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- The application of a magnetic field therefore causes a new narrow resonance to appear in the cavity’s transmission spectrum. At sufficiently small values of the applied field, the desired characteristics of the dark state remain intact, providing a narrow feature that is largely decoupled from the thermal vibrations of the cavity mirrors.
physics.aps.org/articles/v10/70
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Can dark resonances be formed in strong magnetic fields?
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Jan 26, 2019 · Dark resonances were formed via electromagnetically induced transparency for the first time involving magnetically-induced atomic transitions of alkali metal atom, which are forbidden at zero magnetic field.
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Dark resonances were formed via electromagnetically induced...
- ar5iv
Dark resonances were formed via electromagnetically induced transparency for the first time, to the best of our knowledge, involving magnetically induced ΔF=±2 atomic transitions of alkali metal atoms, which are forbidden at zero magnetic field.
Mar 2, 2024 · Dark resonances were formed via electromagnetically induced transparency for the first time involving magnetically-induced Δ 𝐹 plus-or-minus 2 atomic transitions of alkali metal atom, which are forbidden at zero magnetic field.
Mar 15, 2019 · Dark resonances were formed via electromagnetically induced transparency for the first time, to the best of our knowledge, involving magnetically induced ΔF=±2 atomic transitions of alkali metal atoms, which are forbidden at zero magnetic field.
Mar 15, 2019 · Dark resonances were formed via electromagnetically induced transparency for the first time, to the best of our knowledge, involving magnetically induced ΔF=±2 atomic transitions of alkali...
Dark resonances were formed via electromagnetically induced transparency for the first time involving magnetically-induced ∆F = ±2 atomic transitions of alkali metal atom, which are for- bidden at zero magnetic field.
Sep 8, 2021 · Magnetically induced Fg = 2 → Fe = 4 transitions corresponding to the 85 Rb D2 line in the case of the σ + circularly polarized radiation have been used for the first time to form optical dark resonances in strong magnetic fields up to 1 kG under electromagnetically induced transparency conditions.