Numerical evolution of the BBH model with controlled gain shows stable lasing modes are set by topological corner and edge states, with new ratios τ1, τ2, and χ that jump at phase transitions when the hopping ratio γ/λ is varied.
Nonreciprocal lasing in topological cavities of arbitrary geometries
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Numerical modeling and experimental demonstration of lasing in quantum-dot micropillar lasers up to 220 K with a hybrid top mirror achieving Q-factor ~65000 and threshold ~2.2 mW.
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Nonlinear topological laser based on multipole insulators
Numerical evolution of the BBH model with controlled gain shows stable lasing modes are set by topological corner and edge states, with new ratios τ1, τ2, and χ that jump at phase transitions when the hopping ratio γ/λ is varied.
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Lasing of Quantum-Dot Micropillar Lasers under Elevated Temperatures
Numerical modeling and experimental demonstration of lasing in quantum-dot micropillar lasers up to 220 K with a hybrid top mirror achieving Q-factor ~65000 and threshold ~2.2 mW.