MESSENGER Observations and Global Simulations of Highly Compressed Magnetosphere Events at Mercury

Abstract: We identify and examine all MErcury Surface Space ENvironment, GEochemistry, and Ranging (MESSENGER) crossings of Mercury's dayside magnetopause with magnetospheric field intensities ≥300 nT. The eight such events, which occurred under highly compressed magnetosphere conditions, are analyzed in the identical manner utilized by Slavin et al. (2014, https://doi.org/10.1002/2014JA020319). The results suggest that the eight highly compressed magnetosphere events represent the highest solar wind dynamic pressures f… Show more

“…This value is comparable to the ratios determined for the dayside magnetopause at Mercury in previous studies (Slavin et al, 2008DiBraccio et al, 2013;Liljeblad et al, 2015;Jia et al, 2019;Dong et al, 2019). This value is comparable to the ratios determined for the dayside magnetopause at Mercury in previous studies (Slavin et al, 2008DiBraccio et al, 2013;Liljeblad et al, 2015;Jia et al, 2019;Dong et al, 2019).…”

“…In contrast, the HCM events with the highest magnetopause reconnection rates are located closer to the Chapman-Ferraro curve and the crossings with the smallest dimensionless reconnection rates are located closest to the Glassmeier et al curve on the right-hand side that includes the effects of induction. These conclusions are strongly supported by the global MHD simulations of the solar wind interaction with Mercury's magnetic field and conducting iron core by Jia et al (2019). For this reason, the HCM events do not appear to expose the dayside to direct solar wind impact; that is, their R ss values are greater than 1.…”

“…In addition to the DDM events, the eight highly compressed magnetosphere events from Jia et al (2019) are displayed for comparison. In addition to the DDM events, the eight highly compressed magnetosphere events from Jia et al (2019) are displayed for comparison.…”

“…Jia et al (2019) surveyed MESSENGER's four-year data set and identified eight passes through Mercury's dayside magnetosphere for which the magnetic field just inside of the magnetopause exceeded 300 nT. Indeed, Jia et al found that the induction currents increased the planetary magnetic moment by up to~25% during these mostly CME-related solar wind events (Jia et al, 2019). For these pressures the magnetopause at the subsolar point would be expected to approach very close to the planetary surface if it were not for the effect of the inductions currents.…”

“…Average magnetopause position for each of these events is given in Table 1 Figure 12. For this reason, we, again, follow the methodology of Slavin et al (2014) and Jia et al (2019) and assume a Newtonian pressure balance across the magnetopause, the MVA magnetopause normals, and, based upon the FIPS data, that the plasma pressure in the outer dayside magnetosphere is very small compared to the magnetic pressure . The magnetic field intensities in the magnetosheath for these two events were~50 to 70% of the total magnetic field just inside of the magnetosphere.…”

MESSENGER Observations of Disappearing Dayside Magnetosphere Events at Mercury

“…This value is comparable to the ratios determined for the dayside magnetopause at Mercury in previous studies (Slavin et al, 2008DiBraccio et al, 2013;Liljeblad et al, 2015;Jia et al, 2019;Dong et al, 2019). This value is comparable to the ratios determined for the dayside magnetopause at Mercury in previous studies (Slavin et al, 2008DiBraccio et al, 2013;Liljeblad et al, 2015;Jia et al, 2019;Dong et al, 2019).…”

“…In contrast, the HCM events with the highest magnetopause reconnection rates are located closer to the Chapman-Ferraro curve and the crossings with the smallest dimensionless reconnection rates are located closest to the Glassmeier et al curve on the right-hand side that includes the effects of induction. These conclusions are strongly supported by the global MHD simulations of the solar wind interaction with Mercury's magnetic field and conducting iron core by Jia et al (2019). For this reason, the HCM events do not appear to expose the dayside to direct solar wind impact; that is, their R ss values are greater than 1.…”

“…In addition to the DDM events, the eight highly compressed magnetosphere events from Jia et al (2019) are displayed for comparison. In addition to the DDM events, the eight highly compressed magnetosphere events from Jia et al (2019) are displayed for comparison.…”

“…Jia et al (2019) surveyed MESSENGER's four-year data set and identified eight passes through Mercury's dayside magnetosphere for which the magnetic field just inside of the magnetopause exceeded 300 nT. Indeed, Jia et al found that the induction currents increased the planetary magnetic moment by up to~25% during these mostly CME-related solar wind events (Jia et al, 2019). For these pressures the magnetopause at the subsolar point would be expected to approach very close to the planetary surface if it were not for the effect of the inductions currents.…”

“…Average magnetopause position for each of these events is given in Table 1 Figure 12. For this reason, we, again, follow the methodology of Slavin et al (2014) and Jia et al (2019) and assume a Newtonian pressure balance across the magnetopause, the MVA magnetopause normals, and, based upon the FIPS data, that the plasma pressure in the outer dayside magnetosphere is very small compared to the magnetic pressure . The magnetic field intensities in the magnetosheath for these two events were~50 to 70% of the total magnetic field just inside of the magnetosphere.…”

MESSENGER Observations of Disappearing Dayside Magnetosphere Events at Mercury

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