Experimental study of diurnal and seasonal variations in the atmospheric electric field

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Shatalina, M. V., Mareev, E. A., Klimenko, V. V., Kuterin, F. A. and Nicoll, K. A. ORCID: https://orcid.org/0000-0001-5580-6325 (2019) Experimental study of diurnal and seasonal variations in the atmospheric electric field. Radiophysics and Quantum Electronics, 62 (3). pp. 183-191. ISSN 1573-9120 doi: 10.1007/s11141-019-09966-x

Abstract/Summary

In order to separate global and local effects of atmospheric electricity, measurements of the fair-weather electric field were performed in Nizhny Novgorod in 2013-2018. As a result of processing 139 diurnal records from four observation points spaced 6â€“8 km apart, diurnal variations in the fair-weather atmospheric electric field for different seasons and weekdays (working days and weekends) were studied. The curve of the local diurnal variation is shown to always have two maxima. The evening maximum of the diurnal variation (19:00â€“20:00 UT) coincides in time with the maximum of the Carnegie curve, which is a characteristic of the global electrical circuit. The highest values of the field amplitude are reached in the winter period. The field-intensity maximum in the first half of the day (09:00â€“11:00 LT) is characteristic of the urban environment and shows that local effects associated with the presence of aerosol particles in the air significantly contribute to the formation of diurnal variation, especially in summer. According to the 2013â€“2018 measurements, the seasonal variation in the monthly-average values of the atmospheric electric field is revealed and analyzed compared with the results of measurements of seasonal variation in other regions of the globe. The obtained results allow one to reveal the role of local effects in the formation of diurnal variation in the mid-latitude areas with temperate continental climate and provide a basis for developing a theory which can explain the physical mechanisms of local effects and suggest appropriate parametrization for finding the surface electric field in the weather and climate models.

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Additional Information	Unmapped bibliographic data: JO - Radiophysics and Quantum Electronics [Field not mapped to EPrints]
Item Type	Article
URI	https://reading-clone.eprints-hosting.org/id/eprint/86446
Identification Number/DOI	10.1007/s11141-019-09966-x
Refereed	Yes
Divisions	Science > School of Mathematical, Physical and Computational Sciences > Department of Meteorology
Additional Information	Unmapped bibliographic data: JO - Radiophysics and Quantum Electronics [Field not mapped to EPrints]
Publisher	Springer
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Funders:	Natural Environment Research Council	The sponsoring bodies who contributed funding for the creation of this item. Example: NERC Example: The Royal Society of Chemistry A pick list of funders may appear as you type in the funder's name in full or as an acronym. Select a correct match to complete the field or type in a new entry in full. For new entries, the full name is preferred.
Projects:	Understanding energetic particle effects on atmospheric processes Funded by: Natural Environment Research Council (NE/L011514/1 - £440,600) Local Lead (PI): Keri Nicoll 1 September 2014 - 31 August 2019	Click Add to select your project (received at Reading) from an autocomplete list.

Deposit Details

Date Deposited:	04 Oct 2019 09:56	Date item deposited into CentAUR
Last Modified:	23 Jun 2024 01:29	Date item last modified

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