B. Montanari, F. Nocera, F. Paoletti
First of all, some details about the measurement setup.
To inject amplitude noise, we put in series between the RF Distribution output and the 2W RF Amplifier a four-quadrant mixer; the second input port was used to inject different levels of white noise.
This is the same setup already used in similar measurements in the past.
Then a somewhat electronics aside.
A previous attempt of measuring the 56 MHz RAM and its effect on Virgo sensitivity was carried on last January (see entry 44588).
Based on the data reported on a following entry (44590) much speculation about weather or not the contribution of the RAM was already limiting our current sensitivity brought to a lengthy discussion.
In particular, the point was whether or not the data reported in the entry mentioned were dominated by the acquisition chain (monitor circuit + ADC Channel --ADC#34 channel 3).
Additional measurements have been done now to clarify the issue. Their results are commented here after describing how we've got to this point.
As reported in the entry 38123, on Jan 20th 2017 the original 1W amplifier for the 56MHz sideband has been swapped with a 2W one with the goal of increasing the modulation index "for a test" and, as it often happens, the test became permanent.
Each EOM has a monitor output where a (small) fraction of the voltage applied to the Pockels cell is made available. All this outputs are currently acquired. The 56 MHz one is used in the entry 44590.
We found out with a measurement on the bench that the RAM of an identical 2W amplifier had a signature that is worse than the 1 W originally installed, around 4 kHz (blue curve).
This feature was not visible in the data reported in the entry 44590.
We have just measured the output of the amplifier driving the 56 MHz EOM and found that there is, in fact, a similar feature (orange curve).
It should then be visible in the RAM computed through the ADC (gold), instead it is not.
The acquisition chain (monitor circuit + ADC channel) is then adding noise.
We then injected directly in the same ADC channel the output of the LNFS to check whether the synthesizer RAM measured independently (purple) was the same when measured by the ADC (silver). This way we took the monitor circuit out of the picture.
The silver curve overlaps with the gold one, therefore the additional noise comes from the ADC, not the monitor circuit.
In conclusion
(a) no signature bump is visible in the data acquired through the ADC
(b) the noise level as measured by the ADC is ~10 times higher than the real one (for f< 1kHz)
(c) this channel cannot be used to make projection of RAM contribution to sensitivity in normal, operating conditions.
Then, for completeness, also the the RAM as measured with this ADC channel during our amplitude noise injection are reported.
