C. Schäffer scite author profile

This paper describes the combined effects of laser chirp, electrooptical mixing, dispersive fiber transmission, and photodetection on the nonlinear signal properties of the electrooptically generated millimeter-wave signal (60 GHz). Analytical expressions describing the complex currents of fundamental and higher order products are provided for the case of single-tone modulation as well as for two-tone modulation, respectively. Examples will be considered including the nonlinear amplitude response (output power at millimeter-wave range versus input power at IF), the nonlinear phase response (relative output phase at millimeter-wave range versus input power at IF), the input related 1-dB gain compression condition, the amplitude response of third-and fifth-order intermodulation products, as well as the input related intercept points for the latter signals. The model developed performed well, even under moderate to large signal conditions, and very good agreement has been achieved between theory and experiment.

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Increasing the channel number in WDM mm-wave systems by spectral overlap

Schäffer¹,

Sauer²,

Kojucharow³

et al.

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Simple Remote Heterodyne Radio-Over-Fiber System for Gigabit Per Second Wireless Access

Insua¹,

Plettemeier²,

Schäffer

2010

J. Lightwave Technol.

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C. Schäffer

Miniaturized Long-Period Fiber Grating Assisted Surface Plasmon Resonance Sensor

Fibre-polarimeter based on grating taps

Millimeter-wave signal properties resulting from electrooptical upconversion

Increasing the channel number in WDM mm-wave systems by spectral overlap

Simple Remote Heterodyne Radio-Over-Fiber System for Gigabit Per Second Wireless Access

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