4.3.8

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Ph.D.

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	+	4.3.8

+	4.3.1 : Time multiplexing OLCR design

+	4.3.2 : Measurement principle

+	4.3.3 : Balanced detection scheme

+	4.3.4 : Polarization effects

+	4.3.5 : Wavelength multiplexing OLCR design

+	4.3.6 : Discussion on the different OLCR designs

+	4.3.7 : Time multiplexing design in OFDR use

+	4.3.8 : Transmission impulse response OLCR set-up

4.3 New OLCR set-ups

4.3.8 Transmission impulse response OLCR set-up

The transmission impulse response (Fourier transform of the amplitude transmission spectrum) can be measured with an OLCR based on a Mach-Zender interferometer. Fig. 4-13 present a time multiplexing OLCR design set-up that use the same components as the set-up used for reflection measurements (at the exception of the second 3 dB coupler). The attenuator in the balanced detection has been omitted but it can be added if the second coupler shows a splitting ratio that is not exactly 50/50 in intensity.

Fig. 4-13 OLCR set-up for transmission measurement