2018
DOI: 10.3847/1538-4357/aadae7
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Time Variations of the Nonpotential and Volume-threading Magnetic Helicities

Abstract: Relative magnetic helicity is a gauge invariant quantity suitable for the study of the magnetic helicity content of heliospheric plasmas. Relative magnetic helicity can be decomposed uniquely into two gauge invariant quantities, the magnetic helicity of the non-potential component of the field, and a complementary volume-threading helicity. Recent analysis of numerical experiments simulating the generation of solar eruptions have shown that the ratio of the non-potential helicity to the total relative helicity… Show more

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Cited by 35 publications
(87 citation statements)
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“…Moreover, as with the flux emergence simulations presented in Linan et al (2018), the eruption is accompanied by a sharp decrease of the transfer term. However, unlike in Linan et al (2018), the sign of dH j /dt| Transf does not change here during the onset phase of the eruption. During the eruption phase, the dissipation terms, dH j /dt| Diss and dH pj /dt| Diss , dominate the variation of the helicities.…”
Section: Helicity Transfersupporting
confidence: 67%
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“…Moreover, as with the flux emergence simulations presented in Linan et al (2018), the eruption is accompanied by a sharp decrease of the transfer term. However, unlike in Linan et al (2018), the sign of dH j /dt| Transf does not change here during the onset phase of the eruption. During the eruption phase, the dissipation terms, dH j /dt| Diss and dH pj /dt| Diss , dominate the variation of the helicities.…”
Section: Helicity Transfersupporting
confidence: 67%
“…9.3. Linan et al (2018) validated the time-variations equations established for the volume-threading helicity, H pj , and the currentcarrying helicity, H j . The accuracy of the computation is related to difference factors such as the discretization and the remapping of the data, spatial and temporal, as well as to nonexplicit numerical diffusive terms that are not accounted for in our analytical resistive MHD model.…”
Section: Time-variation Estimationmentioning
confidence: 97%
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