Digital quantum simulation of beam splitters and squeezing with IBM quantum computers

We present results on the digital quantum simulations of beam-splitter and squeezing interactions. The bosonic Hamiltonians are mapped to qubits and then digitalized in order to implement them in the IBM quantum devices. We use error mitigation and postselection to achieve high-fidelity digital quantum simulations of single-mode and two-mode interactions, as evinced-where possible-by full tomography of the resulting states. We achieve fidelities above 90% in the case of single-mode squeezing with low squeezing values and ranging from 60% to 90% for large squeezing and in the more complex two-mode interactions.

Automated summary

Results are presented on digital quantum simulations of beam-splitter and squeezing interactions, achieving high fidelity through error mitigation and postselection techniques. Fidelities above 90% are achieved for single-mode squeezing with low values, ranging from 60% to 90% for large squeezing and more complex two-mode interactions.