Risultati scientifici

Nanoscale quantum optics

Anno: 2019

Autori: D’Amico I., Angelakis D. G., Bussières F., Caglayan H., Couteau C., DurtT., Kolaric B., Maletinsky P., Pfeiffer W., Rabl P., Xuereb A., Agio M.

Affiliazione autori: Department of Physics, University of York – York, UK; InternationalI Institute of Physics, Federall University of Rio Grande do Norte-Natal, Brazil; School of Electrical and Computer Engineering, Technical University of Crete – Chania, Greece;Centre for Quantum Technologies, National University of Singapore – Singapore, Singapore; GAP – Quantum Technologies, University of Geneva – Geneva, Switzerland; ID Quantique SA – Carouge, Switzerland; Faculty of Engineering and Natural Sciences, Photonics, Tampere University – Tampere, Finland; Light, nanomaterials and nanotechnologies-L2n, University of Technology of Troyes (UTT) – Troyes, France; Institute Fresnel, Aix Marseille Univ, CNRS, Centrale Marseille, UMR 7249 – Marseille, France; Micro- and Nanophotonic Materials Group, University of Mons – Mons, Belgium;Institute of Physics, Photonics, Center, University of Belgrade – Belgrade, Serbia; Old World Labs – Virginia Beach, USA; Department of Physics, University of Basel – Basel, Switzerland; Faculty of Physics, University of Bielefeld – Bielefeld, Germany; Atominstitut, TU Wien – Vienna, Austria; Department of Physics, University of Malta – Msida, Malta; Laboratory of Nano-Optics and Cμ, University of Siegen – Siegen, Germany; National Institute of Optics (CNR-INO), National Research Council – Florence, Italy

Abstract: Nanoscale quantum optics explores quantum phenomena in nanophotonics systems for advancing fundamental knowledge in nano and quantum optics and for harnessing the laws of quantum physics in the development of new photonics-based technologies. Here, we review recent progress in the field with emphasis on four main research areas: Generation, detection, manipulation and storage of quantum states of light at the nanoscale, nonlinearities and ultrafast processes in nanostructured media, nanoscale quantum coherence, cooperative effects, correlations and many-body physics tailored by strongly confined optical fields. The focus is both on basic developments and technological implications, especially concerning information and communication technology, sensing and metrology, and energy efficiency.


Volume: 42 (4)      Da Pagina: 153  A: 195

Parole chiavi: quantum optics, nano-optics
DOI: 10.1393/ncr/i2019-10158-0

Citazioni: 9
dati da “WEB OF SCIENCE” (of Thomson Reuters) aggiornati al: 2021-12-05
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