Diff for "SolarWind" - Keithl wiki

Differences between revisions 1 and 9 (spanning 8 versions)

http://wiki.keithl.com/SolarWind

Basics of the Solar Wind

Nicole Meyer-Vernet PSULib QB529.M485 2007

Observatoire de Paris and Centre National de la Rechereche Scientifique website
p009 Sun: mass 1.98892e30 kg, radius 695700 km, Luminosity 3.828e26 W +/-0.1%
p054 plasmas interact less with radiation than with plasmas
p057 Fermi energy
- book's "comet-like" heliosphere model obsolete
- Imaging the Interaction of the Heliosphere with the Interstellar Medium from Saturn with Cassini
p057 heliospheric dust grains
p057 plasma particle collisional free path increases strongly with speed, fast particles nearly collisionless
p064 Magnetic mirrors: particle moving towards converging/increasing field mirrors and reflects
p066 transverse gradient produces a small transverse drift
p069 Vlasov equation Liouville's theorem
p080 "upstream kinetic energy converted to downstream enthalpy, high temperature
p083 viscous forces generally much less important than inertial effects, but
- see E. M. Purcell Life at low Reynolds number Am. J. Phys. 45, 3–11 (1977)
p083 ions transport momentum, determining viscosity; electrons transport heat, determining thermal conductivity
p084 Reynolds number very large for space plasmas, viscosity generally negligable
p084 1e6 K (kelvin) solar corona heat conductivity 1e4 W/m-K "same order of magnitude as brass"
- NO, brass approx. 150 W/m-K Silver around 430 W/m-K
p084 conductivity low perpendicular to B, high parallel to B only if mean free path much smaller than scales of variation.
p088 magnetic Reynolds number convection ÷ diffusion
p090 magnetic field freezing Alfvén's theorem
p090 plasmas in space tied to field lines, do not mix across field
p091 magnetized plasma has
- inertia, corresponding to bulk kinetic energy ½ρV²
- thermal pressure, corresponding to random kinetic energy ρkT/m
- magnetic forces, corresponding to B²/2μ₀
p092 V = B/(μ₀ρ)½ ≡ V_A Alfvén speed
p098 Whistler

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-=== Nicole Meyer
+=== Nicole Meyer-Vernet PSULib QB529.M485 2007 ===
 . [[ https://observatoiredeparis.psl.eu/ | Observatoire de Paris ]]  and [[ https://en.wikipedia.org/wiki/French_National_Centre_for_Scientific_Research | Centre National de la Rechereche Scientifique ]] [[ https://www.cnrs.fr/fr | website ]]
 .p009 Sun: mass 1.98892e30 kg, radius 695700 km, Luminosity 3.828e26 W +/-0.1%
 .p054 plasmas interact less with radiation than with plasmas
 .p057 [[ https://en.wikipedia.org/wiki/Fermi_energy | Fermi energy ]]
  . book's "comet-like" heliosphere model [[ https://www.science.org/doi/10.1126/science.1181079 | obsolete ]]
  . [[ https://www.science.org/doi/10.1126/science.1181079 | Imaging the Interaction of the Heliosphere with the Interstellar Medium from Saturn with Cassini ]]
 .p057 [[ https://pmc.ncbi.nlm.nih.gov/articles/PMC9726803/pdf/11214_2022_Article_939.pdf | heliospheric dust grains ]]
 .p057 plasma particle collisional free path increases strongly with speed, fast particles nearly collisionless
 .p064 Magnetic mirrors: particle moving towards converging/increasing field mirrors and reflects
 .p066 transverse gradient produces a small transverse drift
 .p069  [[ https://en.wikipedia.org/wiki/Vlasov_equation | Vlasov equation ]] [[ https://en.wikipedia.org/wiki/Liouville's_theorem_(Hamiltonian) | Liouville's theorem ]]
 .p080 "upstream kinetic energy converted to downstream [[ https://en.wikipedia.org/wiki/Enthalpy | enthalpy ]], high temperature
 .p083 viscous forces generally much less important than inertial effects, but 
  . see E. M. Purcell [[ https://www.damtp.cam.ac.uk/user/tong/fluids/lowreynolds.pdf | Life at low Reynolds number ]] Am. J. Phys. 45, 3–11 (1977)
 .p083 ions transport momentum, determining viscosity; electrons transport heat, determining thermal conductivity 
 .p084  Reynolds number very large for space plasmas,  viscosity generally negligable
 .p084 1e6 K (kelvin) solar corona heat conductivity 1e4 W/m-K "same order of magnitude as brass" 
  . [[ https://www.researchgate.net/profile/Anastasia_Vasileiou2/publication/263155220/figure/fig4/AS:550876301492239@1508350553460/Brass-CuZn33-properties-as-a-function-of-temperature-a-thermal-conductivity-b_W640.jpg | NO, brass approx. 150 W/m-K ]] Silver around 430 W/m-K
 .p084 conductivity low perpendicular to B, high parallel to B only if mean free path much smaller than scales of variation. 
 .p088 [[ https://en.wikipedia.org/wiki/Magnetic_Reynolds_number | magnetic Reynolds number ]] convection ÷ diffusion
 .p090 magnetic field freezing [[ https://en.wikipedia.org/wiki/Alfv%C3%A9n%27s_theorem |  Alfvén's theorem ]]
 .p090 plasmas in space tied to field lines, do not mix across field
 .p091 magnetized plasma has
  . inertia, corresponding to bulk kinetic energy ½ρV²
  . thermal pressure, corresponding to random kinetic energy ρkT/m
  . magnetic forces, corresponding to B²/2μ₀
 .p092 V = B/(μ₀ρ)½ ≡ V,,A,, [[ https://en.wikipedia.org/wiki/Alfv%C3%A9n_wave#Alfv%C3%A9n_velocity | Alfvén speed ]]
 .p098 [[ https://en.wikipedia.org/wiki/Whistler_(radio) | Whistler ]]
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