@antinn,
What I showed was only an example. Use of the Groove Probe is limited only by your imagination. It offers you a complete, quantitative record of the groove, including high-frequency information. You can analyze the data any way you want. Before and after cleaning would be a great way to use it.
I have used it to diagnose tracking problems in monaural records. I was able to watch and trace every little spot where the needle lost contact. Monaural records are a great way to detect minute problems that you might not otherwise find.
Hgh-frequency noise is a also a suitable subject for analysis. Analysis of quiet sections might be especially revealing. For example, the lead-out groove is usually not supposed to have any signal recorded on it, so any noise you detect there is either surface noise or noise in your system. The lead-in bands (or whatever they’re called) also often have some signal-free regions.
What kinds of things might you analyze? You might look at the amplitude and frequency distribution before and after cleaning. If you really want to kill some time, you could look at the time structure of the noise before and after cleaning. Does it look like embedded particles or something else? Micro-clicks? Or maybe defects in the plastic? Of course, there’s probably a floor of noise that we’ll never eliminate -- even the freshly cut master had some surface roughness. And here’s a question that some people might want answered: Did US make the problem worse by damaging the plastic?
Good idea about the UV light. I have a 395 nm light and a 365 nm light. The 365 nm light is especially good at revealing practically EVERYTHING. I’ll try it next time I digitize an LP.
