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Cavity-polariton dispersion and polarization splitting in single and coupled semiconductor microcavities (1999)

Panzarini, G. ; Andreani, L. C. ; Armitage, A. ; [et al.]

Springer

Physics of the solid state 41 (1999), S. 1223-1238

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ISSN: 1063-7834

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract Recent theoretical and experimental work on linear exciton-light coupling in single and coupled semiconductor microcavities is reviewed: emphasis is given to angular dispersion and polarization effects in the strong-coupling regime, where cavity-polariton states are formed. The theoretical formulation is based on semiclassical theory. The energy of single-cavity modes is determined by the Fabry-Pérot frequency ω c as well as by the center of the stop band ω s of the dielectric mirrors; the phase delay in the dielectric mirrors carries a nontrivial angle-and polarization dependence. The polarization splitting of cavity modes depends on the mismatch between ω c and ω s, and increases with internal angle as sin2 θ eff. Interaction between the cavity mode and quantum-well (QW) excitons is described at each angle by a two-oscillator model, whose parameters are expressed in terms of microscopic quantities. Weak and strong coupling regimes and the formation of cavity polaritons are described. Comparison with experimental results on a GaAs-based cavity with In0.13Ga0.87As QWs shows that a quantitative understanding of polariton dispersion and polarization splitting has been achieved. Coupling of two identical cavities through a central dielectric mirror induces an optical splitting between symmetric and antisymmetric modes. When QW excitons are embedded in both cavities at antinode positions, the system behaves as four coupled oscillators, leading to a splitting of otherwise degenerate exciton states and to separate anticrossing of symmetric and antisymmetric modes. These features are confirmed by experimental results on coupled GaAs cavities with In0.06Ga0.94As QWs. An analysis of reflectivity lineshapes requires the inclusion of the effect of resonance narrowing of cavity polaritons. Finally, the polarization splitting in a coupled cavity depends both on the single-cavity factors and on the angle-and polarization dependence of the optical coupling between the cavities. Inclusion of all these effects provides a good description of the experimental findings.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1134/1.1130973

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Control of multistability in ring circuits of oscillators (1999)

Canavier, C. C. ; Baxter, D. A. ; Clark, J. W. ; [et al.]

Springer

Biological cybernetics 80 (1999), S. 87-102

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ISSN: 1432-0770

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Computer Science , Physics

Notes: Abstract. The essential dynamics of some biological central pattern generators (CPGs) can be captured by a model consisting of N neurons connected in a ring. These circuits, like many oscillatory nonlinear circuits of sufficient complexity, are capable of multistability, that is, of generating different firing patterns distinguished by the phasic relationships between the firing in each circuit element (neuron). Moreover, a shift in firing pattern can be induced by a transient perturbation. A systematic approach, based on phase-response curve (PRC) theory, was used to determine the optimum timing for perturbations that induce a shift in the firing pattern. The first step was to visualize the solution space of the ring circuit, including the attractive basins for each stable firing pattern; this was possible using the relative phase of N−1 oscillators, with respect to an arbitrarily selected reference oscillator, as coordinate axes. The trajectories in this phase space were determined using an iterative mapping based only on the PRCs of the uncoupled component oscillators; this algorithm was called a circuit emulator. For an accurate mapping of the attractive basin of each pattern exhibited by the ring circuit, the emulator had to take into account the effect of a perturbation or input on the timing of two bursts following the onset of the perturbation, rather than just one. The visualization of the attractive basins for rings of two, three, and four oscillators enabled the accurate prediction of the amounts of phase resetting applied to up to N−1 oscillators within a cycle that would induce a transition from any pattern to any another pattern. Finally, the timing and synaptic characterization of an input called the switch signal was adjusted to produce the desired amount of phase resetting.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004220050507

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Analysis of the effects of modulatory agents on a modeled bursting neuron: Dynamic interactions between voltage and calcium dependent systems (1995)

Butera, R. J. ; Clark, J. W. ; Canavier, C. C. ; [et al.]

Springer

Journal of computational neuroscience 2 (1995), S. 19-44

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ISSN: 1573-6873

Keywords: bistability ; bursting ; ion channels ; modulation ; nonlinear dynamics ; Aplysia ; R15

Source: Springer Online Journal Archives 1860-2000

Topics: Computer Science , Medicine , Physics

Notes: Abstract In a computational model of the bursting neuron R15, we have implemented proposed mechanisms for the modulation of two ionic currents (I R andI SI) that play key roles in regulating its spontaneous electrical activity. The model was sufficient to simulate a wide range of endogenous activity in the presence of various concentrations of serotonin (5-HT) or dopamine (DA). The model was also sufficient to simulate the responses of the neuron to extrinsic current pulses and the ways in which those responses were altered by 5-HT or DA. The results suggest that the actions of modulatory agents and second messengers on this neuron, and presumably other neurons, cannot be understood on the basis of their direct effects alone. It is also necessary to take into account the indirect effects of these agents on other unmodulated ion channels. These indirect effects occur through the dynamic interactions of voltage-dependent and calcium-dependent processes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00962706

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Corrosive degradation of a dense Si3N4 in a burner rig (1997)

GRAZIANI, T ; BAXTER, D ; BELLOSI, A

Springer

Journal of materials science 32 (1997), S. 1631-1637

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ISSN: 1573-4803

Source: Springer Online Journal Archives 1860-2000

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: Abstract The demands for greater efficiency and reduced environmental pollution are two of the main factors behind the intense research and development for new and improved materials for propulsion and power generation systems. On the grounds of density and retention of properties at high temperatures, ceramics are attractive alternatives to metallic materials. While much attention is focused on the problem of mechanical reliability, the question of corrosion resistance, and more importantly the synergism between corrosion and strength, are critical factors affecting the life of components. This investigation addresses the corrosion of a Si3N4, hot-pressed with 3% Al2O3 and 8% Y2O3, in a combustion atmosphere paying particular attention to corrosion. The results show that the dominant surface reaction in an atmosphere containing SO2 and compounds of sodium was oxidation, giving a surface product of silica, but the kinetics were in some cases not parabolic as often reported. It was also shown that strength progressively decreased with increasing corrosion test temperature, probably due to the formation of subsurface defects.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1018551327891

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Strength degradation of Si3N4 exposed to simulated gas turbine environments (1999)

Carruth, M. ; Baxter, D. ; Dusza, J.

Springer

Journal of materials science 34 (1999), S. 4501-4509

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ISSN: 1573-4803

Source: Springer Online Journal Archives 1860-2000

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: Abstract Silicon nitride, sintered with the aid of alumina and yttria, was exposed at 1000°C to two different simulated gas turbine environments. The composition of the reaction gas was varied by delivering either a high or low sulphur fuel into a burner rig. The characteristics of the corrosion product varied markedly with the sulphur content of the fuel. The extent of silicon nitride degradation was examined by two techniques: weight change and 4-point flexural strength. Strength measurements were conducted both at room temperature and at 1000°C. Whereas the weight gain information revealed that corrosion was enhanced in the low sulphur combustion gas, the strength of the corroded silicon nitride did not vary significantly from that of the as-received material. Scanning electron microscopy of the fracture surfaces was utilised to identify the fracture origins in the as-received and corroded samples. Strength, even after corrosion, was controlled primarily by defects introduced during manufacture.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1004641322544

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