J.W. Luginsland scite author profile

The Child-Langmuir Law (CL), discovered a century ago, gives the maximum current that can be transported across a planar diode in the steady state. As a quintessential example of the impact of space charge shielding near a charged surface, it is central to the studies of high current diodes, such as high power microwave sources, vacuum microelectronics, electron and ion sources, and high current drivers used in high energy density physics experiments. CL remains a touchstone of fundamental sheath physics, including contemporary studies of nanoscale quantum diodes and nano gap based plasmonic devices. Its solid state analog is the Mott-Gurney law, governing the maximum charge injection in solids, such as organic materials and other dielectrics, which is important to energy devices, such as solar cells and light emitting diodes. This paper reviews the important advances in the physics of diodes since the discovery of CL, including virtual cathode formation and extension of CL to multiple dimensions, to the quantum regime, and to ultrafast processes. We review the influence of magnetic fields, multiple species in bipolar flow, electromagnetic and time dependent effects in both short pulse and high frequency THz limits, and single electron regimes. Transitions from various emission mechanisms (thermionic-, field-, and photoemission) to the space charge limited state (CL) will be addressed, especially highlighting the important simulation and experimental developments in selected contemporary areas of study. We stress the fundamental physical links between the physics of beams to limiting currents in other areas, such as low temperature plasmas, laser plasmas, and space propulsion.

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On the elimination of numerical Cerenkov radiation in PIC simulations

Greenwood

Cartwright

Luginsland

et al. 2004

Journal of Computational Physics

104

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CAD models of lumped elements on GaAs up to 18 GHz

Pettenpaul

Kapusta

Weisgerber

et al. 1988

IEEE Trans. Microwave Theory Techn.

188

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Two-Dimensional Space-Charge-Limited Emission: Beam-Edge Characteristics and Applications

2001

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There is, at present, no analytic solution that extends Child-Langmuir space-charge-limited emission beyond 1D. Herein, we investigate the characteristics of planar diode electron emission in 2D space with the emphasis on the transition region between the beam and vacuum. Current density above that predicted by Child-Langmuir is observed near the beam edges in a 2D finite element, electrostatic ray-tracing code. The properties of these increased current density "wings" are examined and then discussed in terms of their applications to cathodes which have large reservoirs of free electrons.

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J.W. Luginsland

Two-Dimensional Child-Langmuir Law

100 years of the physics of diodes

On the elimination of numerical Cerenkov radiation in PIC simulations

CAD models of lumped elements on GaAs up to 18 GHz

Two-Dimensional Space-Charge-Limited Emission: Beam-Edge Characteristics and Applications

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