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Witnessing entangled two-photon absorption via quantum interferometry

Áulide Martínez-Tapia, Samuel Corona-Aquino, Freiman Triana-Arango, Chenglong You, Rui‐Bo Jin, Omar S. Magaña‐Loaiza, Shi‐Hai Dong, Alfred B. U’Ren, Roberto de J. León‐Montiel

2023APL Photonics18 citationsDOIOpen Access PDF

Abstract

Recent investigations have suggested that the use of non-classical states of light, such as entangled photon pairs, may open new and exciting avenues in experimental two-photon absorption spectroscopy. Despite several experimental studies of entangled two-photon absorption (eTPA), there is still a heated debate on whether eTPA has truly been observed. This interesting debate has arisen mainly because it has recently been argued that single-photon-loss mechanisms, such as scattering or hot-band absorption, may mimic the expected entangled-photon linear absorption behavior. In this work, we focus on transmission measurements of eTPA and explore three different two-photon quantum interferometers in the context of assessing eTPA. We demonstrate that the so-called N00N-state configuration is the only one among those considered insensitive to linear (single-photon) losses. Remarkably, our results show that N00N states may become a potentially powerful tool for quantum spectroscopy, placing them as a strong candidate for the certification of eTPA in an arbitrary sample.

Topics & Concepts

PhotonPhysicsAbsorption (acoustics)Context (archaeology)SpectroscopyPhoton entanglementInterferometryQuantumQuantum mechanicsTwo-photon absorptionOpticsQuantum entanglementLaserPaleontologyBiologyQuantum Information and CryptographyRandom lasers and scattering mediaSpectroscopy and Quantum Chemical Studies
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