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Cavity-enhanced photocurrent generation by 1.55 μm wavelengths linear absorption in a p-i-n diode embedded silicon microring resonator
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Citations
16
References
2009
Year
PhotonicsEngineeringWavelength ConversionOptical PropertiesApplied PhysicsSilicon Microring ResonatorLinear AbsorptionCavity-enhanced Photocurrent GenerationOptoelectronic DevicesIntegrated CircuitsPhotocurrent GenerationSurface-state AbsorptionP-i-n DiodeMicro-optical ComponentPhotonic DeviceOptoelectronicsOptical DevicesPhotonic Integrated Circuit
We demonstrate 20-fold cavity-enhanced photocurrent generation in 1.55 μm wavelengths in a p-i-n diode embedded silicon microring resonator with Q factor of 8000. The on-resonance wavelength shows linear responsivity of 0.12 mA/W upon 0 V bias and 0.25 mA/W upon −15 V bias. We attribute the linear absorption to surface-state absorption at the microring waveguide interfaces. Our experiments indicate that the photocurrent generation is linear to the estimated coupled power up to ∼500 μW.
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