Frédéric Magniez, Ashwin Nayak, Jérémie Roland, Miklos Santha
Published 2006-08-02, updated 2011-02-14Version 4
We propose a new method for designing quantum search algorithms for finding a "marked" element in the state space of a classical Markov chain. The algorithm is based on a quantum walk \'a la Szegedy (2004) that is defined in terms of the Markov chain. The main new idea is to apply quantum phase estimation to the quantum walk in order to implement an approximate reflection operator. This operator is then used in an amplitude amplification scheme. As a result we considerably expand the scope of the previous approaches of Ambainis (2004) and Szegedy (2004). Our algorithm combines the benefits of these approaches in terms of being able to find marked elements, incurring the smaller cost of the two, and being applicable to a larger class of Markov chains. In addition, it is conceptually simple and avoids some technical difficulties in the previous analyses of several algorithms based on quantum walk.
Comments: 21 pages. Various modifications and improvements, especially in Section 4
Journal: SIAM Journal on Computing, 40(1):142-164, 2011
Quantum walk based search algorithms
Search by quantum walks on two-dimensional grid without amplitude amplification
Directional correlations in quantum walks with two particles
