SUPER scheme decreases photon number coherence of emitted photons from quantum dot-cavity systems via Stark shift decoupling.
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Rapid adiabatic passage with Bessel-modulated truncated Laguerre-Gaussian and super-Gaussian beams enables super-resolved imaging in two-level quantum dots by forming a central spot and suppressing rings, with resolution preserved at high pulse areas despite temperature-dependent exciton-phonon deco
citing papers explorer
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Photon Number Coherence of a Quantum Dot-Cavity System Excited Using the SUPER Scheme
SUPER scheme decreases photon number coherence of emitted photons from quantum dot-cavity systems via Stark shift decoupling.
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Structured beam controlled super-resolution in quantum dots via rapid adiabatic passage
Rapid adiabatic passage with Bessel-modulated truncated Laguerre-Gaussian and super-Gaussian beams enables super-resolved imaging in two-level quantum dots by forming a central spot and suppressing rings, with resolution preserved at high pulse areas despite temperature-dependent exciton-phonon deco