Controlling a whispering-gallery-doublet-mode avoided frequency crossing: Strong coupling between photon bosonic and spin degrees of freedom

Standard functional manipulations have been proven to imply a remarkable property satisfied by the fermionic Green’s functions of QCD and dubbed effective locality. Resulting from a full gauge invariant summation of the gauge field degrees of freedom, effective locality is a non-perturbative property of QCD. This unexpected result has lead to suspect that the famous Gribov copy problem had been somewhat overlooked. It is argued that it is not so. The analysis is conducted in the strong coupling limit, relevant to the Gribov problem.

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All-optical switching and strong coupling using tunable whispering-gallery-mode microresonators

Applied Physics B ◽

10.1007/s00340-011-4714-x ◽

2011 ◽

Vol 105 (1) ◽

pp. 129-148 ◽

Cited By ~ 22

Author(s):

D. O’Shea ◽

C. Junge ◽

M. Pöllinger ◽

A. Vogler ◽

A. Rauschenbeutel

Keyword(s):

Strong Coupling ◽

Optical Switching ◽

Whispering Gallery Mode ◽

Whispering Gallery ◽

All Optical ◽

All Optical Switching

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Strong coupling between distant photonic nanocavities via dark whispering gallery modes

Optics Express ◽

10.1364/oe.386946 ◽

2020 ◽

Vol 28 (7) ◽

pp. 9384

Author(s):

Yanhui Zhao ◽

Li-Heng Chen

Keyword(s):

Strong Coupling ◽

Whispering Gallery Modes ◽

Whispering Gallery

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Brillouin optomechanics in whispering-gallery-mode microresonators: from strong coupling to single-phonon addition and subtraction

Optical and Quantum Sensing and Precision Metrology ◽

10.1117/12.2588453 ◽

2021 ◽

Author(s):

Georg Enzian ◽

John Price ◽

Lars Freisem ◽

Magdalena Szczykulska ◽

Joshua Nunn ◽

...

Keyword(s):

Strong Coupling ◽

Whispering Gallery Mode ◽

Whispering Gallery ◽

Addition And Subtraction

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Theory of the strong coupling of a particle and a quantized field with internal degrees of freedom

Theoretical and Mathematical Physics ◽

10.1007/bf01017021 ◽

1981 ◽

Vol 47 (1) ◽

pp. 313-320 ◽

Cited By ~ 1

Author(s):

S. T. Zavtrak ◽

L. I. Komarov ◽

I. D. Feranchuk

Keyword(s):

Strong Coupling ◽

Degrees Of Freedom ◽

Quantized Field ◽

Internal Degrees Of Freedom

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Ferroelectric polarization in multiferroics

Physical Sciences Reviews ◽

10.1515/psr-2019-0015 ◽

2019 ◽

Vol 4 (9) ◽

Cited By ~ 2

Author(s):

Stephan Krohns ◽

Peter Lunkenheimer

Keyword(s):

Electric Field ◽

Strong Coupling ◽

Degrees Of Freedom ◽

Ferroelectric Properties ◽

Charge Order ◽

Electric Polarization ◽

Ferroelectric Polarization ◽

Past Century ◽

Type I ◽

Solid State Physics

Abstract Multiferroic materials, showing ordering of both electrical and magnetic degrees of freedom, are promising candidates enabling the design of novel electronic devices. Various mechanisms ranging from geometrically or spin-driven improper ferroelectricity via lone-pairs, charge-order or -transfer support multiferroicity in single-phase or composite compounds. The search for materials showing these effects constitutes one of the most important research fields in solid-state physics during the last years, but scientific interest even traces back to the middle of the past century. Especially, a potentially strong coupling between spin and electric dipoles captured the interest to control via an electric field the magnetization or via a magnetic field the electric polarization. This would imply a promising route for novel electronics. Here, we provide a review about the dielectric and ferroelectric properties of various multiferroic systems ranging from type I multiferroics, in which magnetic and ferroelectric order develop almost independently of each other, to type II multiferroics, which exhibit strong coupling of magnetic and ferroelectric ordering. We thoroughly discuss the dielectric signatures of the ferroelectric polarization for BiFeO3, Fe3O4, DyMnO3 and an organic charge-transfer salt as well as show electric-field poling studies for the hexagonal manganites and a spin-spiral system LiCuVO4.

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Strong coupling cavity physics in microspheres with whispering gallery modes

Optics Communications ◽

10.1016/0030-4018(94)00561-8 ◽

1995 ◽

Vol 115 (5-6) ◽

pp. 597-605 ◽

Cited By ~ 28

Author(s):

S Dutta Gupta ◽

Girish S Agarwal

Keyword(s):

Strong Coupling ◽

Whispering Gallery Modes ◽

Whispering Gallery

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Thermodynamics of quantum Brownian motion with internal degrees of freedom: the role of entanglement in the strong-coupling quantum regime

Journal of Physics A General Physics ◽

10.1088/0305-4470/38/33/008 ◽

2005 ◽

Vol 38 (33) ◽

pp. 7325-7340 ◽

Cited By ~ 19

Author(s):

C Hörhammer ◽

H Büttner

Keyword(s):

Brownian Motion ◽

Strong Coupling ◽

Degrees Of Freedom ◽

Quantum Brownian Motion ◽

Quantum Regime ◽

Internal Degrees Of Freedom

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Tailoring excitonic states of van der Waals bilayers through stacking configuration, band alignment, and valley spin

Science Advances ◽

10.1126/sciadv.aax7407 ◽

2019 ◽

Vol 5 (12) ◽

pp. eaax7407 ◽

Cited By ~ 12

Author(s):

Wei-Ting Hsu ◽

Bo-Han Lin ◽

Li-Syuan Lu ◽

Ming-Hao Lee ◽

Ming-Wen Chu ◽

...

Keyword(s):

Strong Coupling ◽

Degrees Of Freedom ◽

Optical Transition ◽

Band Alignment ◽

Individual Layer ◽

Transition Dipole ◽

New Class ◽

Electric Dipoles ◽

Excitonic States ◽

The Cost

Excitons in monolayer semiconductors have a large optical transition dipole for strong coupling with light. Interlayer excitons in heterobilayers feature a large electric dipole that enables strong coupling with an electric field and exciton-exciton interaction at the cost of a small optical dipole. We demonstrate the ability to create a new class of excitons in hetero- and homobilayers that combines advantages of monolayer and interlayer excitons, i.e., featuring both large optical and electric dipoles. These excitons consist of an electron confined in an individual layer, and a hole extended in both layers, where the carrier-species–dependent layer hybridization can be controlled through rotational, translational, band offset, and valley-spin degrees of freedom. We observe different species of layer-hybridized valley excitons, which can be used for realizing strongly interacting polaritonic gases and optical quantum controls of bidirectional interlayer carrier transfer.

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N = 2 SUPERSYMMETRIC YANG–MILLS AND THE QUANTUM HALL EFFECT

International Journal of Modern Physics A ◽

10.1142/s0217751x06033891 ◽

2006 ◽

Vol 21 (23n24) ◽

pp. 4807-4821 ◽

Cited By ~ 4

Author(s):

BRIAN P. DOLAN

Keyword(s):

Phase Diagram ◽

Hall Effect ◽

Strong Coupling ◽

Quantum Hall Effect ◽

Modular Group ◽

Degrees Of Freedom ◽

Quantum Hall ◽

Four Dimensions ◽

Yang Mills

It is argued that there are strong similarities between the infrared physics of N = 2 supersymmetric Yang–Mills and that of the quantum Hall effect, both systems exhibit a hierarchy of vacua with a subgroup of the modular group mapping between them. The coupling flow for pure SU(2) N = 2 supersymmetric Yang–Mills in four dimensions is reexamined and an earlier suggestion in the literature, that was singular at strong coupling, is modified to a form that is well behaved at both weak and strong coupling and describes the crossover in an analytic fashion. Similarities between the phase diagram and the flow of SUSY Yang–Mills and that of the quantum Hall effect are then described, with the Hall conductivity in the latter playing the role of the θ-parameter in the former. Hall plateaux, with odd denominator filling fractions, are analogous to fixed points at strong coupling in N = 2 SUSY Yang–Mills, where the massless degrees of freedom carry an odd monopole charge.

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