Author_Institution :
AT&T Res., Florham Park, NJ, USA
Abstract :
In a recent paper, Shor and Laflamme (see Phys. Rev. Lett., vol.78, p.1600-2, 1997) defined two “weight enumerators” for quantum error-correcting codes, connected by a MacWilliams transform, and used them to give a linear programming bound for quantum codes. We introduce two new enumerators which, while much less powerful at producing bounds, are useful tools nonetheless. The new enumerators are connected by a much simpler duality transform, clarifying the duality between Shor and Laflamme´s enumerators. We also use the new enumerators to give a simpler condition for a quantum code to have specified minimum distance, and to extend the enumerator theory to codes with block size greater than 2
Keywords :
block codes; duality (mathematics); error correction codes; quantum theory; MacWilliams transform; block codes; duality transform; enumerator theory; linear programming bound; quantum codes; quantum error-correcting codes; specified minimum distance; weight enumerators; Block codes; Error correction codes; Hilbert space; Linear programming; Machinery; Quantum mechanics; Rain; Terminology; Upper bound;
