diff --git a/documents/thesis/chapters/single_sine_interferometry.tex b/documents/thesis/chapters/single_sine_interferometry.tex
index 5f2c886..5beef46 100644
--- a/documents/thesis/chapters/single_sine_interferometry.tex
+++ b/documents/thesis/chapters/single_sine_interferometry.tex
@@ -136,10 +136,10 @@ The air shower itself was generated by a $10^{16}\eV$ proton coming in under an
 %Figure~\ref{fig:single:proton_waveform} shows the earliest and latest waveforms recorded by the array with their true time.
 \\
 Figure~\ref{fig:single:proton_grid} shows the maximum electric field measured at each of the antennas.
-The ring of antennas with maximum electric fields in the order of $25\uVperm$ at the center of the array is the Cherenkov ring.
-The Cherenkov ring forms due to the forward beaming of the radio emissions of the airshower.
+The ring of antennas with maximum electric fields in the order of $25\uVperm$ at the center of the array is the Cherenkov-ring.
+The Cherenkov-ring forms due to the forward beaming of the radio emissions of the airshower.
 Outside this ring, the maximum electric field quickly falls with increasing distance to the array core.
-As expected for a vertical shower, the projection of the Cherenkov ring on the ground is roughly circular.
+As expected for a vertical shower, the projection of the Cherenkov-ring on the ground is roughly circular.
 \\
 
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