Graphitic nanofibers: a review of practical and potential applications
J Jangbarwala - 2016 - books.google.com
The world of nanomaterials is complex; there is dubiety as well as unrealistic optimism about
costs, practicality, timing for the availability of, and the true capabilities of products featured …
costs, practicality, timing for the availability of, and the true capabilities of products featured …
Note on Hartman effect in gapped graphene
D Jahani - Physica B: Condensed Matter, 2013 - Elsevier
In this manuscript the effect of an opening gap on the dwell time corresponding to the
electronic tunneling in graphene is explored. It is shown that tunneling time of quasiparticles …
electronic tunneling in graphene is explored. It is shown that tunneling time of quasiparticles …
Applications of the WKB Equations to Dirac Materials
A Iurov - A Tutorial on the WKB Approximation for Innovative …, 2024 - Springer
We have derived the key WKB relations and the wave function for graphene, α− T 3
materials, dice lattice, and some others. Now it is crucial to understand how all these results …
materials, dice lattice, and some others. Now it is crucial to understand how all these results …
Unveiling the tunneling phenomena in graphene–graphene homo-junctions for emerging device applications
Motivated by the idea that high-quality graphene always produces innovative aspects of
physics. In this outline, a novel class of two-dimensional (2D) assembly namely thickness …
physics. In this outline, a novel class of two-dimensional (2D) assembly namely thickness …
Spontaneous formation of atomically thin pn homojunction diodes in exfoliated graphenic medium intended for rectifiers
Fabrication of atomically thin pn junctions has proved to be a challenging job as the
conventional processes such as ion implantation and doping for the realization of p and n …
conventional processes such as ion implantation and doping for the realization of p and n …
Analytical Band Structure and Transport Study of Strained Graphene and Silicene Systems
MAM Chauwin - 2020 - search.proquest.com
Graphene and silicene are promising 2D materials for designing next generation transistors,
owing to their unusually high electron mobility, thermal conductivity and flexibility. In this …
owing to their unusually high electron mobility, thermal conductivity and flexibility. In this …
[PDF][PDF] Massless and Zero-Energy States in Condensed Matter Systems
MA Ajaib - arXiv preprint arXiv:1808.04568, 2018 - researchgate.net
We present a Hamiltonian which can be employed to explain a condensed matter system,
such as Graphene, with effectively massless and zero energy states. We analyze the 2D …
such as Graphene, with effectively massless and zero energy states. We analyze the 2D …
A Hamiltonian for Massless and Zero-Energy States
MA Ajaib - arXiv preprint arXiv:1808.04568, 2018 - arxiv.org
We present a non-hermitian Hamiltonian which can be employed to explain a condensed
matter system with effectively massless and zero energy states. We analyze the 2D …
matter system with effectively massless and zero energy states. We analyze the 2D …
Introducing Spin in 2D Quantum Tunneling
MA Ajaib - arXiv preprint arXiv:1705.10409, 2017 - arxiv.org
We study the quantum tunneling of non-relativistic electrons for two dimensional condensed
matter systems. We employ the Levy-Leblond equation (which is the analogue of the Dirac …
matter systems. We employ the Levy-Leblond equation (which is the analogue of the Dirac …