Solar Wind Power Likely Governs Uranus' Thermosphere Temperature

A. Masters; J. R. Szalay; S. Zomerdijk-Russell; M. M. Kao

doi:10.1029/2024GL111623

Solar Wind Power Likely Governs Uranus' Thermosphere Temperature

A. Masters, J. R. Szalay, S. Zomerdijk-Russell, M. M. Kao

Astrophysical Sciences

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Observations of Uranus in the near-infrared by ground-based telescopes from 1992 to 2018 have shown that the planet's upper atmosphere (thermosphere) steadily cooled from ∼700 to ∼450 K. We explain this cooling as due to the concurrent decline in the power of the solar wind incident on Uranus' magnetic field, which has dropped by ∼50% over the same period due to solar activity trends longer than the 11-year solar cycle. Uranus' thermosphere appears to be more strongly governed by the solar wind than any other planet where we have assessed this coupling so far. Uranus' total auroral power may also have declined, in contrast with the power of the radio aurora that we expect has been predominantly modulated by the solar cycle. In the absence of strong local driving, planets with sufficiently large magnetospheres may also have thermospheres predominantly governed by the stellar wind, rather than stellar radiation.

Original language	English (US)
Article number	e2024GL111623
Journal	Geophysical Research Letters
Volume	51
Issue number	22
DOIs	https://doi.org/10.1029/2024GL111623
State	Published - Nov 28 2024

All Science Journal Classification (ASJC) codes

Geophysics
General Earth and Planetary Sciences

Keywords

cooling problem
magnetospheres
solar wind
thermosphere
Uranus

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10.1029/2024GL111623

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title = "Solar Wind Power Likely Governs Uranus' Thermosphere Temperature",

abstract = "Observations of Uranus in the near-infrared by ground-based telescopes from 1992 to 2018 have shown that the planet's upper atmosphere (thermosphere) steadily cooled from ∼700 to ∼450 K. We explain this cooling as due to the concurrent decline in the power of the solar wind incident on Uranus' magnetic field, which has dropped by ∼50% over the same period due to solar activity trends longer than the 11-year solar cycle. Uranus' thermosphere appears to be more strongly governed by the solar wind than any other planet where we have assessed this coupling so far. Uranus' total auroral power may also have declined, in contrast with the power of the radio aurora that we expect has been predominantly modulated by the solar cycle. In the absence of strong local driving, planets with sufficiently large magnetospheres may also have thermospheres predominantly governed by the stellar wind, rather than stellar radiation.",

keywords = "cooling problem, magnetospheres, solar wind, thermosphere, Uranus",

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doi = "10.1029/2024GL111623",

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AU - Masters, A.

AU - Szalay, J. R.

AU - Zomerdijk-Russell, S.

AU - Kao, M. M.

PY - 2024/11/28

Y1 - 2024/11/28

N2 - Observations of Uranus in the near-infrared by ground-based telescopes from 1992 to 2018 have shown that the planet's upper atmosphere (thermosphere) steadily cooled from ∼700 to ∼450 K. We explain this cooling as due to the concurrent decline in the power of the solar wind incident on Uranus' magnetic field, which has dropped by ∼50% over the same period due to solar activity trends longer than the 11-year solar cycle. Uranus' thermosphere appears to be more strongly governed by the solar wind than any other planet where we have assessed this coupling so far. Uranus' total auroral power may also have declined, in contrast with the power of the radio aurora that we expect has been predominantly modulated by the solar cycle. In the absence of strong local driving, planets with sufficiently large magnetospheres may also have thermospheres predominantly governed by the stellar wind, rather than stellar radiation.

AB - Observations of Uranus in the near-infrared by ground-based telescopes from 1992 to 2018 have shown that the planet's upper atmosphere (thermosphere) steadily cooled from ∼700 to ∼450 K. We explain this cooling as due to the concurrent decline in the power of the solar wind incident on Uranus' magnetic field, which has dropped by ∼50% over the same period due to solar activity trends longer than the 11-year solar cycle. Uranus' thermosphere appears to be more strongly governed by the solar wind than any other planet where we have assessed this coupling so far. Uranus' total auroral power may also have declined, in contrast with the power of the radio aurora that we expect has been predominantly modulated by the solar cycle. In the absence of strong local driving, planets with sufficiently large magnetospheres may also have thermospheres predominantly governed by the stellar wind, rather than stellar radiation.

KW - cooling problem

KW - magnetospheres

KW - solar wind

KW - thermosphere

KW - Uranus

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Solar Wind Power Likely Governs Uranus' Thermosphere Temperature

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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