lunar dust and dusty plasma physics - nasa dust and dusty plasma physics thomas wilson nasa johnson...
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![Page 1: Lunar Dust and Dusty Plasma Physics - NASA Dust and Dusty Plasma Physics Thomas Wilson NASA Johnson Space Center, Houston, Texas July 22, 2008 T. Wilson 2 Summary •A brief review](https://reader031.vdocuments.site/reader031/viewer/2022022508/5acdb9eb7f8b9a93268dec72/html5/thumbnails/1.jpg)
Lunar Dustand
Dusty Plasma Physics
Thomas WilsonNASA Johnson Space Center, Houston, Texas
July 22, 2008
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Summary
• A brief review of the Earth-Moonplasma environment.
• Discussion of how the dusty plasmaenvironment links to exploration.
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Exposure Dilemma• If a person or instrument were
standing on the Moon, what sort ofenvironment or “weather” wouldone experience?
• There are many answers (e.g.,cosmic rays are fierce).
• In this session we are focusing ondirect exposure to space plasmas.
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Direct Interaction with Sun,Earth, and Meteoroids
• Direct Solar Wind• Earth’s magnetotail and
plasmasheet• Wake of the Moon• Transient Na “atmosphere”
during Leonid showers.
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Direct Solar Wind
D. Shriver (2005)
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Earth’s Magnetotail & Plasmasheet
Mike Hapgood (2007) Ann. Geophys. 25, 2037
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ESA’s Cluster Observation of Plasmasheet
Rutherford Appleton Lab
Summary of50 keV
electronsseen byESA’s
4 ClusterSatellites
Plasmasheet
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Moon’s Interaction with Plasmasheet
Rutherford Appleton Lab
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Moon’s Interaction with Plasmasheet
Rutherford Appleton Lab
• The Moon occasionally encounters dense hotplasma of the Earth’s plasmasheet.
• Lunar surface can build up a charge under theseconditions. (A “hair-raising” event for astronauts?)
• Observed by Lunar Prospector.• Moon crosses Earth’s magnetotail around Full
Moon.– Approx. 4 to 5 days per month.– ± 5 RE wrt Ecliptic.– There is an 18.6 yr cycle
in lunar charging.
Eclipticplane
Moon’sorbitinclined by5°
Nodes precess360° in 18.6years
AN
DN
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The Wake of the Moon has UnexpectedFeatures
• “Behind the Moon” is also relevant todust dynamics on the back side (awayfrom the Sun).
• There exists a plasma void (“wake”)during the Moon’s orbit about the Sun.
• The interplanetary magnetic field,however, increases in the wake region ofthe Moon.
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Wake of the Moon (1968)
Wolf R.A. JGR 73 4281 (1968)
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Magnetic Field in Wake of the Moon
Wolf R.A. JGR 73 4281 (1968)
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Boston University
Direct Interaction with Leonids
Transient “atmospheric” Na tail can be seendownwind for 100’s of lunar radii.
Flynn, B., and Mendillo, M., (1993) Science 261, 184
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Direct Interaction with Leonids• Equations for Na lines.• Sodium fluorescence intensity I(r, χ) is
a powerlaw formula:
I(r, χ) = Io r-α
where IoIo = (1 + 6cos8χ),
is measured in kilorayleighs, χ is the solarzenith angle (latitude), and α is
α = 2(1 + cos3χ).
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Consequence: A Dusty RegolithInteracting WithSpace Plasmas
• Question – How does lunar dustinteract with space plasmas?
• Answer – Dusty plasma physics.
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Let’s Define a Dusty Plasma.• Plasma is ubiquitous in the Universe.
– It is a fourth state of matter (besides solid, liquid, gas).– It is an ionized or charged gas that is highly conductive.
• Dust grains are also quite common in the Universe.– Dust is the powder form of solid matter.– Dust can be readily charged just like elementary particles.– Dust can be picked up by a passing plasma (pickup dust) or
kicked up by sputtering (and vulcanism).– Unlike elementary particles or ionized nuclei (CRs):
• It has a different charge-to-mass ratio.• It retains its material properties as solid matter (dielectric and
magnetic) with surface potentials. Scalar properties become tensors.• Dusty plasmas are studied in the rings of Jupiter and
Uranus, etc. We have come a long way since Apollo.
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Let’s Define a Dusty Plasma (2).• Dusty plasma is a plasma that suspends nanometer ormicrometer-sized particles.
• Occurrence– Space plasmas– Industrial applications (on Earth)
• Properties– Temperature
– Electric Potential: ± 1-10 V (or kV’s in relativistic cases)
Let’s Define a Dusty Plasma (2).
0.86 eV10,000 KElectron temperature
~ 10-1 eV1,000 KIon temperature
~ 10-2 eV100 KMolecular temperature
~ 10-3 eV10 KDust temperature
TemperatureTemperatureDusty Plasma Constituent
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Example of a Dusty Plasma.Dusty Plasma Experiment (TCNJ & Princeton’s PPL)
Dust clouds form where gravitation & electromagnetism offset (levitation).Three appear above at equilibrium points determined by chamber geometry.
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Relevance to Lunar Exploration• Dust transport
– Levitation and transport of lunar dust has been understudy since the Apollo era.
– Dust mitigation is hence a major environmental issue.– Dusty plasma physics is key to dust transport.
• This is more than electrodynamics and Leyden jars.• Involves MHD and plasmas – the physics of highly conductive
ionized gas flow (fluid mechanics plus electromagnetism).• Involves the transport of charge via pickup dust in the presence
of space plasmas and magnetic fields.• Electric potentials and charging
– Moon’s electric potentials are dynamic and time-dependent. These need to be modelled and measured.
– Potentials produce electric fields (which transport dust).– Risk involves charging/discharging in lunar ops.
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Dusty Plasma Levitation Geometry
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• Lorentz force• Lorentz transformation• Ohm’s law• Plasma (Conductivity σ→∞)• F = ma (gravity + EM)• Lunar surface potential Φo• Lunar electric field• Ambient electric fields E*• Levitation dynamics:
(Dusty plasma Z=Zdustq)
Dusty Plasma Levitation Dynamics)x
c
1(q BvEF +=
)xc
(m
Z
r3B
r*E
rr
!!! ++!=
µ
)m
ZGM( o!µ "=
)xc
(m
q
r
GM3
Br
Er
r!
!! ++!=
VxB -EE '=
VxB) (E E' J +== !!
SWSWSWBx V - E =
oo r/kQ =!
*E E Eo+=
3
orr/ - E
oo!! ="=
Electromagnetism + Gravitation
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Space Plasmas & MHD Physics OnThe Moon
• There is more: MHD physics (Alfvén).• Magneto(magnetic field)-hydro(liquid)-
dynamics(motion).• To gravitation and electromagnetism we add:
– Fluid mechanics• This means the Navier-Stokes equations (nonlinear).• Plus Maxwell’s equations (modified Ohm’s Law, etc.).
• Because MHD is a fluid theory, it cannot beused for kinetic phenomena (Boltzmann Eq.) –more on this later.
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3-Dimensional MHD Equations
Jia X. et al. (2008) JGR 113, A012748
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3-D MHD Equations – FLASH Code
Gombosi, Physics of the Space Environment (1998)
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An Example When MHD DoesWork on the Moon
• The Moon has no appreciable magneticdipole field – hence no magnetosphere.
• However, the Moon has magneticanomalies imbedded in its surface.
• These anomalies can creat mini-bowshocks.
• They can be modelled with mini-dipoles.
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Example of mini-Magnetosphereson the Moon (Lunar Prospector)
Lin et al. (1998) Science 281, `480
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2.5D MHD Sim of mini-Magnetospheres on Moon’s Surface
Harnett & Winglee (2002) JGR 107, A009241
Univ. of Washington
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When Does MHD Not Work?
• MHD no longer works when the Navier-Stokes equations are not applicable.
• This happens when the existence ofdiscrete particles becomes important.
• That requires the kinetics of Boltzmanntransport theory.
• The Moon has both.• Now we come to Knudsen Numbers (1911).
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The Moon has an exosphere.What is an exosphere?
• The definition varies:• Knudsen # is Kn≥1.• Mean free path exceeds
scale height.• Consequences Kn>1:• Discrete Simulation
Monte Carlos (DSMC).• For larger length scales
(e.g. Earth radii), MHDused for bow shocks,geotail dynamics.Fluid Mechanics
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How Do We Define the Moon’sExosphere?
We define theMoon’sexosphere asbeginningwith Kn ~ 1.
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Conclusion• We have reviewed some of the space physics
related to the transport of dust on and aboutthe Moon. The physics is understood.
• What is lacking?– The physics is very often nonlinear.– The Navier-Stokes problems are unsolvable.– This requires models, simulations, and Monte
Carlos.– Models require laboratory study, flight data, and
actual measurements.• Both simulations and flight measurements are
essential to the success of lunar exploration.