Mechanisms of Manganese-Assisted Nonradiative Recombination in Cd(Mn)Se/Zn(Mn)Se Quantum Dots

Mechanisms of nonradiative recombination of electron-hole complexes in Cd(Mn)Se/Zn(Mn)Se quantum dots accompanied by interconfigurational excitations of Mn$^{2+}$ ions are analyzed within the framework of single electron model of deep {\it 3d}-levels in semiconductors. In addition to the mechanisms caused by Coulomb and exchange interactions, which are related because of the Pauli principle, another mechanism due to {\it sp-d} mixing is considered. It is shown that the Coulomb mechanism reduces to long-range dipole-dipole energy transfer from photoexcited quantum dots to Mn$^{2+}$ ions. The recombination due to the Coulomb mechanism is allowed for any states of Mn$^{2+}$ ions and {\it e-h} complexes. In contrast, short-range exchange and ${\it sp-d}$ recombinations are subject to spin selection rules, which are the result of strong {\it lh-hh} splitting of hole states in quantum dots. Estimates show that efficiency of the {\it sp-d} mechanism can considerably exceed that of the Coulomb mechanism. The phonon-assisted recombination and processes involving upper excited states of Mn$^{2+}$ ions are studied. The increase in PL intensity of an ensemble of quantum dots in a magnetic field perpendicular to the sample growth plane observed earlier is analyzed as a possible manifestation of the spin-dependent recombination.Comment: 14 pages, 2 figure

Amplification of nonlinear polariton pulses in waveguides

Using a sub-millimeter exciton-polariton waveguide suitable for integrated photonics, we experimentally demonstrate nonlinear modulation of pico-Joule pulses at the same time as amplification sufficient to compensate the system losses. By comparison with a numerical model we explain the observed interplay of gain and nonlinearity as amplification of the interacting polariton field by stimulated scattering from an incoherent continuous-wave reservoir that is depleted by the pulses. This combination of gain and giant ultrafast nonlinearity operating on picosecond pulses has the potential to open up new directions in low-power all-optical information processing and nonlinear photonic simulation of conservative and driven-dissipative systems

ИНТИМАЛЬНАЯ САРКОМА ЛЕГОЧНОЙ АРТЕРИИ, ПРОТЕКАЮЩАЯ ПОД МАСКОЙ ТРОМБОЭМБОЛИИ ЛЕГОЧНОЙ АРТЕРИИ: РЕЗУЛЬТАТЫ ХИРУРГИЧЕСКОГО ЛЕЧЕНИЯ

HighlightsThe article describes a rare case of surgical treatment of pulmonary artery intimal sarcoma. The authors analyzed the causes for incorrect diagnosis of pulmonary embolism in detail, and proposed alternative options for distinguishing the diseases under consideration. Moreover, the authors analyzed different surgical treatment modalities of intracardial sarcomas, and demonstrated the prospect of using molecular hydrogen as a component of an anesthetics during surgical interventions with cardiopulmonary bypass. AbstractThe article describes a rare clinical case of a patient with pulmonary artery sarcoma. The absence of specific symptoms of sarcoma, as well as features of developing cardiovascular and respiratory failure, characteristic of pulmonary embolism, contributed to the incorrect diagnosis. The article analyzes the main problems of primary diagnostics, and proposes new parameters for evaluating manifesting symptoms and the results of additional examination, which should improve the results of surgical treatment of malignant tumors.Основные положенияВ статье представлен редкий случай хирургического лечения интимальной саркомы легочной артерии. Детально проанализированы причины гипердиагностики тромбоэмболии легочной артерии, а также предложены альтернативные варианты дифференциальной верификации рассматриваемых заболеваний. Рассмотрены возможные варианты хирургического лечения сарком внутрикардиальной локализации. Кроме этого, продемонстрирована перспектива применения молекулярного водорода в качестве компонента анестезиологического пособия при выполнении оперативных вмешательств в условиях искусственного кровообращения. РезюмеВ статье описано редкое клиническое наблюдение пациентки с саркомой легочной артерии. Отсутствие специфических симптомов саркомы, а также особенности развивающейся сердечно-сосудистой и дыхательной недостаточности, характерные для тромбоэмболии легочной артерии, способствовали постановке неправильного диагноза. В работе проанализированы основные проблемы первичной диагностики, а также предложены параметры оценки манифестирующих симптомокомплексов и результатов объективных методов обследования, что в свете повышенной онкологической настороженности позволит улучшить результаты хирургического лечения злокачественных заболеваний сердца

Highly nonlinear trion-polaritons in a monolayer semiconductor

Highly nonlinear optical materials with strong effective photon-photon interactions are required for ultrafast and quantum optical signal processing circuitry. Here we report strong Kerr-like nonlinearities by employing efficient optical transitions of charged excitons (trions) observed in semiconducting transition metal dichalcogenides (TMDCs). By hybridising trions in monolayer MoSe2 at low electron densities with a microcavity mode, we realise trion-polaritons exhibiting significant energy shifts at small photon fluxes due to phase space filling. We find the ratio of trion- to neutral exciton–polariton interaction strength is in the range from 10 to 100 in TMDC materials and that trion-polariton nonlinearity is comparable to that in other polariton systems. The results are in good agreement with a theory accounting for the composite nature of excitons and trions and deviation of their statistics from that of ideal bosons and fermions. Our findings open a way to scalable quantum optics applications with TMDCs

Ultrafast-nonlinear ultraviolet pulse modulation in an AlInGaN polariton waveguide operating up to room temperature

Ultrafast nonlinear photonics enables a host of applications in advanced on-chip spectroscopy and information processing. These rely on a strong intensity dependent (nonlinear) refractive index capable of modulating optical pulses on sub-picosecond timescales and on length scales suitable for integrated photonics. Currently there is no platform that can provide this for the UV spectral range where broadband spectra generated by nonlinear modulation can pave the way to new on-chip ultrafast (bio-) chemical spectroscopy devices. We introduce an AlInGaN waveguide supporting highly nonlinear UV hybrid light-matter states (exciton-polaritons) up to room temperature. We experimentally demonstrate ultrafast nonlinear spectral broadening of UV pulses in a compact 100 micrometer long device and measure a nonlinearity 1000 times that in common UV nonlinear materials and comparable to non-UV polariton devices. Our demonstration, utilising the mature AlInGaN platform, promises to underpin a new generation of integrated UV nonlinear light sources for advanced spectroscopy and measurement

Blowup dynamics of coherently driven polariton condensates : experiment

The work was supported by the Russian Science Foundation (Grant No. 14-12-01372).We report an experimental verification of the recent prediction that sharp transitions between steady states in multistable cavity-polariton systems are mediated by intermode parametric scattering that triggers the accumulation of energy and, hence, lowers the threshold at the cost of extending the transition latency period [S. S. Gavrilov, Phys. Rev. B 90, 205303 (2014)]. The time-resolved measurements are performed using a high-Q GaAs microcavity pumped slightly above the lower polariton level at normal incidence.Publisher PDFPeer reviewe

Transient optical parametric oscillations in resonantly pumped multistable cavity polariton condensates

The work was supported by the Russian Science Foundation (Grant No. 14-12-01372) and the State of Bavaria.Transitional processes accompanying switches between steady states in multistable cavity polariton systems are studied experimentally in a low-symmetry high-Q microcavity under resonant optical excitation at normal incidence. We show that the establishment of a high-energy polariton state is influenced by an optical parametric oscillation. Therefore, the emission spectrum reveals the energy-separated signal-idler pairs in both spin components. Accordingly, the time dependencies of the polariton emission exhibit oscillations whose periods correspond to the spectral positions of the scattered states. Thus, the sharp transitions between the steady states of a no-equilibrium polariton condensate enable one to visualize the near-condensate eigenmodes and explore their spectral and spin properties depending on the condensate amplitude and average spin.Publisher PDFPeer reviewe