Polar cap hot patches: enhanced density structures different from the classical patches in the ionosphere

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Zhang, Q.-H., Ma, Y.-Z., Jayachandran, P. T., Moen, J., Lockwood, M. ORCID: https://orcid.org/0000-0002-7397-2172, Zhang, Y.-L., Foster, J. C., Zhang, S.-R., Wang, Y., Themens, D. R., Zhang, B.-C. and Xing, Z. Y. (2017) Polar cap hot patches: enhanced density structures different from the classical patches in the ionosphere. Geophysical Research Letters, 44 (16). pp. 8159-8167. ISSN 0094-8276 doi: 10.1002/2017GL073439

Abstract/Summary

Based on in situ and ground-based observations, a new type of “polar cap hot patch” has been identified that is different from the classical polar cap enhanced density structure (cold patches). Comparing with the classical polar cap patches, which are transported from the dayside sunlit region with dense and cold plasma, the polar cap hot patches are associated with particle precipitations (therefore field-aligned currents), ion upflows, and flow shears. The hot patches may have the same order of density enhancement as classical patches in the topside ionosphere, suggesting that the hot patches may be produced by transported photoionization plasma into flow channels. Within the flow channels, the hot patches have low-energy particle precipitation and/or ion upflows associated with field-aligned currents and flow shears. Corresponding Global Navigation Satellite System (GNSS) signal scintillation measurements indicate that hot patches may produce slightly stronger radio signal scintillation in the polar cap region than classical patches. A new type of polar cap patches, “polar cap hot patches,” is identified to differentiate enhanced density structures from classical patches. Hot patches are associated with particle precipitations, ion upflows, field-aligned currents, and shear flows in the polar cap. Hot patches may lead to slightly stronger ionospheric scintillations of GNSS signals in the polar cap region than classical patches.

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Item Type	Article
URI	https://reading-clone.eprints-hosting.org/id/eprint/72843
Item Type	Article
Refereed	Yes
Divisions	Science > School of Mathematical, Physical and Computational Sciences > Department of Meteorology
Publisher	American Geophysical Union
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Funders:	Science and Technology Facilities 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:	Reading solar system science Funded by: Science and Technology Facilities Council (ST/M000885/1 - £599,663) Local Lead (PI): Clare Watt Project Lead: Clare Emily Jane Watt 1 April 2015 - 31 March 2018	Click Add to select your project (received at Reading) from an autocomplete list.

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Date Deposited:	12 Oct 2017 12:26	Date item deposited into CentAUR
Last Modified:	09 Jun 2024 04:11	Date item last modified

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