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Nonlinear nanoresonators for Bell state generation

Maximilian A. Weissflog, Romain Dézert, Vincent Vinel, Carlo Gigli, Giuseppe Leo, Thomas Pertsch, Frank Setzpfandt, Adrien Borne, Sina Saravi

2024Applied Physics Reviews27 citationsDOIOpen Access PDF

Abstract

Entangled photon states are a fundamental resource for optical quantum technologies and investigating the fundamental predictions of quantum mechanics. Up to now such states are mainly generated in macroscopic nonlinear optical systems with elaborately tailored optical properties. In this theoretical work, we extend the understanding on the generation of entangled photonic states toward the nanoscale regime by investigating the fundamental properties of photon-pair generation in sub-wavelength nonlinear nanoresonators. Taking materials with Zinc-Blende structure as an example, we reveal that such systems can naturally generate various polarization-entangled Bell states over a very broad range of wavelengths and emission directions, with little to no engineering needed. Interestingly, we uncover different regimes of operation, where polarization-entangled photons can be generated with dependence on or complete independence from the pumping wavelength and polarization, and the modal content of the nanoresonator. Our work also shows the potential of nonlinear nanoresonators as miniaturized sources of biphoton states with highly complex and tunable properties.

Topics & Concepts

PhysicsPhotonPhotonicsQuantumNonlinear systemPolarization (electrochemistry)Quantum opticsNonlinear opticsPhoton entanglementQuantum mechanicsOptoelectronicsQuantum entanglementChemistryPhysical chemistryQuantum Information and CryptographyPhotonic and Optical DevicesMechanical and Optical Resonators