Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 The effects of solar flares on planetary ionospheres Paul Withers and Michael Mendillo Boston University 725 Commonwealth Avenue, Boston MA 02215, USA.

Published byBritton Todd Modified over 8 years ago

Similar presentations

Presentation on theme: "1 The effects of solar flares on planetary ionospheres Paul Withers and Michael Mendillo Boston University 725 Commonwealth Avenue, Boston MA 02215, USA."— Presentation transcript:

1 1 The effects of solar flares on planetary ionospheres Paul Withers and Michael Mendillo Boston University 725 Commonwealth Avenue, Boston MA 02215, USA (withers@bu.edu) PS14-A004 Saturday 2009.08.15 11:00-12:30 AOGS Meeting, Singapore

2 Outline The Sun, solar cycle, solar flares Observed effects on ionosphere of Mars Simulated effects on ionosphere of Mars Comparative discussion of other planets 2

3 Solar spectrum 3 http://www.spacewx.com/images/Solar_spectrum_144px.jpg

4 Solar cycle 4 http://apod.nasa.gov/apod/image/0712/solarcycle_soho_big.jpg SOHO images at EUV wavelengths (28.4 nm)

5 5 Solar flares http://www.assabfn.co.za/pictures/solar_boydenflare_historical_articles.jpg http://rednova.com/news/stories/1/2003/10/24/story002.html

6 Dramatic changes during a flare 6 http://en.wikipedia.org/wiki/Solar_flare Red 0.1-0.8 nm (GOES XL) Blue 0.05-0.4 nm (GOES XS)

7 Planetary ionospheres Most photoionization events occur due to absorption of solar EUV photons at 10 nm to 100-150 nm Smaller number occurs due to absorption of solar soft X-rays at 1 nm to 10 nm –Often dominates ionization at low altitudes –Enhanced by multiplier effect of secondary ionization –Flux varies by several orders of magnitude during solar flares 7

8 The ionosphere of Mars 8 Neutral atmosphere is mainly CO 2, O becomes significant at high altitudes O 2 + is main ion at all altitudes (?) EUV photons responsible for main M2 layer Soft X-ray photons and secondary ionization responsible for lower M1 layer

9 Peak density depends on solar irradiance 9 Figure 3 of Nielsen et al. (2006) 22 July 200514 October 2005 1.6E5 cm-3 2.0E5 cm-3

10 Peak density increases during a solar flare 10 Figure 4 of Nielsen et al. (2006) Seven minutes of data, time increases linearly X1.1 solar flare on 15 September 2005 2.0E5 cm-3 2.4E5 cm-3

11 Figs 1 and 3 of Mendillo et al. (2006) 0.0E5 cm -3 2.1E5 cm -3 00 UT12 UT24 UT Enhanced electron densities seen throughout lower ionosphere of Mars Doubling at 100 km, greatest increases at lowest altitudes Terrestrial E-region also affected Lower ionosphere affected by an X14 solar flare 11

12 BU Photochemical Mars Ionosphere Model Neutral atmosphere derived from Bougher MTGCM model Absorption and ionization cross-sections from Schunk and Nagy Ionospheres book ( > 5 nm) and theoretical models of Verner ( < 5 nm) Reaction rates from Schunk and Nagy Ionospheres book Secondary ionization parameterized as function of altitude based on results of Fox 12

13 Solar irradiance models at Earth Solar2000 (Tobiska) –39 or 867 bins from 1.8 – 105.0 nm –One spectrum every day –Empirical model Flare Irradiance Spectral Model (Chamberlin) –195 bins of 1 nm width from 0.5 – 195.5 nm –One spectrum every minute –Empirical model based on TIMED SEE, UARS SOLSTICE, GOES Irradiances resampled so that we have 20 bins shortward of 5 nm, 37 bins longward of 5 nm Spin up with Solar2000, then transition to FISM No previous Mars ionosphere model has used time-varying solar irradiance (?) 13

14 Simulated ionosphere 14 Flare peak at 13:49 (green) Observation at 14:16 (blue) Next steps: Compare model with data Optimize model inputs Are optimized inputs like the atmosphere, electron temperatures, secondary ionization realistic?

15 Other Planets Earth and Venus –Next pages Giant planets –H 2 atmospheres –H 3 + and H + are major ions –Minimal data available –Increased X-ray emissions from giant planets observed during solar flares, scattering process 15 Saturn, Figure 2 of Bhardwaj et al. (2005)

16 Earth 16 0.0E5 cm -3 2.1E5 cm -3 00 UT12 UT24 UT N 2 -O 2 atmosphere, O 2 +, NO +, O + ions abundant, transport key in F-region Extensive database of ionospheric properties exists – but I am still searching for good example of time series of electron density profiles during a solar flare (right) Fig 3 of Mendillo et al. (2006)

17 Venus ionosphere 17 Figure 1 of Paetzold et al. (2009) Very similar to Mars Neutral atmosphere is mainly CO 2 O becomes significant at high altitudes O 2 + is main ion at main peak and below, O + is main ion at high altitudes EUV photons responsible for main V2 layer Soft X-ray photons responsible for lower V1 layer

18 Venus during a solar flare 18 Figure 4 of Kar et al. (1986) Enhanced O + and electron densities seen at high altitudes on orbit 417 of Pioneer Venus Orbiter (26 January 1980) No enhancement in O +, O 2 + or electron densities below 170 km Are solar photons or solar energetic particles the cause of this effect?

19 Conclusions The ionospheres of Earth and Mars respond strongly to solar flares Response at Venus is less clear Accurately reproducing the martian ionosphere during a solar flare is a challenging test for models Further studies are in progress 19

Download ppt "1 The effects of solar flares on planetary ionospheres Paul Withers and Michael Mendillo Boston University 725 Commonwealth Avenue, Boston MA 02215, USA."

Similar presentations

1 Ionospheres of the Terrestrial Planets Stan Solomon High Altitude Observatory National Center for Atmospheric Research

1 Ionospheres of the Terrestrial Planets Stan Solomon High Altitude Observatory National Center for Atmospheric Research
Phillip Chamberlin University of Colorado Laboratory for Atmospheric and Space Physics (LASP) (303)492-9318.

Phillip Chamberlin University of Colorado Laboratory for Atmospheric and Space Physics (LASP) (303)
X-ray Emission due to Charge Exchange between Solar Wind and Earth Atmosphere on September 12 2005 Hironori Matsumoto (Kobayashi-Maskawa Institute, Nagoya.

X-ray Emission due to Charge Exchange between Solar Wind and Earth Atmosphere on September Hironori Matsumoto (Kobayashi-Maskawa Institute, Nagoya.
Hydrogen Hot Ion Precipitation in the Martian Ionosphere #P13B-1317 Christopher D. Parkinson 1, Michael Liemohn 1, Xiaohua Fang 2 1 AOSS Dept., University.

Hydrogen Hot Ion Precipitation in the Martian Ionosphere #P13B-1317 Christopher D. Parkinson 1, Michael Liemohn 1, Xiaohua Fang 2 1 AOSS Dept., University.
Plasma layers in the terrestrial, martian and venusian ionospheres: Their origins and physical characteristics Martin Patzold (University of Cologne) and.

Plasma layers in the terrestrial, martian and venusian ionospheres: Their origins and physical characteristics Martin Patzold (University of Cologne) and.
Modeling the effects of solar flares on the ionosphere of Mars Paul Withers, Joei Wroten, Michael Mendillo, Phil Chamberlin, and Tom Woods

Modeling the effects of solar flares on the ionosphere of Mars Paul Withers, Joei Wroten, Michael Mendillo, Phil Chamberlin, and Tom Woods
Observations of the Effects of Solar Flares on Earth and Mars Paul Withers, Michael Mendillo, Joei Wroten, Henry Rishbeth, Dave Hinson, Bodo Reinisch

Observations of the Effects of Solar Flares on Earth and Mars Paul Withers, Michael Mendillo, Joei Wroten, Henry Rishbeth, Dave Hinson, Bodo Reinisch
Working Group 2 - Ion acceleration and interactions.

Working Group 2 - Ion acceleration and interactions.
Morphology of meteoric plasma layers in the ionosphere of Mars as observed by the Mars Global Surveyor Radio Science Experiment Withers, Mendillo, Hinson.

Morphology of meteoric plasma layers in the ionosphere of Mars as observed by the Mars Global Surveyor Radio Science Experiment Withers, Mendillo, Hinson.
Conceptual Model of the Earth’s Global Electric Field.

Conceptual Model of the Earth’s Global Electric Field.
The Effects of Solar Flares on the Ionospheres of Earth and Mars Paul Withers Boston University (Thanks to Mendillo, Wroten, Hinson, Rishbeth, Reinisch,

The Effects of Solar Flares on the Ionospheres of Earth and Mars Paul Withers Boston University (Thanks to Mendillo, Wroten, Hinson, Rishbeth, Reinisch,
Modeling Thermosphere Density and Temperature Variations L. Qian 1, S. C. Solomon 1, R. G. Roble 1, B. R. Bowman 2, and F. A. Marcos 3 1 High Altitude.

Modeling Thermosphere Density and Temperature Variations L. Qian 1, S. C. Solomon 1, R. G. Roble 1, B. R. Bowman 2, and F. A. Marcos 3 1 High Altitude.
The Mars Ionosphere: More than a Chapman Layer

The Mars Ionosphere: More than a Chapman Layer
Meteor layers in the martian and venusian ionospheres: Their connection to meteor showers Paul Withers (Boston University), Martin Patzold (University.

Meteor layers in the martian and venusian ionospheres: Their connection to meteor showers Paul Withers (Boston University), Martin Patzold (University.
Anomalous Ionospheric Profiles Association of Anomalous Profiles and Magnetic Fields The Effects of Solar Flares on Earth and Mars.

Anomalous Ionospheric Profiles Association of Anomalous Profiles and Magnetic Fields The Effects of Solar Flares on Earth and Mars.
Research at Boston University on the upper atmosphere of Mars Paul Withers and Majd Matta MEX Workshop 2009.03.17-19 ESTEC, The Netherlands.

Research at Boston University on the upper atmosphere of Mars Paul Withers and Majd Matta MEX Workshop ESTEC, The Netherlands.
H1C: Identify the Impacts of Solar Variability on the Earth’s Atmosphere Phase 2005-2015, Understand our Home in Space Global density, composition, temperature,

H1C: Identify the Impacts of Solar Variability on the Earth’s Atmosphere Phase , Understand our Home in Space Global density, composition, temperature,
Crustal Fields in the Solar Wind: Implications for Atmospheric Escape Dave Brain LASP University of Colorado July 24, 2003.

Crustal Fields in the Solar Wind: Implications for Atmospheric Escape Dave Brain LASP University of Colorado July 24, 2003.
Comparative Aeronomy at Earth and Mars Paul Withers Boston University In collaboration with Michael Mendillo and BU colleagues, David.

Comparative Aeronomy at Earth and Mars Paul Withers Boston University In collaboration with Michael Mendillo and BU colleagues, David.
Space Physics at Mars Paul Withers 2006.03.13 Journal Club Research Talk Center for Space Physics, Boston University Aims: Show students how principles.

Space Physics at Mars Paul Withers Journal Club Research Talk Center for Space Physics, Boston University Aims: Show students how principles.

Similar presentations

Ads by Google