We demonstrate a powerful method based on the thermal bistability effect to characterize distinct loss mechanisms limiting the quality factor of microresonators. The relative importance of absorption and scattering losses are investigated in toroidal microcavities using this technique. Empirical results on thermal nonlinearity of these structures have been used to study the interaction of microtoroids with their ambient environment
The phase noise of the soliton repetition rate is experimentally characterized in silica microresona...
Microcavities can enter a regime where radiation pressure causes oscillation of mechanical cavity ei...
The limitations owing to device heating and thermo-optic effects in high-speed quantum-well microcav...
We demonstrate a powerful method based on the thermal bistability effect to characterize distinct lo...
We investigate the role of absorption and scattering losses in limiting the quality factor of toroid...
Thermal nonlinearity is known to cause bistability in Whispering Gallery Mode (WGM) resonators and t...
We have devised and experimentally verified a method for observation of the optical Kerr effect in m...
We investigate the thermal and Kerr nonlinearity in a system of two optically-coupled silica microto...
We explore the thermally induced nonlinearity in hydrogenated amorphous silicon microcylindrical res...
We explore the thermal nonlinearity in hydrogenated amorphous silicon microcylindrical resonators th...
Optical microresonators with high quality (Q) factors are essential to a wide range of integrated ph...
Optical microresonators with high quality (Q) factors are essential to a wide range of integrated ph...
Microresonators of different geometries appeared to be promising part for future generations of inte...
We study the oscillatory thermal dynamics of a high-Q PDMS-coated silica microtoroid both experiment...
Glass-based whispering gallery mode (WGM) microresonators are easy to produce by melting techniques....
The phase noise of the soliton repetition rate is experimentally characterized in silica microresona...
Microcavities can enter a regime where radiation pressure causes oscillation of mechanical cavity ei...
The limitations owing to device heating and thermo-optic effects in high-speed quantum-well microcav...
We demonstrate a powerful method based on the thermal bistability effect to characterize distinct lo...
We investigate the role of absorption and scattering losses in limiting the quality factor of toroid...
Thermal nonlinearity is known to cause bistability in Whispering Gallery Mode (WGM) resonators and t...
We have devised and experimentally verified a method for observation of the optical Kerr effect in m...
We investigate the thermal and Kerr nonlinearity in a system of two optically-coupled silica microto...
We explore the thermally induced nonlinearity in hydrogenated amorphous silicon microcylindrical res...
We explore the thermal nonlinearity in hydrogenated amorphous silicon microcylindrical resonators th...
Optical microresonators with high quality (Q) factors are essential to a wide range of integrated ph...
Optical microresonators with high quality (Q) factors are essential to a wide range of integrated ph...
Microresonators of different geometries appeared to be promising part for future generations of inte...
We study the oscillatory thermal dynamics of a high-Q PDMS-coated silica microtoroid both experiment...
Glass-based whispering gallery mode (WGM) microresonators are easy to produce by melting techniques....
The phase noise of the soliton repetition rate is experimentally characterized in silica microresona...
Microcavities can enter a regime where radiation pressure causes oscillation of mechanical cavity ei...
The limitations owing to device heating and thermo-optic effects in high-speed quantum-well microcav...
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