ISSN 0021-3454 (print version)
ISSN 2500-0381 (online version)
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11
Issue
vol 67 / November, 2024
Article
UDC 544.6.076.2

NOISE CHARACTERISTICS FOR ANGULAR MOLECULAR-ELECTRONIC TRANSDUCERS

D. L. Zaytsev
Moscow Physical-Technical Institute (State University), Department of Ecologically Pure Energy Sources and Molecular Electronics; Post-Graduate Student


V. M. Agafonov
Moscow Physical-Technical Institute (State University), Department of Ecologically Pure Energy Sources and Molecular Electronics;


A. S. Shabalina
Moscow Physical-Technical Institute (State University), Department of Ecologically Pure Energy Sources and Molecular Electronics; Junior Scientist


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Abstract. Bias instability of a new type of tiny molecular-electronic angular accelerometer is measured at a fixed temperature. Theoretical estimation of random deviation rate coefficient for a miniature molecular-electronic rate sensor is derived on the base of Allan variance technique. Comparison of self-noise level of the molecularelectronic rate sensor with noise characteristics for gyros of different types is performed.
Keywords: molecular-electronics, accelerometer, angular rate sensor, Allan variance.