A quantum algorithm for computing the unit group of an arbitrary degree number field
- Other:
- Shmoys, David
Abstract
Computing the group of units in a field of algebraic numbers is one of the central tasks of computational algebraic number theory. It is believed to be hard classically, which is of interest for cryptography. In the quantum setting, efficient algorithms were previously known for fields of constant degree. We give a quantum algorithm that is polynomial in the degree of the field and the logarithm of its discriminant. This is achieved by combining three new results. The first is a classical algorithm for computing a basis for certain ideal lattices with doubly exponentially large generators. The second shows that a Gaussian-weighted superposition of lattice points, with an appropriate encoding, can be used to provide a unique representation of a real-valued lattice. The third is an extension of the hidden subgroup problem to continuous groups and a quantum algorithm for solving the HSP over the group ℝ^n.
Additional Information
Copyright is held by the owner/author(s). Partially supported by National Science Foundation grant DMS-1056703 and by the National Security Agency (NSA) under Army Research Office (ARO) contract number W911NF-12-1-0522. Part of this work was done while the first author was visiting Harvard University and MIT. Partially supported by National Science Foundation awards CCF-0747274 and CCF-1218721, and by the National Security Agency (NSA) under Army Research Office (ARO) contract number W911NF-12-1-0522. Part of this work was done while visiting MIT.Attached Files
Published - p293-eisentrager.pdf
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Additional details
- Eprint ID
- 70983
- Resolver ID
- CaltechAUTHORS:20161010-172823440
- NSF
- DMS-1056703
- Army Research Office (ARO)
- W911NF-12-1-0522
- NSF
- CCF-0747274
- NSF
- CCF-1218721
- National Security Agency
- Created
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2016-10-11Created from EPrint's datestamp field
- Updated
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2021-11-11Created from EPrint's last_modified field