Abstract
In seismic applications, molecular-electronic transfer (MET) sensors are considered to be among the most promising instruments for the measurement of seismic-associated signals. The subject of the presented study is the MET angular motion sensor self-noise dependence on the area of the electrodes of the electrochemical signal converting cell. Sensors with a different area of the signal conditional cell electrodes have been produced, and their self-noise at frequencies <;100 Hz has been studied. The results show that sensors with a larger area of electrodes have lower self-noise at low frequencies and larger self-noise at high frequencies, which agrees with the assumption that uncorrelated small-scale hydrodynamic velocity fluctuations are responsible for the sensors convective noise. The results of the study allowed us to refine the MET sensors self-noise model and refined and revealed the directions of further improvement of the MET angular sensors performance.
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