Litcius/Paper detail

Quantifying the enhancement of two-photon absorption due to spectral-temporal entanglement

Tiemo Landes, Michael G. Raymer, Markus Allgaier, Sofiane Merkouche, Brian J. Smith, Andrew H. Marcus

2021Optics Express69 citationsDOIOpen Access PDF

Abstract

When a low flux of time-frequency-entangled photon pairs (EPP) illuminates a two-photon transition, the rate of two-photon absorption (TPA) can be enhanced considerably by the quantum nature of photon number correlations and frequency correlations. We use a quantum-theoretic derivation of entangled TPA (ETPA) and calculate an upper bound on the amount of quantum enhancement that is possible in such systems. The derived bounds indicate that in order to observe ETPA the experiments would need to operate at a combination of significantly higher rates of EPP illumination, molecular concentrations, and conventional TPA cross sections than are achieved in typical experiments.

Topics & Concepts

Quantum entanglementPhysicsPhotonAbsorption (acoustics)QuantumOpticsPhoton fluxQuantum opticsQuantum mechanicsTwo-photon absorptionAttenuation coefficientAtomic physicsPhoton entanglementUpper and lower boundsFlux (metallurgy)Photon countingAbsorption spectroscopyBeam splitterQuantum informationOrder (exchange)Quantum metrologyMolecular physicsPhase matchingQuantum fluctuationQuantum information processingBound stateQuantum channelQuantum imagingQuantum noiseQuantum dotQuantum sensorQuantum Information and CryptographyNonlinear Optical Materials StudiesStrong Light-Matter Interactions