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Related papers: Dicke Superradiance in Solids

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We present theoretical results for superradiance, i.e. the collective coherent decay of a radiating system, in semiconductor structures. An optically active region can become superradiant if a strong magnetic field is applied. Pumping of…

Mesoscale and Nanoscale Physics · Physics 2007-05-23 T. Brandes , J. Inoue , A. Shimizu

Due to its coherence properties and high optical depth, a Bose-Einstein condensate provides an ideal setting to investigate collective atom-light interactions. Superradiant light scattering in a Bose-Einstein condensate is a fascinating…

Quantum Physics · Physics 2016-08-02 J. H. Müller , D. Witthaut , R. le Targat , J. J. Arlt , E. S. Polzik , A. J. Hilliard

Dicke superradiance describes the collective radiative decay of a fully inverted ensemble of two-level atoms. We experimentally investigate this effect for a chiral, i.e.,~direction-dependent light--matter coupling. Despite a fundamentally…

The phenomenon of super-radiance (Dicke effect, coherent spontaneous radiation by a gas of atoms coupled through the common radiation field) is well known in quantum optics. The review discusses similar physics that emerges in open and…

Quantum Physics · Physics 2011-09-23 Naftali Auerbach , Vladimir Zelevinsky

Generalized with respect to the Stark interaction of atoms with a vacuum field of zero photon density, Dicke's model is used to describe the Raman superradiance of a localized ensemble of identical atoms in a coherent non-resonant light…

Quantum Physics · Physics 2019-01-16 A. M. Basharov , A. I. Trubilko

The superradiant phenomenon, usually described by the Dicke model, is a hallmark of strong light-matter interaction. We explore how matter-matter interactions influence this phenomenon by performing ground-state simulations of Dicke-like…

Quantum Physics · Physics 2025-10-01 João Pedro Mendonça , Krzysztof Jachymski , Yao Wang

Superradiance, in which the collective behavior of emitters can generate enhanced radiative decay, was first predicted by a model, now known as the Dicke model, that contains a collection of two-level systems (the emitters) all interacting…

Optics · Physics 2025-02-05 Xuecheng Tao , John P. Philbin , Prineha Narang

When atoms are coupled to a common electromagnetic environment, the exchange of photons through dipole-dipole interactions leads to the emergence of cooperative effects. As a particular example, superradiance arises from spontaneous…

Quantum Physics · Physics 2024-09-11 Hanzhen Ma , Oriol Rubies-Bigorda , Susanne F. Yelin

We have applied the concept of superradiance introduced by Dicke in 1954 to astrophysics by extending the corresponding analysis to the magnetic dipole interaction characterizing the atomic hydrogen 21 cm line. Although it is unlikely that…

Astrophysics of Galaxies · Physics 2016-08-17 Fereshteh Rajabi , Martin Houde

Quantum particles sometimes cooperate to develop a macroscopically ordered state with extraordinary properties. Superconductivity and Bose-Einstein condensation are examples of such cooperative phenomena where macroscopic order appears…

Mesoscale and Nanoscale Physics · Physics 2013-03-28 G. T. Noe , J. -H. Kim , J. Lee , Y. -D. Jho , Y. Wang , A. K. Wojcik , S. A. McGill , D. H. Reitze , A. A. Belyanin , J. Kono

Supersolidity - simultaneous superfluid flow and crystalline order - has been realized in quantum atomic systems but remains unexplored in purely photonic platforms operating at weak light-matter coupling. We predict a supersolid phase of…

Optics · Physics 2026-03-16 J. L. Figueiredo , J. T. Mendonça , H. Terças

We propose a realization of two remarkable effects of Dicke physics in quantum simulation of light-matter many-body interactions with artificial quantum systems. These effects are a superradiant decay of an ensemble of qubits and the…

Quantum Physics · Physics 2019-09-27 S. V. Remizov , A. A. Zhukov , W. V. Pogosov , Yu. E. Lozovik

The Dicke superradiance from an optically thin nanocomposite slab represented by metal nanoparticles dispersed in a dielectric matrix is predicted and its theory is developed from first principles. It is shown that the superradiance signal…

Optics · Physics 2021-06-18 V. G. Bordo

Several physical systems can be treated as a scattering process, and, for these processes, a natural observed quantity arises: the ratio between the reflected and incident intensities, known as the reflection coefficient. This dissertation…

General Relativity and Quantum Cosmology · Physics 2014-07-15 Bruno Arderucio

Superradiance has been extensively studied in the 1970s and 1980s in the regime of superfluores-cence, where a large number of atoms are initially excited. Cooperative scattering in the linear-optics regime, or "single-photon superradiance"…

Atomic Physics · Physics 2016-09-07 Michelle O. Araújo , Ivor Kresic , Robin Kaiser , William Guerin

We present a proposal for a probing scheme utilizing Dicke superradiance to obtain information about ultracold atoms in optical lattices. A probe photon is absorbed collectively by an ensemble of lattice atoms generating a Dicke state. The…

Quantum Physics · Physics 2016-07-01 Nicolai ten Brinke , Ralf Schützhold

Dicke superradiance, i.e., the enhanced spontaneous emission of coherent radiation, is often attributed to radiation emitted by synchronized dipoles coherently oscillating in phase. At the same time, Dicke derived superradiance assuming…

Quantum Physics · Physics 2021-11-10 D. Bhatti , M. Bojer , J. von Zanthier

An ensemble of excited atoms can synchronize emission of light collectively in a process known as superradiance when its characteristic size is smaller than the wavelength of emitted photons. The underlying superradiance depends strongly on…

Subradiance is the cooperative inhibition of the radiation by several emitters coupled to the same electromagnetic modes. It was predicted by Dicke in 1954 and only recently observed in cold atomic vapors. Here we address the question to…

Atomic Physics · Physics 2019-10-02 P. Weiss , A. Cipris , M. O. Araújo , R. Kaiser , W. Guerin

We study numerically the slow (subradiant) decay of the fluorescence of motionless atoms after a weak pulsed excitation. We show that, in the linear-optics regime and for an excitation detuned by several natural linewidths, the slow decay…

Quantum Physics · Physics 2021-08-10 Y. A. Fofanov , I. M. Sokolov , R. Kaiser , W. Guerin