Litcius/Paper detail

Energy-time-entangled two-photon molecular absorption

Dmitry Tabakaev, M. Montagnese, Géraldine Haack, Luigi Bonacina, Jean‐Pierre Wolf, Hugo Zbinden, Rob Thew

2021Physical review. A/Physical review, A84 citationsDOIOpen Access PDF

Abstract

Nonlinear spectroscopy and microscopy techniques are ubiquitous in a wide range of applications across physics and biology. However, these usually rely on high-powered pulsed laser systems. A promising alternative is to exploit entangled two-photon absorption (ETPA), which can lead to tens of orders of magnitude lower incident fluxes than in conventional two-photon absorption schemes. However, the role of different entangled degrees of freedom in ETPA was unclear following recent experimental studies, when compared to earlier theoretical works. Here, we first demonstrate a linear dependence of the ETPA rate with the photon-pair rate, a clear signature of ETPA, and estimate the values for the concentration-dependent ETPA cross section for Rhodamine 6G. We then investigate the signature of energy-time entanglement and polarization dependence in the ETPA fluorescence rate and demonstrate a strong dependence of the signal on the interphoton delay that reflects the coherence time of the entangled two-photon wave packet.

Topics & Concepts

PhysicsPhotonQuantum entanglementCoherence (philosophical gambling strategy)Photon entanglementTwo-photon absorptionAbsorption (acoustics)Nonlinear systemAtomic physicsQuantum mechanicsComputational physicsOpticsLaserQuantumQuantum Information and CryptographySpectroscopy and Quantum Chemical StudiesNonlinear Optical Materials Studies