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Summary: I've worked some more on a Python script that measures the gain (transfer) of the AC bias of the SQUIDs. To summarize my . . .
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< I've worked some more on a Python script that measures the gain (transfer) of the AC bias of the SQUIDs. To summarize my [[2013-04-11_measure_the_AC_gain previous posting on this subject]], this measurement assumes that we have put the array SQUID in flux-locked-loop. This also implies that we're dealing with a dual-SQUID configuration
< [[Dual_SQUID_configuration.png]]
to
> I've worked some more on a Python script that measures the gain (transfer) of the AC bias of the SQUIDs. To summarize my [[2013-04-11_measure_the_AC_gain|previous posting on this subject]], this measurement assumes that we have put the array SQUID in flux-locked-loop. This also implies that we're dealing with a dual-SQUID configuration
> [[image:Dual_SQUID_configuration.png]]
I've worked some more on a Python script that measures the gain (transfer) of the AC bias of the SQUIDs. To summarize my previous posting on this subject, this measurement assumes that we have put the array SQUID in flux-locked-loop. This also implies that we're dealing with a dual-SQUID configuration
More on this procedure later.