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Heralded creation of photonic qudits from parametric down-conversion using linear optics

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Yoshikawa, Jun-ichi
Bergmann, Marcel
van Loock, Peter
Fuwa, Maria
Okada, Masanori
Takase, Kan
Toyama, Takeshi
Makino, Kenzo
Takeda, Shuntaro
Furusawa, Akira

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American Physical Society

Abstract

We propose an experimental scheme to generate, in a heralded fashion, arbitrary quantum superpositions of two-mode optical states with a fixed total photon number n based on weakly squeezed two-mode squeezed state resources (obtained via weak parametric down-conversion), linear optics, and photon detection. Arbitrary d-level (qudit) states can be created this way where d = n + 1. Furthermore, we experimentally demonstrate our scheme for n = 2. The resulting qutrit states are characterized via optical homodyne tomography. We also discuss possible extensions to more than two modes concluding that, in general, our approach ceases to work in this case. For illustration and with regards to possible applications, we explicitly calculate a few examples such as NOON states and logical qubit states for quantum error correction. In particular, our approach enables one to construct bosonic qubit error-correction codes against amplitude damping (photon loss) with a typical suppression of root n - 1 losses and spanned by two logical codewords that each correspond to an n-photon superposition for two bosonic modes.

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Physical Review A

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Open Access

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