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Dynamics of the symmetric eigenvalue problem with shift strategies
A common algorithm for the computation of eigenvalues of real symmetric
tridiagonal matrices is the iteration of certain special maps called
shifted steps. Such maps preserve spectrum and a natural common domain is
, the manifold of real symmetric tridiagonal matrices
conjugate to the diagonal matrix . More precisely, a (generic) shift
s \in \RR defines a map . A
strategy \sigma: {\cal T}_\Lambda \to \RR specifies the shift to be applied
at so that . Good shift strategies should
lead to fast deflation: some off-diagonal coordinate tends to zero, allowing
for reducing of the problem to submatrices. For topological reasons, continuous
shift strategies do not obtain fast deflation; many standard strategies are
indeed discontinuous. Practical implementation only gives rise systematically
to bottom deflation, convergence to zero of the lowest off-diagonal entry
. For most shift strategies, convergence to zero of is cubic,
for . The existence of arithmetic
progressions in the spectrum of sometimes implies instead quadratic
convergence, . The complete integrability of the Toda lattice and the
dynamics at non-smooth points are central to our discussion. The text does not
assume knowledge of numerical linear algebra.Comment: 22 pages, 4 figures. This preprint borrows heavily from the
unpublished preprint arXiv:0912.3376 but is adapted for a different audienc
Increased cell efficiency in InGaAs thin film solar cells with dielectric and metal back reflectors
Compound single junction and multijunction solar
cells enable very high photovoltaic efficiencies by virtue of
employing different band gap materials in seriesconnected
tandem cells to access the full solar spectrum.
Researchers focused on improving the electrical properties
of solar cells by optimizing the material growth conditions,
however relatively little work to date has been devoted
to light trapping and enhanced absorption in III-V
compound solar cells using back reflectors. We studied
absorption enhancement in InGaAs and InGaAsP thin film
solar cells by means of numerical modeling. Flat dielectric
and metal back reflectors that might be introduced into the
solar cell via wafer-bonding, epitaxial lift-off or deposition
techniques have been shown to increase the short circuit
current and the photovoltaic efficiency of solar cells
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