Alexander S. Hastings scite author profile

Photodiode nonlinearity measurements using one-, two- and three-tone measurement systems are compared with each other, to investigate the comparison accuracy between setups. The mathematical relationship between each setup is analyzed, and data on multiple devices are compared to find under which conditions the measurements are comparable. It is shown that the three measurement systems can be used interchangeably only when the distortion adheres to the expected mathematical slopes.

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Minimizing Photodiode Nonlinearities by Compensating Voltage-Dependent Responsivity Effects

Hastings

Tulchinsky

Williams

et al. 2010

J. Lightwave Technol.

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Suppression of Even-Order Photodiode Nonlinearities in Multioctave Photonic Links

Hastings

Urick

Sunderman³

et al. 2008

J. Lightwave Technol.

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Optical Comb Sources and High-Resolution Optical Filtering for Measurement of Photodiode Harmonic Distortion

McKinney

Leaird

Hastings

et al. 2010

J. Lightwave Technol.

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Abstract-In this work we preset a new technique for measurement of harmonic distortion in microwave photodiodes. Our technique combines optical combs and high-resolution optical filtering to provide a pure optical two-tone excitation of the photodiode. Our technique removes the challenges presented by laser frequency drift and modulator bias control by utilizing a single laser and phase-modulation to synthesize the optical combs. We demonstrate our technique through measurement of the harmonic distortion generated in a commercial InGaAs photodiode and compare our results with those obtained via phase-locked laser measurements. We show that this technique provides essentially equivalent measurement fidelity to phase-locked laser techniques while offering decreased system complexity. We additionally provide a general discussion of the limits of nonlinearity measurements performed using optical heterodyne techniques.

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