Theory and simulation of photogeneration and transport in Si-SiO<it><sub>x </sub></it>superlattice absorbers
<p>Abstract</p> <p>Si-SiO<it><sub>x </sub></it>superlattices are among the candidates that have been proposed as high band gap absorber material in all-Si tandem solar cell devices. Owing to the large potential barriers for photoexited charge carriers, trans...
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2011-01-01
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| Series: | Nanoscale Research Letters |
| Online Access: | http://www.nanoscalereslett.com/content/6/1/242 |
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doaj-54058addaa194ac088d1ef6b4def5e572020-11-24T23:01:48ZengSpringerOpenNanoscale Research Letters1931-75731556-276X2011-01-0161242Theory and simulation of photogeneration and transport in Si-SiO<it><sub>x </sub></it>superlattice absorbersAeberhard Urs<p>Abstract</p> <p>Si-SiO<it><sub>x </sub></it>superlattices are among the candidates that have been proposed as high band gap absorber material in all-Si tandem solar cell devices. Owing to the large potential barriers for photoexited charge carriers, transport in these devices is restricted to quantum-confined superlattice states. As a consequence of the finite number of wells and large built-in fields, the electronic spectrum can deviate considerably from the minibands of a regular superlattice. In this article, a quantum-kinetic theory based on the non-equilibrium Green's function formalism for an effective mass Hamiltonian is used for investigating photogeneration and transport in such devices for arbitrary geometry and operating conditions. By including the coupling of electrons to both photons and phonons, the theory is able to provide a microscopic picture of indirect generation, carrier relaxation, and inter-well transport mechanisms beyond the ballistic regime.</p> http://www.nanoscalereslett.com/content/6/1/242 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Aeberhard Urs |
| spellingShingle |
Aeberhard Urs Theory and simulation of photogeneration and transport in Si-SiO<it><sub>x </sub></it>superlattice absorbers Nanoscale Research Letters |
| author_facet |
Aeberhard Urs |
| author_sort |
Aeberhard Urs |
| title |
Theory and simulation of photogeneration and transport in Si-SiO<it><sub>x </sub></it>superlattice absorbers |
| title_short |
Theory and simulation of photogeneration and transport in Si-SiO<it><sub>x </sub></it>superlattice absorbers |
| title_full |
Theory and simulation of photogeneration and transport in Si-SiO<it><sub>x </sub></it>superlattice absorbers |
| title_fullStr |
Theory and simulation of photogeneration and transport in Si-SiO<it><sub>x </sub></it>superlattice absorbers |
| title_full_unstemmed |
Theory and simulation of photogeneration and transport in Si-SiO<it><sub>x </sub></it>superlattice absorbers |
| title_sort |
theory and simulation of photogeneration and transport in si-sio<it><sub>x </sub></it>superlattice absorbers |
| publisher |
SpringerOpen |
| series |
Nanoscale Research Letters |
| issn |
1931-7573 1556-276X |
| publishDate |
2011-01-01 |
| description |
<p>Abstract</p> <p>Si-SiO<it><sub>x </sub></it>superlattices are among the candidates that have been proposed as high band gap absorber material in all-Si tandem solar cell devices. Owing to the large potential barriers for photoexited charge carriers, transport in these devices is restricted to quantum-confined superlattice states. As a consequence of the finite number of wells and large built-in fields, the electronic spectrum can deviate considerably from the minibands of a regular superlattice. In this article, a quantum-kinetic theory based on the non-equilibrium Green's function formalism for an effective mass Hamiltonian is used for investigating photogeneration and transport in such devices for arbitrary geometry and operating conditions. By including the coupling of electrons to both photons and phonons, the theory is able to provide a microscopic picture of indirect generation, carrier relaxation, and inter-well transport mechanisms beyond the ballistic regime.</p> |
| url |
http://www.nanoscalereslett.com/content/6/1/242 |
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AT aeberhardurs theoryandsimulationofphotogenerationandtransportinsisioitsubxsubitsuperlatticeabsorbers |
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