20,992 research outputs found
Comment on ``Kepler problem in Dirac theory for a particle with position-dependent mass''
Based on easy-to-follow considerations it is not difficult to be vehemently
opposed not only the solutions found in that paper but also the conclusions
manifested there.Comment: 4 page
Topologically Protected Zero Modes in Twisted Bilayer Graphene
We show that the twisted graphene bilayer can reveal unusual topological
properties at low energies, as a consequence of a Dirac-point splitting. These
features rely on a symmetry analysis of the electron hopping between the two
layers of graphene and we derive a simplified effective low-energy Hamiltonian
which captures the essential topological properties of twisted bilayer
graphene. The corresponding Landau levels peculiarly reveal a degenerate
zero-energy mode which cannot be lifted by strong magnetic fields.Comment: 5 pages, 3 figures; published versio
Dissipative quantum systems modeled by a two level reservoir coupling
The coupling between a quantum dynamical system and a two-level system
reservoir is analysed within the framework of the Feynman-Vernon theory. We
stress the differences between this new reservoir and the well-known bath of
oscillators and show that, in order to obtain the Langevin equation for the
system of interest in the high temperature regime, we have to choose a spectral
distribution function which is finite for .Comment: 6 pages, RevteX, preprint UNICAM
Herborização de orgãos vegetais em condições refrigeradas.
bitstream/item/30308/1/boletim-39.pd
Bound states of bosons and fermions in a mixed vector-scalar coupling with unequal shapes for the potentials
The Klein-Gordon and the Dirac equations with vector and scalar potentials
are investigated under a more general condition, . These intrinsically relativistic and isospectral problems
are solved in a case of squared hyperbolic potential functions and bound states
for either particles or antiparticles are found. The eigenvalues and
eigenfuntions are discussed in some detail and the effective Compton wavelength
is revealed to be an important physical quantity. It is revealed that a boson
is better localized than a fermion when they have the same mass and are
subjected to the same potentials.Comment: 3 figure
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