Geometric Quantum Computation

A. Ekert; M. Ericsson; P. Hayden; H. Inamori; J. A. Jones; D. K. L. Oi; V. Vedral

doi:10.1080/09500340008232177

Geometric Quantum Computation

Quantum Physics 2015-06-26 v1

Authors: A. Ekert , M. Ericsson , P. Hayden , H. Inamori , J. A. Jones , D. K. L. Oi , V. Vedral

View on arXiv ↗ PDF ↗ DOI ↗

Abstract

We describe in detail a general strategy for implementing a conditional geometric phase between two spins. Combined with single-spin operations, this simple operation is a universal gate for quantum computation, in that any unitary transformation can be implemented with arbitrary precision using only single-spin operations and conditional phase shifts. Thus quantum geometrical phases can form the basis of any quantum computation. Moreover, as the induced conditional phase depends only on the geometry of the paths executed by the spins it is resilient to certain types of errors and offers the potential of a naturally fault-tolerant way of performing quantum computation.

Keywords

geometric phase quantum computation quantum computing

Cite

@article{arxiv.quant-ph/0004015,
  title  = {Geometric Quantum Computation},
  author = {A. Ekert and M. Ericsson and P. Hayden and H. Inamori and J. A. Jones and D. K. L. Oi and V. Vedral},
  journal= {arXiv preprint arXiv:quant-ph/0004015},
  year   = {2015}
}

Comments

15 pages, LaTeX, uses cite, eepic, epsfig, graphicx and amsfonts. Accepted by J. Mod. Opt

Geometric Quantum Computation

Abstract

Keywords

Cite

Comments

Related papers