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Quantum search by local adiabatic evolution

Jérémie Roland
(
- Brussels U.
)
,
Nicolas J. Cerf
(
- Brussels U. and
- Caltech, JPL
)

Mar 26, 2002

6 pages

Published in:

Phys.Rev.A 65 (2002) 4, 042308

Published: Mar 26, 2002

DOI:

10.1103/PhysRevA.65.042308

reference search238 citations

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Abstract: (APS)

The adiabatic theorem has been recently used to design quantum algorithms of a new kind, where the quantum computer evolves slowly enough so that it remains near its instantaneous ground state, which tends to the solution. We apply this time-dependent Hamiltonian approach to Grover's problem, i.e., searching a marked item in an unstructured database. We find that by adjusting the evolution rate of the Hamiltonian so as to keep the evolution adiabatic on each infinitesimal time interval, the total running time is of order

\sqrt{N},

where N is the number of items in the database. We thus recover the advantage of Grover's standard algorithm as compared to a classical search, scaling as N. This is in contrast with the constant-rate adiabatic approach of Farhi et al. (e-print quant-ph/0001106), where the requirement of adiabaticity is expressed only globally, resulting in a time of order N.

References(15)

Figures(0)

S.L. Braunstein
,
H.-K. Lo

- Fortsch.Phys. 48 (2000) 767

in Proceedings of the 35th Annual Symposium on the Foundations of Computer Science, Los Alamitos, California,, S. Goldwasser (eds.)

P.W. Shor

Quantum mechanics helps in searching for a needle in a haystack

Lov K. Grover
(
- Bell Labs
)

- Phys.Rev.Lett. 79 (1997) 325-328
•
e-Print:
- quant-ph/9706033
•
DOI:
- 10.1103/PhysRevLett.79.325

Analog analogue of a digital quantum computation

Edward Farhi
(
- MIT, LNS
)
,
Sam Gutmann
(
- Northeastern U.
)

- Phys.Rev.A 57 (1998) 4, 2403
•
e-Print:
- quant-ph/9612026
•
DOI:
- 10.1103/PhysRevA.57.2403

Analog analogue of a digital quantum computation

Edward Farhi
(
- MIT, LNS
)
,
Sam Gutmann
(
- Northeastern U.
)

- Phys.Rev.A 57 (1998) 4, 2403
•
e-Print:
- quant-ph/9612026
•
DOI:
- 10.1103/PhysRevA.57.2403

Quantum Computation by Adiabatic Evolution

Edward Farhi
(
- MIT, Cambridge, CTP
)
,
Jeffrey Goldstone
(
- MIT, Cambridge, CTP
)
,
Sam Gutmann
(
- Northeastern U., Math. Dept.
)
,
Michael Sipser
(
- MIT
)

e-Print:
- quant-ph/0001106

Adiabatic quantum computation with Cooper pairs

D.V. Averin
(
- SUNY, Stony Brook
)

- Solid State Commun. 105 (1998) 659
•
e-Print:
- quant-ph/9706026
•
DOI:
- 10.1016/S0038-1098(97)10001-1

arXiv:

E. Farhi
,
J. Goldstone
,
S. Gutmann
,
J. Lapan
,
A. Lundgren

et al.

e-Print:
- quant-ph/0104129

E. Farhi
,
J. Goldstone
,
S. Gutmann
,
J. Lapan
,
A. Lundgren

et al.

- Science 292 (2001) 472

Nested quantum search and N P complete problems

Nicolas J. Cerf
(
- Caltech, Kellogg Lab and
- Caltech, JPL and
- Brussels U.
)
,
Lov K. Grover
(
- Bell Labs
)
,
Colin P. Williams
(
- Caltech, JPL
)

- Phys.Rev.A 61 (2000) 032303
•
e-Print:
- quant-ph/9806078
•
DOI:
- 10.1103/PhysRevA.61.032303

303

N.J. Cerf
,
L.K. Grover
,
C.P. Williams

- Phys.Rev.A 61 (2000) 032

Quantum Mechanics

L.I. Schiff

Grover's quantum searching algorithm is optimal

Christof Zalka
(
- Los Alamos
)

- Phys.Rev.A 60 (1999) 2746
•
e-Print:
- quant-ph/9711070
•
DOI:
- 10.1103/PhysRevA.60.2746

Grover's quantum searching algorithm is optimal

Christof Zalka
(
- Los Alamos
)

- Phys.Rev.A 60 (1999) 2746
•
e-Print:
- quant-ph/9711070
•
DOI:
- 10.1103/PhysRevA.60.2746

The Principles of Nuclear Magnetism (Oxford University Press, Oxford,)

A. Abragam