There is increasing interest in the study of chiral degrees of freedom occurring in matter and
in electromagnetic fields. Opportunities in quantum sciences will likely exploit two main …

Superradiance is a fundamental collective effect where radiation is amplified by the
coherence of multiple emitters. Superradiance plays a prominent role in optics (where it …

Dopant atoms are ubiquitous in semiconductor technologies, providing the tailored
electronic properties that underpin the modern digital information era. Harnessing the …

The photochemistry of a molecular ensemble coupled to a resonance cavity and triggered
by a femtosecond laser pulse is investigated from a real-time, quantum dynamics …

The detailed structure of superradiant pulses generated from a free-electron laser (FEL)
oscillator was experimentally revealed for the first time. Owing to the phase retrieval with a …

Time crystals are nonequilibrium many-body phases in which the state of the system
dynamically approaches a limit cycle. While these phases have recently been the focus of …

Tavis-Cummings (TC) cavity quantum electrodynamical effects, describing the interaction of
N atoms with an optical resonator, are at the core of atomic, optical and solid state physics …

We study quantum dynamics of many-qubit systems strongly coupled to a quantized
electromagnetic cavity field in the presence of decoherence and dissipation for both …

In this study, we present the superradiance effects of N identical molecular emitters inside
Fabry–Pérot (FP) cavity systems in the framework of macroscopic quantum electrodynamics …

The long coherence time of a single nitrogen vacancy (NV) center spin in diamond is a
crucial advantage for implementing quantum information processing. However, the …