undergraduate physics seminar thanakorn sukha 6105007 scpy/b
TRANSCRIPT
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Undergraduate Physics Seminar
Thanakorn Sukha 6105007 SCPY/BPhysics Department, Faculty of Science Mahidol University
9/7/2021 1
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➢INTRO ➢Cosmic Rays and Interplanetary Electrons.➢Discovery of Jovian Electrons.
➢ Transport➢Solar Wind and Parker Spiral➢Earth-Jupiter Magnetic Field Connection
➢ Variation period➢13-month period and 27-day period.
➢Conclusion9/7/2021 2
OUTLINE
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
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➢Energetic particles that
travel in space.
➢From outside and inside
the solar system.
➢1H+, 4He2+, 12C+, 16O8+,…,
𝛾 , 𝜇+,…,
https://www.esa.int/Enabling_Suppo
rt/Space_Engineering_Technology/ES
A_missions_team_up_to_map_cosmic
_rays_across_Solar_System
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
Cosmic Rays
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➢Interplanetary energetic electrons:
➢Solar electrons
➢from the Sun
➢Galactic electrons
➢from outside solar system
➢Jovian electrons
➢from Jupiter9/7/2021 4
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
InterplanetaryElectrons
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➢Strange Phenomenal at the Solar minimum
➢Pioneer 10
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
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➢Solar Cycle :
➢Cycles of solar
(magnetic) activity.
➢Sunspot.
➢~11 years.
➢ Solar maximum
➢ Solar minimum
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
Solar Cycle
https://spaceweather.com/glossary/
images2009/zurich.gif
https://www.esa.int/Science_Exploration/Space_Science/
Space_for_you/Massive_sunspot_faces_Earth
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➢Unusual detection in
low-energy electrons
at Solar minimum.
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McDonald et al. 1972
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
Electrons atNear-Earth Orbit
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➢Solar electrons?
➢Galactic electrons?
➢Spectral index is different
➢𝛾 ~ 1.5(galactic electron 𝛾 ≥ 2.5 − 3)
9/7/2021 8Lin, Anderson, & Cline, 1972
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
Electrons atNear-Earth Orbit
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➢A space mission. Did a
flyby of Jupiter in 1973.
➢Confirmed Jupiter
is emitting MeV range
electrons.
https://www.nextwider.com/wp-
content/uploads/2017/06/pioneer-10.jpg
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
Pioneer 10
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INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
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➢Strong :
➢40 times geomagnetic.
➢Electrons are trapped
and accelerated by Jupiter’s
magnetosphere.
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
Jovian Magnetosphere
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➢The spectral index of
Jupiter’s electrons
is 𝛾 ~ 1.5
Teegarden at al., 1974
.
.
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
Evidence To Believe
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INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
But…Electrons
from Jupiter
to
the Earth?
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➢Solar Wind and Interplanetary Magnetic Field.➢Parker Spiral.
➢Earth-Jupiter Magnetic Field Connection.
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
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➢Solar wind :
➢Plasma released from
the sun, continuously.➢Moving charge ⇔ Magnetic field
https://www.sciencenews.org/wp-
content/uploads/2017/12/121817_LG_corona_feat.jpg
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
Solar Wind
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➢The sun is rotating.
➢Interplanetary
magnetic field(IMF)
has spiral shape.
➢called Parker Spiral.
9/7/2021 16Moses, 1986
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
Parker Spiral
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➢Solar wind speed
≈ 450 km/s
➢Not constant.
➢The density of the
spiral is not
uniform.
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INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
Parker Spiral
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INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
And that is the .
Charged particles travel
.
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➢Electrons propagate along the
interplanetary magnetic field
line.
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
Jovian Electrons
Moses, 1986
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INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
Earth-JupiterMagnetic field connection
➢when the field line
connect Earth and
Jupiter, we can
observe Jovian
electrons.
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𝑩𝒗 = 𝒗⊥ 𝑩 + 𝒗∥𝑩
𝒗∥𝑩
𝒗⊥ 𝑩
𝒗
𝒊
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
Charged particle in magnetic field line
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𝑟𝑔 =𝑚𝑣⊥|𝑞|𝐵
➢Electrons’ gyroradii ~300 km.
➢Low chance of energy loss.
➢The characteristic of electrons at
Jupiter and Earth are identical.
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
Gyroradius
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➢Strange electron flux near Earth.
➢ Jupiter emitting electrons.
➢Electron trave along IMF
➢ Solar wind create IMF
➢E-J magnetically connected, can
observe at earth.
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
Before weMove on
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➢13-Month Period
➢27-Day Period
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Logachev et al. 2020
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
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➢Synodic period of Jupiter
≈ 13 month➢Sun, Earth, Jupiter are at the
same angular configuration
every 13 month.
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
13-Month
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INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
But… Can the Field
Connect E-J at
?
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At the
beginning
Of cycles
[low flux]
At the
middle of
cycle
[high flux]Logachev et al. 2020
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➢The most favorable
conditions.➢Solar wind speed :
450 ± 50 km/s
➢Earth-Jupiter angle :
230 ± 20 deg
Logachev et al. 2020
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
13-Month
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➢The sun rotation:
➢ ~27 days
Logachev et al. 2020
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
27-Day
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➢In 1 rotation (360deg)➢Only 1 segment
make good connect
Earth and Jupiter.
➢OR, we could say it
depends on solar wind
speed.
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
27-Day
Logachev et al. 2020
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➢Right time, Right place.➢ Solar wind speed(IMF)
➢ Earth-Jupiter angular distance
➢All for E-J .
INTRO TRANSPORT VARIATION PERIOD CONCLUSIONS
Right place,Right time.
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➢Jovian electrons, one of interplanetary
electrons.
➢Jupiter emitting MeV range electrons.
➢We can observe Jovian electrons when the Earth
and Jupiter are connected by IMF.
➢Solar wind play an important role.
INTRO TRANSPORT VARIATION PERIOD
CONCLUSIONS
Conclusions
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Logachev, Y. I., Daibog, E. I., & Kecskeméty, K. (2021). Jovian electrons at the
Earth orbit and stationary structures in the solar wind. Monthly Notices of
the Royal Astronomical Society, 502(2), 2541–2548.
https://doi.org/10.1093/mnras/staa2782
McDonald, F. B., Cline, T. L., & Simnett, G. M. (1972). Multifarious temporal
variations of low-energy relativistic cosmic-ray electrons. Journal of
Geophysical Research, 77(13), 2213–2231.
https://doi.org/10.1029/ja077i013p02213
Moses, D. (1987). Jovian electrons at 1 AU - 1978–1984. The Astrophysical
Journal, 313, 471. https://doi.org/10.1086/164987
Teegarden, B. J., McDonald, F. B., Trainor, J. H., Webber, W. R., & Roelof, E.
C. (1974). Interplanetary Mev electrons of Jovian origin. Journal of
Geophysical Research, 79(25), 3615–3622.
https://doi.org/10.1029/ja079i025p03615
References
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➢Corotating interaction region
➢Region of compress solar wind plasma.
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Logachev et al. 2020