalo)\n\nWe formulated an
  alternative to quantum mechanics\, whose basic starting point is pure inf
 ormation represented by binary sequences\, without any reference to space\
 , time\, and matter. Defining correlations between the sequences\, we deri
 ved highly non-trivial QM results: rules of angular momentum addition\, qu
 antum harmonic oscillator\, Clebsch-Gordan coefficients\, and Wigner’s d
 -matrix formula. These results indicate that we can reduce QM probabilitie
 s to simple counting (no Born rule). In this picture\, not only spacetime 
 but also particles and fields appear as emergent phenomena. Apparent quant
 um indeterminism is interpreted as a consequence of incomplete access to t
 he underlying informational structure encoded in the binary sequences. The
  framework is inherently discrete\, and agreement with standard quantum me
 chanics is obtained only in the continuum limit\, corresponding to sequenc
 es of infinite length. Consequently\, the theory predicts small deviations
  from quantum mechanics at finite sequence length\, which could be tested 
 in high-precision experiments\, particularly in quantum optics.\n\nhttps:/
 /indico.phys.hawaii.edu/event/2771/
LOCATION:Room 112 (Watanabe Hall)
URL:https://indico.phys.hawaii.edu/event/2771/
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