Probabilistic Exact Inversion of 2-qubit Bipartite Unitary Operations using Local Operations and Classical Communication

University essay from KTH/Fysik

Abstract: A distributed quantum computer holds the potential to emulate a larger quantumcomputer by being partitioned it into smaller modules where local operations (LO)can be applied, and classical communication (CC) can be utilized between thesemodules. Finding algorithms under LOCC restrictions is crucial for leveraging thecapabilities of distributed quantum computing, This thesis explores probabilisticexact LOCC supermaps, that maps 2-qubit bipartite unitary operations to its inver-sion and complex conjugation. Presented are LOCC unitary inversion and complexconjugation supermaps that use 3 calls of the operation, achieving success proba-bilities of 3/128 and 3/8, respectively. These supermaps are discovered through anexamination of the Kraus Cirac decomposition and its interaction with single qubitunitary inversion supermaps. These results can be used for time reversal of as welland noise reduction in closed distributed quantum systems

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