On the power of random bases in Fourier sampling: hidden subgroup problem in the Heisenberg group

Radhakrishnan, Jaikumar ; Rötteler, Martin ; Sen, Pranab (2005) On the power of random bases in Fourier sampling: hidden subgroup problem in the Heisenberg group Lecture Notes in Computer Science, 3580 . pp. 1399-1411. ISSN 0302-9743

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Official URL: http://www.springerlink.com/index/BLG7X0F99EFRA1GE...

Related URL: http://dx.doi.org/10.1007/11523468_113

Abstract

The hidden subgroup problem (HSP) provides a unified framework to study problems of grouptheoretical nature in quantumcomputing such as order finding and the discrete logarithmproblem. While it is known that Fourier sampling provides an efficient solution in the abelian case, not much is known for general non-abelian groups. Recently, some authors raised the question as to whether post-processing the Fourier spectrum by measuring in a random orthonormal basis helps for solving the HSP. Several negative results on the shortcomings of this random strong method are known. In this paper however, we show that the random strong method can be quite powerful under certain conditions on the group G. We define a parameter r(G) for a group G and show that O((log |G|/r(G))2) iterations of the random strong method give enough classical information to identify a hidden subgroup in G. We illustrate the power of the random strong method via a concrete example of the HSP over finite Heisenberg groups. We show that r(G) =Ω(1) for these groups; hence the HSP can be solved using polynomially many random strong Fourier samplings followed by a possibly exponential classical post-processing without further queries. The quantum part of our algorithm consists of a polynomial computation followed by measuring in a random orthonormal basis. This gives the first example of a group where random representation bases do help in solving the HSP and for which no explicit representation bases are known that solve the problem with (logG)O(1) Fourier samplings. As an interesting by-product of our work, we get an algorithm for solving the state identification problem for a set of nearly orthogonal pure quantum states.

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