Results 21 to 30 of about 422,462 (316)
Strong localization in defective carbon nanotubes: a recursive Greenʼs function study
We study the transport properties of defective single-walled armchair carbon nanotubes (CNTs) on a mesoscopic length scale. Monovacancies and divancancies are positioned randomly along the CNT.
Fabian Teichert +3 more
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Hydrodynamic Approach to Electronic Transport in Graphene: Energy Relaxation
In nearly compensated graphene, disorder-assisted electron-phonon scattering or “supercollisions” are responsible for both quasiparticle recombination and energy relaxation. Within the hydrodynamic approach, these processes contribute weak decay terms to
B. N. Narozhny +3 more
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Stacking-dependent band gap and quantum transport in trilayer graphene [PDF]
Graphene is an extraordinary two-dimensional (2D) system with chiral charge carriers and fascinating electronic, mechanical and thermal properties. In multilayer graphene, stacking order provides an important yet rarely explored degree of freedom for ...
M. Bockrath +27 more
core +1 more source
The sophisticated control of the tram bogie on track [PDF]
The paper deals with the problems of routing control algorithms of new conception of tram vehicle bogie. The main goal of these research activities is wear reduction of rail wheels and tracks, wear reduction of traction energy losses and increasing of ...
Radovan DOLECEK +2 more
doaj
P-type SnTe-based compounds have attracted extensive attention because of their high thermoelectric performance. Previous studies have made tremendous efforts to investigate native atomic defects in SnTe-based compounds, but there has been no direct ...
Wang, Wei +12 more
core +1 more source
Discovery of an unknown conduction mechanism in insulating polymers
Polymer dielectrics are widely used in electrical and electronic apparatus and devices because of their capability to insulate conductors, withstand high fields and suffer negligible conductive losses.
Gian Carlo Montanari +3 more
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Tuning Structure and Dynamics of Blue Copper Azurin Junctions via Single Amino-Acid Mutations
In the growing field of biomolecular electronics, blue-copper Azurin stands out as one of the most widely studied protein in single-molecule contacts.
Maria Ortega +5 more
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Electron Transport at Surfaces and Interfaces
Here we present two techniques which give insight on transport phenomena with atomic resolution. Ballistic electron emission microscopy is used to study the ballistic transport through layered heterogeneous systems. The measured ballistic fraction of the tunneling current provides information about lossless transport channels through metallic
Bobisch, Christian, Möller, Rolf
openaire +5 more sources
The Izhikevich neuron model is a widely used spiking neuron model that combines biologically plausible behavior with computational efficiency. As hardware implementations often suffer from high power and area usage due to multiplication operations ...
van-Vu Luyen +6 more
doaj +1 more source
Electronic non-coplanar refraction and deflected diffraction of Weyl-node-mismatch junctions
We studied the transport properties of the Weyl-node-mismatch junction, beside which the Weyl nodes are mismatch so that their projections on the interface plane cannot overlap.
Mou Yang, Quan-Teng Hou, Rui-Qiang Wang
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