Frequency response and self-noise of the MET hydrophone

Zaitsev, Dmitry L.; Avdyukhina, Svetlana Y.; Ryzhkov, Maksim A.; Evseev, Iliya; Egorov, Egor V.; Agafonov, Vadim M.

doi:https://doi.org/10.5194/jsss-7-443-2018

Articles | Volume 7, issue 2

https://doi.org/10.5194/jsss-7-443-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/jsss-7-443-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 7, issue 2

Regular research article

|

20 Jul 2018

Regular research article |

| 20 Jul 2018

Frequency response and self-noise of the MET hydrophone

Dmitry L. Zaitsev, Svetlana Y. Avdyukhina, Maksim A. Ryzhkov, Iliya Evseev, Egor V. Egorov, and Vadim M. Agafonov

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Apr 2019	13	17	0	30
May 2019	19	11	2	32
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Nov 2019	159	10	0	169
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Jan 2020	103	10	1	114
Feb 2020	53	4	0	57
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Jan 2021	34	11	1	46
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Cumulative views and downloads (calculated since 20 Jul 2018)

Month	HTML	PDF	XML	Total
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Aug 2018	102	26	4	132
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Oct 2018	56	21	3	80
Nov 2018	13	13	0	26
Dec 2018	11	10	1	22
Jan 2019	16	8	1	25
Feb 2019	22	4	1	27
Mar 2019	15	12	0	27
Apr 2019	13	17	0	30
May 2019	19	11	2	32
Jun 2019	237	12	1	250
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Aug 2019	60	11	0	71
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Oct 2019	95	13	0	108
Nov 2019	159	10	0	169
Dec 2019	152	7	0	159
Jan 2020	103	10	1	114
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Apr 2020	21	7	1	29
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Aug 2024	18	5	0	23
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Nov 2024	10	11	0	21
Dec 2024	6	6	3	15
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Feb 2025	13	11	0	24
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Short summary

An electrochemical hydrophone based on the principles of molecular electronic transfer (MET) is described. The paper presents theoretical and experimental results for the sensitivity and the level of self-noise determination for METH in the frequency range of 0.02–200 Hz, which determines the fields of acceptance of the devices being developed. An experimental model has been developed by using a force-balancing feedback. Different methods and techniques for its calibration have been developed.


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Frequency response and self-noise of the MET hydrophone

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