Cohen-Daubechies-Feauveau wavelet

From formulasearchengine
Revision as of 22:03, 8 April 2013 by en>BG19bot (Applications: WP:CHECKWIKI error fix for #61. Punctuation goes before References. Do general fixes if a problem exists. - using AWB (9075))
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to navigation Jump to search
The heliospheric current sheet results from the influence of the Sun's rotating magnetic field on the plasma in the interplanetary medium[1]

A current sheet is an electric current that is confined to a surface, rather than being spread through a volume of space. Current sheets feature in magnetohydrodynamics (MHD), the study of the behavior of electrically conductive fluids: if there is an electric current through part of the volume of such a fluid, magnetic forces tend to expel it from the fluid, compressing the current into thin layers that pass through the volume.

The largest occurring current sheet in the Solar System is the so-called Heliospheric current sheet, which is about 10,000 km thick, and extends from the Sun and out beyond the orbit of Pluto.

In astrophysical plasmas such as the solar corona, current sheets may have an aspect ratio (breadth divided by thickness) as high as 100,000:1.[2] By contrast, the pages of most books have an aspect ratio close to 2000:1. Because current sheets are so thin in comparison to their size, they are often treated as if they have zero thickness; this is a result of the simplifying assumptions of ideal MHD. In reality, no current sheet may be infinitely thin because that would require infinitely fast motion of the charge carriers whose motion causes the current.

Current sheets in plasmas store energy by increasing the energy density of the magnetic field. Many plasma instabilities arise near strong current sheets, which are prone to collapse, causing magnetic reconnection and rapidly releasing the stored energy.[3] This process is the cause of solar flares[4] and is one reason for the difficulty of magnetic confinement fusion, which requires strong electric currents in a hot plasma.

Magnetic field of an infinite current sheet

An infinite current sheet can be modelled as an infinite number of parallel wires all carrying the same current. Assuming each wire carries current I, and there are N wires per unit length, the magnetic field can be derived using Ampère's law:

RBds=μ0Ienc
RBdscosθ=μ0Ienc

R is a rectangular loop surrounding the current sheet. In the two sides perpendicular to the sheet, Bds=0 since cos(90)=0. In the other two sides, cos(0)=1, so if S is one parallel side of the rectangular loop of dimensions L x W, the integral simplifies to:

2SBds=μ0Ienc

Since B is constant due to the chosen path, it can be pulled out of the integral:

2BSds=μ0Ienc

The integral is evaluated:

2BL=μ0Ienc

Solving for B, plugging in for Ienc (total current enclosed in path R) as I*N*L, and simplifying:

B=μ0Ienc2L
B=μ0INL2L
B=μ0IN2

Notably, the magnetic field strength of an infinite current sheet does not depend on the distance from it.

The direction of B can be found via the right-hand rule.

Harris current sheet

A well-known one-dimensional current sheet equilibrium is Harris current sheet, which is a stationary solution to the Maxwell-Vlasov system.[5] The magnetic field profile is given by

B=B0tanh(x/L)ez

See also

Notes

43 year old Petroleum Engineer Harry from Deep River, usually spends time with hobbies and interests like renting movies, property developers in singapore new condominium and vehicle racing. Constantly enjoys going to destinations like Camino Real de Tierra Adentro.

  1. "Artist's Conception of the Heliospheric Current Sheet" Wilcox Solar Observatory, Stanford University
  2. Biskamp, Dieter (1997) Nonlinear Magnetohydrodynamics Cambridge University Press, Cambridge, England, page 130, ISBN 0-521-59918-0
  3. Biskamp, Dieter (May 1986) "Magnetic reconnection via current sheets" Physics of Fluids 29: pp. 1520-1531, 21 year-old Glazier James Grippo from Edam, enjoys hang gliding, industrial property developers in singapore developers in singapore and camping. Finds the entire world an motivating place we have spent 4 months at Alejandro de Humboldt National Park.
  4. Low, B. C. and Wolfson, R. (1988) "Spontaneous formation of electric current sheets and the origin of solar flares" Astrophysical Journal 324(11): pp. 574-581
  5. Hughes, W. J. (1990) "The Magnetopause, Magnetotail, and Magnetic Reconnection" (from the "Rubey Colloquium" held in March 1990 at U.C.L.A.) pp. 227-287 In Kivelson, Margaret Galland and Russell, Christopher T. (editors) (1995) Introduction to Space Physics Cambridge University Press, Cambridge, England, pages 250-251, ISBN 0-521-45104-3