Coherent optical receiver testing

What is claimed is: 1. A method for measuring a characteristic of an optical circuit having an input optical port and an output port, the method comprising: a) feeding test light into an input port of an optical modulator having a non-linear electro-optical modulation transfer characteristic; b) applying an electrical modulating signal having a substantially sinusoidal waveform of a modulation frequency F 1 to the optical modulator, the electrical modulating signal having an amplitude that is sufficient to modulate an optical power of the test light at the first modulation frequency F 1 and a second harmonic thereof F 2 =2F 1 ; c) recording a duration of an output signal from the output port of the optical circuit; and, d) processing the duration of the output signal to obtain therefrom a first signal corresponding to a frequency component of the output signal at or near the modulation frequency F 1 and a second signal corresponding to a frequency component of the output signal at or near the second harmonic frequency F 2 ; and, e) comparing the first signal to the second signal to determine the characteristic of the optical circuit. 2. The method of claim 1 wherein obtaining the first signal comprising obtaining a first time-domain trace corresponding to the frequency component of the output signal at or near the modulation frequency F 1 and a second time-domain trace corresponding to the frequency component of the output signal at or near the second harmonic frequency F 2 ; and wherein e) comprises determining a phase shift between the first and second time-domain traces. 3. The method of claim 2 comprising computing the GDV based on the phase shift. 4. The method of claim 3 wherein e) comprises frequency doubling of the first time domain trace or a signal related thereto. 5. The method of claim 1 wherein the optical circuit comprises an optical receiver. 6. The method of claim 1 comprising: f) measuring a ratio of amplitudes of the first and second signals at the first modulation frequency F 1 that is sufficiently small so as to be in a frequency region where the characteristic of the optical circuit is substantially frequency-independent; g) performing steps (b) to (c) with the first modulation frequency F 1 greater than in step (f), using the ratio measured in step (f) to determine the characteristic of the optical circuit in step (e). 7. An apparatus for measuring a frequency characteristic of an optical circuit having an input optical port and an output port, the apparatus comprising: an optical source to generate test light; an optical modulator disposed to receive the test light and to output modulated light, the optical modulator having a non-linear electro-optical modulation transfer characteristic; an electrical signal generator coupled to the optical modulator and configured to generate an electrical modulating signal having a substantially sinusoidal waveform at a modulation frequency F 1 and an amplitude that is sufficient to modulate an optical power of the test light at the first modulation frequency F 1 and a second harmonic thereof F 2 =2F 1 when the modulating signal is provided to the optical modulator; a signal recorder coupled to the output port of the optical circuit to receive an output signal therefrom and configured to record a duration thereof; and, a controller coupled to the signal recorder and configured to obtain, from the duration of the output signal, a first signal corresponding to a frequency component of the output signal at or near the modulation frequency F and a second signal corresponding to a frequency component of the output signal at or near a second modulation frequency 2F.