TIME-DEPENDENT FORCE-FREE PULSAR
... dissipation. Another example is the formation of current sheets, which is a generic feature of force-free evolution. In current sheets magnetic field can reverse and go through zero. This can violate both conditions, which means that the assumption of magnetic dominance is invalid and one has to res ...
... dissipation. Another example is the formation of current sheets, which is a generic feature of force-free evolution. In current sheets magnetic field can reverse and go through zero. This can violate both conditions, which means that the assumption of magnetic dominance is invalid and one has to res ...
Chapter 38
... a) The circumference of an electron’s orbit in an atom is an integer multiple of the electron’s wavelength. b) The positive charge within an atom is concentrated within a very small volume within an atom. c) A low pressure monatomic gas can be made to emit electromagnetic waves viewed as a series of ...
... a) The circumference of an electron’s orbit in an atom is an integer multiple of the electron’s wavelength. b) The positive charge within an atom is concentrated within a very small volume within an atom. c) A low pressure monatomic gas can be made to emit electromagnetic waves viewed as a series of ...
Lec10_2D
... Neutron stars are extremely small, so, by L = 4 R2 T4 , their blackbody emission is minimal. However, they can beam light out from their magnetic poles via synchrotron emission. ...
... Neutron stars are extremely small, so, by L = 4 R2 T4 , their blackbody emission is minimal. However, they can beam light out from their magnetic poles via synchrotron emission. ...
PHYS 342: Modern Physics
... II. Light, More Light E. The Bohr Model 1. General aspects of the model a) Hydrogen Atom as simple example b) Electron orbits are quantized; not all orbits stable. c) To move from one orbit to the next, an electron needs to absorb or emit an exact DE. d) Larger orbital differences mean more energy ...
... II. Light, More Light E. The Bohr Model 1. General aspects of the model a) Hydrogen Atom as simple example b) Electron orbits are quantized; not all orbits stable. c) To move from one orbit to the next, an electron needs to absorb or emit an exact DE. d) Larger orbital differences mean more energy ...
Microplasma
Microplasmas are plasmas of small dimensions, ranging from tens to thousands of micrometers. They can be generated at a variety of temperatures and pressures, existing as either thermal or non-thermal plasmas. Non-thermal microplasmas that can maintain their state at standard temperatures and pressures are readily available and accessible to scientists as they can be easily sustained and manipulated under standard conditions. Therefore, they can be employed for commercial, industrial, and medical applications, giving rise to the evolving field of microplasmas.