Rapid Quantum Search Algorithm ()
ABSTRACT
The collapse phenomenon, the parallelism principle and states correlation are used to define a type of a Grover rapid search engine. In our approach, the observer’s query and the Grover-unsorted-data are stored in different memories where the global state is represented by a tensor product of the associated states. In the proposed formalism, each query-state input activates an adjusted operator that implements the unsorted state in an appropriate 2-D Grover representation. It will be shown that once the representation is set, it takes mainly two operations to complete the whole query search. This seems to be a very efficient search algorithm.
Share and Cite:
Y. Roth, "Rapid Quantum Search Algorithm,"
Journal of Modern Physics, Vol. 4 No. 9, 2013, pp. 1176-1179. doi:
10.4236/jmp.2013.49158.