3,332 research outputs found

    Anti-chiral edge states in an exciton polariton strip

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    We present a scheme to obtain anti-chiral edge states in an exciton-polariton honeycomb lattice with strip geometry, where the modes corresponding to both edges propagate in the same direction. Under resonant pumping the effect of a polariton condensate with nonzero velocity in one linear polarization is predicted to tilt the dispersion of polaritons in the other, which results in an energy shift between two Dirac cones and the otherwise flat edge states become tilted. Our simulations show that due to the spatial separation from the bulk modes the edge modes are robust against disorder.Comment: 6 pages, 5 figure

    Magnetic Field Control of the Optical Spin Hall Effect

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    We investigate theoretically the effect of an external magnetic field on polarization patterns appearing in quantum microcavities due to the optical spin Hall effect (OSHE). We show that increase of the magnetic field perpendicular to the plane of the cavity resulting in the increase of the Zeeman splitting leads to the transition from azimuthal separation of polarizations to their radial separation. This effect can be straightforwardly detected experimentally.Comment: 9 pages, 6 figure

    Device independent state estimation based on Bell's inequalities

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    The only information available about an alleged source of entangled quantum states is the amount SS by which the Clauser-Horne-Shimony-Holt (CHSH) inequality is violated: nothing is known about the nature of the system or the measurements that are performed. We discuss how the quality of the source can be assessed in this black-box scenario, as compared to an ideal source that would produce maximally entangled states (more precisely, any state for which S=22S=2\sqrt{2}). To this end, we introduce several inequivalent notions of fidelity, each one related to the use one can make of the source after having assessed it; and we derive quantitative bounds for each of them in terms of the violation SS. We also derive a lower bound on the entanglement of the source as a function of SS only.Comment: 8 pages, 2 figures. Added appendices containing proof

    The Design for a Nanoscale Single-Photon Spin Splitter

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    We propose using the effective spin-orbit interaction of light in Bragg-modulated cylindrical waveguides for the effcient separation of spin-up and spin-down photons emitted by a single photon emitter. Due to the spin and directional dependence of photonic stopbands in the waveguides, spin-up (down) photon propagation in the negative (positive) direction along the waveguide axis is blocked while the same photon freely propagates in the opposite direction.Comment: 5 pages, 3 figure

    Monolithic Arrays of Grating-Surface-Emitting Diode Lasers and Quantum Well Modulators for Optical Communications

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    The electro-optic switching properties of injection-coupled coherent 2-D grating-surface-emitting laser arrays with multiple gain sections and quantum well active layers are discussed and demonstrated. Within such an array of injection-coupled grating-surface-emitting lasers, a single gain section can be operated as intra-cavity saturable loss element that can modulate the output of the entire array. Experimental results demonstrate efficient sub-nanosecond switching of high power grading-surface-emitting laser arrays by using only one gain section as an intra-cavity loss modulator

    Operation speed of polariton condensate switches gated by excitons

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    We present a time-resolved photoluminescence (PL) study in real- and momentum-space of a polariton condensate switch in a quasi-1D semiconductor microcavity. The polariton flow across the ridge is gated by excitons inducing a barrier potential due to repulsive interactions. A study of the device operation dependence on the power of the pulsed gate beam obtains a satisfactory compromise for the ON/OFF-signal ratio and -switching time of the order of 0.3 and 50\thicksim50 ps, respectively. The opposite transition is governed by the long-lived gate excitons, consequently the OFF/ON-switching time is 200\thicksim200 ps, limiting the overall operation speed of the device to 3\thicksim3 GHz. The experimental results are compared to numerical simulations based on a generalized Gross-Pitaevskii equation, taking into account incoherent pumping, decay and energy relaxation within the condensate.Comment: 11 pages, 11 figure

    Information needs and oral epithelial dysplasia: development and psychometric evaluation of a novel instrument

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    Objectives: Oral epithelial dysplasia (OED) can lead to significant information needs (IN) related to the risk of cancer development, the need for long‐term monitoring and potential intervention. The present study aimed to develop and perform preliminary psychometric testing for a novel IN instrument specific to OED. / Subjects and methods: Patients diagnosed with OED were invited to complete the Oral Epithelial Dysplasia Informational Needs Questionnaire (ODIN‐Q), which was developed based on a known theoretical framework and with items generated via expert input and the literature. Face validity and content validity were initially assessed prior to finalisation of the tool. ODIN‐Q was tested for internal consistency and test–retest reliability along with construct validity. / Results: ODIN‐Q consists of 35 items, categorised under six domains, and rated by dual 4‐point Likert scales (amount of information received and degree of importance). Internal consistency (Cronbach's alpha) was rated “excellent” for the scale (0.93) and both subscales (0.92/0.94). For test–retest reliability, moderate agreement was found (κ = 0.49–0.53). Regarding construct validity, a significant but limited relationship was found between ODIN‐Q and the Krantz Health Opinion Survey. / Conclusion: ODIN‐Q showed adequate psychometric properties of reliability and validity. Further validation is, however, needed to assess its structural validity and responsiveness

    Optical control of spin textures in quasi-one-dimensional polariton condensates

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    We investigate, through polarization-resolved spectroscopy, the spin transport by propagating polariton condensates in a quasi one-dimensional microcavity ridge along macroscopic distances. Under circularly polarized, continuous-wave, non-resonant excitation, a sinusoidal precession of the spin in real space is observed, whose phase depends on the emission energy. The experiments are compared with simulations of the spinor-polariton condensate dynamics based on a generalized Gross-Pitaevskii equation, modified to account for incoherent pumping, decay and energy relaxation within the condensate.Comment: 10 pages, 9 figure
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