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Sub-Poissonian Photon Gun by Coherent Diffusive Photonics

Descrizione del progetto

Sorgenti luminose compatte e non classiche per l’imaging ottico avanzato e la metrologia

Il progetto PhoG, finanziato dall’UE, prevede di realizzare una sorgente compatta, versatile e deterministica di luce quantistica o «photon gun» basata su reti di guide d’onda integrate con perdite non lineari ingegnerizzate. I sistemi quantistici con perdite non lineari ingegnerizzate sono più robusti rispetto a quelli con stati coerenti quantistici attenuati, tipicamente utilizzati nei dispositivi per comodità. I dispositivi di PhoG fungeranno sia da sorgente deterministica di luce altamente sub-poissoniana sia come fotoni intrecciati in diverse configurazioni di stato. Questi dispositivi potrebbero potenziare l’imaging a super-risoluzione e migliorare la stabilità degli orologi atomici commerciali.

Obiettivo

The goal of the project is to deliver deterministic compact sources of highly non-classical states, from sub-Poissonian light to multi-mode entanglement, all utilizing a solitary technological platform. The project will build their working prototypes and develop the technology foundation for applications of these sources in an advanced optical imaging and metrology. The proposed sources will be based on a novel paradigm in photonic devices: diffusive coherent photonics operating with dissipatively coupled photonic circuits. The project will demonstrate that light can flow diffusively retaining coherence and even entanglement, be effectively equalized, distributed in a controlled way or even localized in perfectly periodic structures by means of dissipative coupling. Such unique light propagation regimes will be realized with the help of a photonic analogue of a tight-binding lattice using coupled waveguide networks in linear and non-linear glass materials. These coherent photonic devices will be fabricated by ultrafast laser inscription, and the dissipative coupling implemented by mutually coupling each pair of waveguides in the chain to a linear arrangement of waveguides. Efficient quantum diagnostics methods will be developed to verify the source characteristics and to assess their technological readiness. We expect coherent diffusive photonic devices to find applications in photonic networks and in a range of metrology tasks, potentially also for simulations of complex quantum dynamics. The project goal thus is: 1) to implement a family of compact sub-Poissonian photon guns, capable of robust generation of mesoscopic non-classical and entangled states; 2) to perform a feasibility study of their applications in entanglement-enhanced imaging and atomic clocks aiming at the 2 times better clock frequency stability.

Parole chiave

Invito a presentare proposte

H2020-FETFLAG-2018-2020

Vedi altri progetti per questo bando

Bando secondario

H2020-FETFLAG-2018-03

Meccanismo di finanziamento

RIA - Research and Innovation action

Coordinatore

THE UNIVERSITY COURT OF THE UNIVERSITY OF ST ANDREWS
Contribution nette de l'UE
€ 344 017,50
Indirizzo
NORTH STREET 66 COLLEGE GATE
KY16 9AJ St Andrews
Regno Unito

Mostra sulla mappa

Regione
Scotland Eastern Scotland Clackmannanshire and Fife
Tipo di attività
Higher or Secondary Education Establishments
Collegamenti
Costo totale
€ 344 017,50

Partecipanti (4)