Polynomial invariants of quantum codes

Polynomial invariants of quantum codes

The weight enumerators (Shor and Laflamme 1997) of a quantum code are quite powerful tools for exploring its structure. As the weight enumerators are quadratic invariants of the code, this suggests the consideration of higher degree polynomial invariants. We show that the space of degree k invariant...

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Veröffentlicht in:IEEE transactions on information theory 2000-01, Vol.46 (1), p.54-59
1. Verfasser: Rains, E.M.
Format: Artikel
Sprache:eng
Schlagworte:
Additives
Codes
Inequalities
Information theory
Invariants
Mathematical analysis
Polynomials
Proving
Quantum theory
Rain
Shadows
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Zusammenfassung:The weight enumerators (Shor and Laflamme 1997) of a quantum code are quite powerful tools for exploring its structure. As the weight enumerators are quadratic invariants of the code, this suggests the consideration of higher degree polynomial invariants. We show that the space of degree k invariants of a code of length n is spanned by a set of basic invariants in one-to-one correspondence with S/sub k//sup n/. We then present a number of equations and inequalities in these invariants; in particular, we give a higher order generalization of the shadow enumerator of a code, and prove that its coefficients are nonnegative. We also prove that the quartic invariants of a ((4, 4, 2))/sub 2/ code are uniquely determined, an important step in a proof that any ((4, 4, 2))/sub 2/ code is additive (Rains 1999).
ISSN:0018-9448
1557-9654
DOI:10.1109/18.817508