Photonic variational quantum eigensolver using entanglement measurements
- URL: http://arxiv.org/abs/2404.15579v1
- Date: Wed, 24 Apr 2024 01:07:49 GMT
- Title: Photonic variational quantum eigensolver using entanglement measurements
- Authors: Jinil Lee, Wooyeong Song, Donghwa Lee, Yosep Kim, Seung-Woo Lee, Hyang-Tag Lim, Hojoong Jung, Sang-Wook Han, Yong-Su Kim,
- Abstract summary: Variational quantum eigensolver (VQE) has been arisen as a promising candidate for near-term quantum computing applications.
Applying entanglement measurements to reduce the number of measurement setups has been proposed to address this issue.
Here, we apply entanglement measurements to the photonic VQE utilizing polarization and path degrees of freedom of a single-photon.
- Score: 1.8713021287562592
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Variational quantum eigensolver (VQE), which combines quantum systems with classical computational power, has been arisen as a promising candidate for near-term quantum computing applications. However, the experimental resources such as the number of measurements to implement VQE rapidly increases as the Hamiltonian problem size grows. Applying entanglement measurements to reduce the number of measurement setups has been proposed to address this issue, however, entanglement measurements themselves can introduce additional resource demands. Here, we apply entanglement measurements to the photonic VQE utilizing polarization and path degrees of freedom of a single-photon. In our photonic VQE, entanglement measurements can be deterministically implemented using linear optics, so it takes full advantage of introducing entanglement measurements without additional experimental demands. Moreover, we show that such a setup can mitigate errors in measurement apparatus for a certain Hamiltonian.
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