1,721,204 research outputs found
Frustration in soft matter: interplay between order and curvature
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75392.pdf (Publisher’s version ) (Open Access)Radboud Universiteit Nijmegen, 07 september 2009Promotores : Fasolino, A., Katsnelson, M.I.122 p
Structure and magnetism of defected carbon materials
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101516.pdf (Publisher’s version ) (Open Access)Radboud Universiteit Nijmegen, 25 februari 2013Promotores : Fasolino, A., Katsnelson, M.I.106 p
Temperature effects on graphene : from flat crystal to 3D liquid
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87193.pdf (Publisher’s version ) (Open Access)Radboud Universiteit Nijmegen, 11 juli 2011Promotores : Fasolino, A., Katsnelson, M.I.114 p
MAGNETIC LEVELS AND INTERBAND ABSORPTION IN QUANTUM-WELL WIRES
No full textWe present a theoretical study of the conduction and valence magnetic band structure of Quantum Well Wires in high magnetic fields. We show how the transition from one-dimensional subbands to edge states and to Landau levels can be followed, due to the valence band mixing, by optical experiments by choosing the appropriate, linear or circular, polarization of the light, yielding information on the one-dimensional confinement
CURRENT-INDUCED SPIN SEPARATION IN P-DOPED ASYMMETRIC DOUBLE-QUANTUM WELLS
No full textIn asymmetric double quantum wells, the ''spin'' splitting of the hole subbands at finite parallel momentum, due to the asymmetric potential, is related to a ''spin'' dependent delocalization of the wavefunction over the two wells. We show that the application of an electric field parallel to the interfaces in a p-doped asymmetric double quantum well can exploit such spin-dependent tunneling probability and separate carriers of opposite spins into the two wells, yielding a macroscopic magnetic moment of different magnitude and either the same or opposite direction in the two wells
Erratum: "Spin" splitting in asymmetric double quantum wells: A mechanism for "spin"-dependent hole delocalization (Physical Review Letters (1993) 70, 13, (2051))
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Magnetic phase transitions of Ising surfaces with modified surface-bulk coupling: a Monte Carlo study
No full textSpirale at the SBFT 2023 Tool Competiton - Cyber-Physical Systems Track
No full textIn this paper, we present Spirale, a search-based testing tool designed to generate scenarios for testing Lane-Keeping Assist Systems (LKAS). Spirale took part in the CPS (Cyber-Physical Systems) testing competition held at SBFT 2023
Lubricated friction on nanopatterned surfaces via molecular dynamics simulations
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72030.pdf (Publisher’s version ) (Open Access)7 p
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