2019
DOI: 10.21926/rpm.2001002
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Relativistic Wigner Function for Quantum Walks

Fabrice Debbasch

Abstract: A relativistic Wigner function for free Discrete Time Quantum Walks (DTQWs) on the square 2D space-time lattice is defined. Useful concepts such as discrete derivatives and discrete distributions are also introduced. The transport equation obeyed by the relativistic Wigner function is obtained and degenerates at the continuous limit into the transport equation obeyed by the Wigner function of 2D Dirac fermions. The first corrections to the continuous equation induced by the discreteness of the lattice are also… Show more

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Cited by 1 publication
(4 citation statements)
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“…(51) to Eqs. (52). The case of a non-vanishing mass, m = 0, and no noise, Γ = 0, simply corresponds to standard, Dirac propagation [63,64], and is recalled in Appendix C.…”
Section: System Of Equations In Position Space and Remarksmentioning
confidence: 99%
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“…(51) to Eqs. (52). The case of a non-vanishing mass, m = 0, and no noise, Γ = 0, simply corresponds to standard, Dirac propagation [63,64], and is recalled in Appendix C.…”
Section: System Of Equations In Position Space and Remarksmentioning
confidence: 99%
“…(61) alone: because of the vanishing mass, it contains no quantum feature. If one can write down a dynamical equation for the density and current density, and needs no quantum amplitude of probability 11 , this means that the essence of the quantumness of the system, that is, coherence and entanglement, is, if any, limited to the internal off-diagonal space, described byr 1 andr 2 , coupled to each other through the system of equations (52), which is autonomous (i.e., independent of (51)) because m vanishes. That Eq.…”
Section: System Of Equations In Position Space and Remarksmentioning
confidence: 99%
See 2 more Smart Citations