Polaritonics: from microcavities to sub-wavelength confinement. Ballarini, D. & De Liberato, S. NANOPHOTONICS, 8(4, SI):641-654, APR, 2019. doi abstract bibtex Following the initial success of cavity quantum electrodynamics in atomic systems, strong coupling between light and matter excitations is now achieved in several solid-state set-ups. In those systems, the possibility to engineer quantum emitters and resonators with very different characteristics has allowed access to novel nonlinear and non-perturbative phenomena of both fundamental and applied interest. In this article, we will review some advances in the field of solid-state cavity quantum electrodynamics, focussing on the scaling of the relevant figures of merit in the transition from microcavities to sub-wavelength confinement.
@article{ ISI:000462284500010,
Author = {Ballarini, Dario and De Liberato, Simone},
Title = {{Polaritonics: from microcavities to sub-wavelength confinement}},
Journal = {{NANOPHOTONICS}},
Year = {{2019}},
Volume = {{8}},
Number = {{4, SI}},
Pages = {{641-654}},
Month = {{APR}},
Abstract = {{Following the initial success of cavity quantum electrodynamics in
atomic systems, strong coupling between light and matter excitations is
now achieved in several solid-state set-ups. In those systems, the
possibility to engineer quantum emitters and resonators with very
different characteristics has allowed access to novel nonlinear and
non-perturbative phenomena of both fundamental and applied interest. In
this article, we will review some advances in the field of solid-state
cavity quantum electrodynamics, focussing on the scaling of the relevant
figures of merit in the transition from microcavities to sub-wavelength
confinement.}},
DOI = {{10.1515/nanoph-2018-0188}},
ISSN = {{2192-8606}},
EISSN = {{2192-8614}},
ResearcherID-Numbers = {{Ballarini, Dario/R-4866-2016
De Liberato, Simone/L-6453-2013}},
ORCID-Numbers = {{Ballarini, Dario/0000-0002-2453-5849
De Liberato, Simone/0000-0002-4851-2633}},
Unique-ID = {{ISI:000462284500010}},
}
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