Electromagnetically induced transparency (EIT) originates from a quantum interference in atomic physics, leading to the formation of a narrow transparency window within a broad absorption spectrum [ 1 ]. This concept was later extended to metamaterial systems.
The transmission of a probe field experiencing electromagnetically induced transparency and optical switching in an atomic medium enclosed in an optical cavity is investigated. Using a semiclassical input-output theory for the interaction between an, Electromagnetically induced transparency (EIT) originates from a quantum interference in atomic physics, leading to the formation of a narrow transparency window within a broad absorption spectrum. This concept was later extended to metamaterial systems.
1/13/2020 · Electromagnetically induced transparency (EIT) is ‘tuned’ by two particles on the optical resonator.
Electromagnetically induced transparency is observed in a mismatched-wavelength cascade system with a room-temperature rubidium vapor cell. A cw probe laser beam monitors the 5S1/2 ? 5P3/2 transition while another cw laser couples the 5P3/2 state to a higher excited state.
10/24/2011 · Electromagnetically Induced T ransparency (EIT) is a quantum interference phenomenon occurring when two electromagnetic ?elds resonantly excite two di?erent, Stephen E. Harris, Lene Hau, Nader Engheta
