fixed Aertsen suggestion

susceptibility1.tex

@@ -411,8 +411,8 @@ We here analyze nonlinear responses in two types of primary electroreceptor affe
 %\section{Author summary}
 %Weakly electric fish use their self-generated electric field to detect a wide range of behaviorally relevant stimuli. Intriguingly, they show detection performances of stimuli that are (i) extremely weak and (ii) occur in the background of strong foreground signals, reminiscent of what is often described as the cocktail party problem. Such performances are achieved by boosting the signal detection through nonlinear mechanisms. We here analyze nonlinear encoding in two different populations of primary electrosensory afferents of the weakly electric fish. We derive the rules under which nonlinear effects can be observed in both electrosensory subsystems. In a combined experimental and modeling approach we generalize the approach of nonlinear susceptibility to systems that respond to amplitude modulations of a carrier signal.
 
-\note{Ad Aertsen paper suggestions: 
-\url{https://brainworks.biologie.uni-freiburg.de/1981/journal%20papers/Aertsen-BiolCyb-1981b.pdf} \url{https://brainworks.biologie.uni-freiburg.de/1983/journal%20papers/eggermont-quartrevbiophys-1983.pdf} \url{https://brainworks.biologie.uni-freiburg.de/1981/journal%20papers/The%20Phonocrome%20(1981).pdf}}
+\note{Ad Aertsen paper suggestions:}
+\url{https://brainworks.biologie.uni-freiburg.de/1981/journal%20papers/Aertsen-BiolCyb-1981b.pdf} \url{https://brainworks.biologie.uni-freiburg.de/1983/journal%20papers/eggermont-quartrevbiophys-1983.pdf} \url{https://brainworks.biologie.uni-freiburg.de/1981/journal%20papers/The%20Phonocrome%20(1981).pdf}
 
 
 \section{Introduction}