552 research outputs found
Efficient temperature sensing using photoluminescence of Er/Ybimplanted GaN thin films
tThe luminescence characteristics of GaN films implanted with Er at low doses were evaluated. The defect-related yellow luminescence (YL) and green luminescence (GL) bands observed under direct excitationwith 488 nm were attributed to the transitions via different charge levels of the same defect. The quench-ing behavior of the luminescence intensity either with the temperature or concentration variation can beattributed to nonradiative energy transfer (ET) and/or charge transfer by trapping impurities. The tem-perature dependence of the YL band allowed us to identify the defect responsible for this emission. Thebest candidate for this defect was found to be a nitrogen-vacancy. A GaN sample co-doped with Er3+andYb3+ions was prepared, and its optical properties were analyzed. The incorporation of Yb3+improved thePL emission intensity in the visible region. This feature results from the efficient ET processes betweenthese two doping ions. The color coordinate analysis indicates that Er3+/Yb3+co-doped GaN semiconduc-tor emits light with color in the white-light region. To investigate the temperature sensing applicationof the synthesized co-doped semiconductor, the temperature-sensing performance was evaluated usingthe fluorescence intensity ratio technique in the temperature range 200–300K. The significant temper-ature sensitivity indicates its potential as a temperature sensing probe. The maximum sensitivity was15 × 10−4K−1at 200 K
From Cooper Pairs to Composite Bosons: A Generalized RPA Analysis of Collective Excitations
The evolution of the ground state and the excitation spectrum of the two and
three dimensional attractive Hubbard model is studied as the system evolves
from a Cooper pair regime for weak attraction to a composite boson regime for a
strong attraction.Comment: 20 pages RevTex, 7 figures on reques
Deviations from Fermi-liquid behavior above in 2D short coherence length superconductors
We show that there are qualitative differences between the temperature
dependence of the spin and charge correlations in the normal state of the 2D
attractive Hubbard model using quantum Monte Carlo simulations. The
one-particle density of states shows a pseudogap above \tc with a depleted
with decreasing . The susceptibility \cs and the low frequency spin
spectral weight track , which explains the spin-gap scaling: 1/T_1T \sim
\cs(T). However the charge channel is dominated by collective behavior and the
compressibility is -independent. This anomalous ``spin-charge
separation'' is shown to exist even at intermediate where the momentum
distribution n(\bk) gives evidence for degenerate Fermi system.Comment: 4 pages (twocolumn format), 5 Postscript figure
Possibility of p-wave pairing of composite fermions at
We find that for the pure Coulomb repulsion the composite Fermi sea at
is on the verge of an instability to triplet pairing of composite
fermions. It is argued that a transition into the paired state, described by a
Pfaffian wave function, may be induced if the short-range part of the
interaction is softened by increasing the thickness of the two-dimensional
electron system.Comment: 14 pages, 3 eps figures include
Half-Integral Spin-Singlet Quantum Hall Effect
We provide numerical evidence that the ground state of a short range
interaction model at is incompressible and spin-singlet for a wide
range of repulsive interactions. Furthermore it is accurately described by a
trial wave function studied earlier. For the Coulomb interaction we find that
this wave function provides a good description of the lowest lying spin-singlet
state, and propose that fractional quantum Hall effect would occur at
if this state became the global ground state.Comment: Latex 13 pages, 3 figures upon reques
Nonperturbative XY-model approach to strong coupling superconductivity in two and three dimensions
For an electron gas with delta-function attraction we investigate the
crossover from weak- to strong-coupling supercoductivity in two and three
dimensions. We derive analytic expressions for the stiffness of phase
fluctuations and set up effective XY-models which serve to determine
nonperturbatively the temperature of phase decoherence where superconductivity
breaks down. We find the transition temperature T_c as a monotonous function of
the coupling strength and carrier density both in two and three dimensions, and
give analytic formulas for the merging of the temperature of phase decoherence
with the temperature of pair formation in the weak-coupling limit.Comment: Few typos corrected. Emails that were sent to the address
[email protected] in June and July 1999 were lost in a computer crash, so if
your comments were not answered please send them once mor
Charge Density Wave in Two-Dimensional Electron Liquid in Weak Magnetic Field
We study the ground state of a clean two-dimensional electron liquid in a
weak magnetic field where lower Landau levels are completely filled
and the upper level is partially filled. It is shown that the electrons at the
upper Landau level form domains with filling factor equal to one and zero. The
domains alternate with a spatial period of order of the cyclotron radius, which
is much larger than the interparticle distance at the upper Landau level. The
one-particle density of states, which can be probed by tunneling experiments,
is shown to have a pseudogap linearly dependent on the magnetic field in the
limit of large .Comment: Several errors correcte
Electron Correlations in Partially Filled Lowest and Excited Landau Levels
The electron correlations near the half-filling of the lowest and excited
Landau levels (LL's) are studied using numerical diagonalization. It is shown
that in the low lying states electrons avoid pair states with relative angular
momenta corresponding to positive anharmonicity of the interaction
pseudopotential . In the lowest LL, the super-harmonic behavior of
causes Laughlin correlations (avoiding pairs with )
and the Laughlin-Jain series of incompressible ground states. In the first
excited LL, is harmonic at short range and a different series of
incompressible states results. Similar correlations occur in the paired
Moore-Read state and in the and
states, all having small total parentage from and 3 and large
parentage from . The and states are
different from Laughlin and states and, in finite
systems, occur at a different LL degeneracy (flux). The series of Laughlin
correlated states of electron pairs at ,
, , and is proposed, although only in the
state pairing has been confirmed numerically. In the second
excited LL, is sub-harmonic at short range and (near the
half-filling) the electrons group into spatially separated larger
droplets to minimize the number of strongly repulsive pair states at and 5.Comment: 10 pages, 8 figures, submitted to PR
Superconducting transitions from the pseudogap state: d-wave symmetry, lattice, and low-dimensional effects
We investigate the behavior of the superconducting transition temperature
within a previously developed BCS-Bose Einstein crossover picture. This
picture, based on a decoupling scheme of Kadanoff and Martin, further extended
by Patton, can be used to derive a simple form for the superconducting
transition temperature in the presence of a pseudogap. We extend previous work
which addressed the case of s-wave pairing in jellium, to explore the solutions
for T_c as a function of variable coupling in more physically relevant
situations. We thereby ascertain the effects of reduced dimensionality,
periodic lattices and a d-wave pairing interaction. Implications for the
cuprate superconductors are discussed.Comment: REVTeX, 11 pages, 6 EPS figures included, Replace with published
versio
Mean-field Phase Diagram of Two-Dimensional Electrons with Disorder in a Weak Magnetic Field
We study two-dimensional interacting electrons in a weak perpendicular
magnetic field with the filling factor and in the presence of a
quenched disorder. In the framework of the Hartree-Fock approximation, we
obtain the mean-field phase diagram for the partially filled highest Landau
level. We find that the CDW state can exist if the Landau level broadening
does not exceed the critical value .
Our analysis of weak crystallization corrections to the mean-field results
shows that these corrections are of the order of and
therefore can be neglected
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