Pattern formation in quantum Turing machines

A. Ekert; A. J. Lichtenberg; D. Deutsch; D. Deutsch; D. P. DiVincenzo; G. Mahler; Günter Mahler; Ilki Kim; J. M. Myers; M. C. Gutzwiller; P. Benioff; P. Benioff; P. Benioff; R. C. Hilborn; R. P. Feynman; S. Lloyd; S. Wolfram; T. P. Spiller

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Pattern formation in quantum Turing machines

Authors: A. Ekert
A. J. Lichtenberg
D. Deutsch
D. Deutsch
D. P. DiVincenzo
G. Mahler
Günter Mahler
Ilki Kim
J. M. Myers
M. C. Gutzwiller
P. Benioff
P. Benioff
P. Benioff
R. C. Hilborn
R. P. Feynman
S. Lloyd
S. Wolfram
T. P. Spiller
Publication date: 1 January 1999
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We investigate the iteration of a sequence of local and pair unitary transformations, which can be interpreted to result from a Turing-head (pseudo-spin

S

) rotating along a closed Turing-tape (

M

additional pseudo-spins). The dynamical evolution of the Bloch-vector of

S

, which can be decomposed into

2^{M}

primitive pure state Turing-head trajectories, gives rise to fascinating geometrical patterns reflecting the entanglement between head and tape. These machines thus provide intuitive examples for quantum parallelism and, at the same time, means for local testing of quantum network dynamics.Comment: Accepted for publication in Phys.Rev.A, 3 figures, REVTEX fil

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