Lie algebraic invariants in quantum linear optics
| Autor: | Parellada, Pablo V., Garcia, Vicent Gimeno i, Moyano-Fernández, Julio José, Garcia-Escartin, Juan Carlos |
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| Rok vydání: | 2024 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | Quantum linear optics is a promising candidate for obtaining a quantum computational advantage. However, linear optics without post-selection is not powerful enough to produce any quantum state from a given input state. This limits its utility since some computations require entangled resources that are difficult to prepare. Thus, we need a deeper understanding of linear optical state preparation. In this work, we give a recipe to derive conserved quantities in the evolution of arbitrary states along any possible passive linear interferometer. We obtain the invariants by projecting the density operator of the state onto the Lie algebra of passive linear optical Hamiltonians. The conservation of the invariants gives necessary conditions for exact and approximate state preparation with passive linear optics: if input and output states have different invariants, it will be impossible to design a linear optical experiment that evolves one into the other or a sufficiently close one. Therefore, the invariants allow us to narrow the search when trying to prepare entangled states useful for quantum information, like Bell or NOON states, from easy-to-prepare states, like Fock states. We conclude that future exact and approximate state preparation methods will need to take into account the necessary conditions given by our invariants to weed out impossible linear optical evolutions. Comment: 10 pages, 2 figures. Comments welcome! |
| Databáze: | arXiv |
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