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Njm Horing
Researcher at Stevens Institute of Technology
Publications - 45
Citations - 282
Njm Horing is an academic researcher from Stevens Institute of Technology. The author has contributed to research in topics: Plasmon & Superlattice. The author has an hindex of 9, co-authored 45 publications receiving 273 citations.
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Fast-particle energy loss in the vicinity of a two-dimensional plasma.
TL;DR: The energy loss of a fast-charged-particle probe of a two-dimensional (2D) collisionless solid-state plasma is determined as a function of the distance of the fast particle from the 2D plasma plane, and its velocity.
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Balance-Equation Approach to Hot-Carrier Transport in Semiconductors
XL(雷啸霖) Lei,Njm Horing +1 more
TL;DR: The balance-equation approach to nonlinear hot-carrier transport theory, formulated by Lei and Ting (1984), is addressed in this article, where the role of strong electron-electron interactions in promoting rapid thermalization about the drifted transport state and the concomitant substantial simplification of the transport theory is discussed.
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Nonlocal plasma spectrum of graphene interacting with a thick conductor
TL;DR: In this article, a mean field theory formalism is employed to analyze the nonlocal plasmon dispersion relation of monolayer graphene which is Coulomb coupled to a thick conductor.
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Anticrossing of plasmon resonances and giant enhancement of interlayer terahertz electric field in an asymmetric bilayer of two-dimensional electron strips
TL;DR: In this article, the terahertz response of an asymmetric bilayer of two-dimensional electron strips was analyzed and it was shown that mixing between optical and acoustic plasmons hugely increases at the anticrossing of optical-like and acoustic-like plasma resonances excited by incoming tera-hertz radiation in such a bilayer.
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Thermal-noise temperature of GaAs heterosystems for steady-state hot-electron transport with nonequilibrium phonons.
X. L. Lei,Njm Horing +1 more
TL;DR: In this article, the thermal-noise temperature for hot electrons in steady-state transport in the presence of a strong dc electric field with a finite phonon relaxation time is examined with use of a nonlinear-balance-equation theory.