Effect of wave-particle interactions on ring current evolution for January 10-11, 1997: Initial results

V. K. Jordanova; C. J. Farrugia; J. M. Quinn; R. M. Thorne; K. W. Ogilvie; R. P. Lepping; G. Lu; A. J. Lazarus; M. F. Thomsen; R. D. Belian

doi:10.1029/98GL00649

Effect of wave-particle interactions on ring current evolution for January 10-11, 1997: Initial results

V. K. Jordanova, C. J. Farrugia, J. M. Quinn, R. M. Thorne, K. W. Ogilvie, R. P. Lepping, G. Lu, A. J. Lazarus, M. F. Thomsen, R. D. Belian

Geospace Frontiers

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Abstract

We simulate the ring current evolution during the magnetic storm caused by Earth passage of the January 1997 magnetic cloud. Compared to previous studies, we include for the first time energy diffusion caused by wave-particle interactions. The modeled Dst index agrees reasonably well with the measured one, corrected for magnetopause currents and currents induced in the solid Earth. We compare H⁺ distributions calculated from our model with those measured by the HYDRA instrument on the POLAR spacecraft and find that: a) the agreement between theory and data at large L shells (L>5.5) is very good; b), although the agreement at low L shells is improved when scattering by EMIC waves is included, the result is not entirely satisfactory, suggesting that either transport in a more realistic magnetospheric electric field or additional loss processes should be considered.

Original language	English
Pages (from-to)	2971-2974
Number of pages	4
Journal	Geophysical Research Letters
Volume	25
Issue number	15
DOIs	https://doi.org/10.1029/98GL00649
State	Published - Aug 1 1998

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@article{83cd8578c27e48719d7317d159041107,

title = "Effect of wave-particle interactions on ring current evolution for January 10-11, 1997: Initial results",

abstract = "We simulate the ring current evolution during the magnetic storm caused by Earth passage of the January 1997 magnetic cloud. Compared to previous studies, we include for the first time energy diffusion caused by wave-particle interactions. The modeled Dst index agrees reasonably well with the measured one, corrected for magnetopause currents and currents induced in the solid Earth. We compare H+ distributions calculated from our model with those measured by the HYDRA instrument on the POLAR spacecraft and find that: a) the agreement between theory and data at large L shells (L>5.5) is very good; b), although the agreement at low L shells is improved when scattering by EMIC waves is included, the result is not entirely satisfactory, suggesting that either transport in a more realistic magnetospheric electric field or additional loss processes should be considered.",

author = "Jordanova, \{V. K.\} and Farrugia, \{C. J.\} and Quinn, \{J. M.\} and Thorne, \{R. M.\} and Ogilvie, \{K. W.\} and Lepping, \{R. P.\} and G. Lu and Lazarus, \{A. J.\} and Thomsen, \{M. F.\} and Belian, \{R. D.\}",

year = "1998",

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doi = "10.1029/98GL00649",

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journal = "Geophysical Research Letters",

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TY - JOUR

T1 - Effect of wave-particle interactions on ring current evolution for January 10-11, 1997

T2 - Initial results

AU - Jordanova, V. K.

AU - Farrugia, C. J.

AU - Quinn, J. M.

AU - Thorne, R. M.

AU - Ogilvie, K. W.

AU - Lepping, R. P.

AU - Lu, G.

AU - Lazarus, A. J.

AU - Thomsen, M. F.

AU - Belian, R. D.

PY - 1998/8/1

Y1 - 1998/8/1

N2 - We simulate the ring current evolution during the magnetic storm caused by Earth passage of the January 1997 magnetic cloud. Compared to previous studies, we include for the first time energy diffusion caused by wave-particle interactions. The modeled Dst index agrees reasonably well with the measured one, corrected for magnetopause currents and currents induced in the solid Earth. We compare H+ distributions calculated from our model with those measured by the HYDRA instrument on the POLAR spacecraft and find that: a) the agreement between theory and data at large L shells (L>5.5) is very good; b), although the agreement at low L shells is improved when scattering by EMIC waves is included, the result is not entirely satisfactory, suggesting that either transport in a more realistic magnetospheric electric field or additional loss processes should be considered.

AB - We simulate the ring current evolution during the magnetic storm caused by Earth passage of the January 1997 magnetic cloud. Compared to previous studies, we include for the first time energy diffusion caused by wave-particle interactions. The modeled Dst index agrees reasonably well with the measured one, corrected for magnetopause currents and currents induced in the solid Earth. We compare H+ distributions calculated from our model with those measured by the HYDRA instrument on the POLAR spacecraft and find that: a) the agreement between theory and data at large L shells (L>5.5) is very good; b), although the agreement at low L shells is improved when scattering by EMIC waves is included, the result is not entirely satisfactory, suggesting that either transport in a more realistic magnetospheric electric field or additional loss processes should be considered.

UR - https://www.scopus.com/pages/publications/0032135987

U2 - 10.1029/98GL00649

DO - 10.1029/98GL00649

M3 - Article

AN - SCOPUS:0032135987

SN - 0094-8276

VL - 25

SP - 2971

EP - 2974

JO - Geophysical Research Letters

JF - Geophysical Research Letters

IS - 15

ER -

Effect of wave-particle interactions on ring current evolution for January 10-11, 1997: Initial results

Abstract

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