Hasil untuk "Information theory"

A. Bérut, A. Arakelyan, A. Petrosyan et al.

J. Sweller, Paul Ayres, Slava Kalyuga

Kimiz Dalkir

V. Cherkassky

T. Ravichandran, Chalermsak Lertwongsatien, Chalermsak Lertwongsatien

G. Barnard, R. Fano

Charu G. Raheja

E. Green, R. Porter

John R. Anderson

Maureen O'Hara

Sasha R. X. Dall, Luc‐Alain Giraldeau, O. Olsson et al.

B. Lindblom

David A. Harrison, P. Mykytyn, Cynthia K. Riemenschneider

S. Taj

Walid A. Afifi, J. Weiner

A. Peres, Daniel R. Terno

Quantum mechanics, information theory, and relativity theory are the basic foundations of theoretical physics. The acquisition of information from a quantum system is the interface of classical and quantum physics. Essential tools for its description are Kraus matrices and positive operator valued measures (POVMs). Special relativity imposes severe restrictions on the transfer of information between distant systems. Quantum entropy is not a Lorentz covariant concept. Lorentz transformations of reduced density matrices for entangled systems may not be completely positive maps. Quantum field theory, which is necessary for a consistent description of interactions, implies a fundamental trade-off between detector reliability and localizability. General relativity produces new, counterintuitive effects, in particular when black holes (or more generally, event horizons) are involved. Most of the current concepts in quantum information theory may then require a reassessment.