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Electromagnetic theory of the coupling of zero-dimensional exciton and photon states: A quantum dot in a spherical microcavity (2001)
Journal Article
Kaliteevski, M., Brand, S., Abram, R., Nikolaev, V., Maximov, M., Sotomayor Torres, C., & Kavokin, A. (2001). Electromagnetic theory of the coupling of zero-dimensional exciton and photon states: A quantum dot in a spherical microcavity. Physical review B, 64(11), https://doi.org/10.1103/physrevb.64.115305

Exciton-light coupling in spherical microcavities containing quantum dots has been treated by means of classical electrodynamics within the nonlocal dielectric response model. Typical anticrossing behavior of zero-dimensional exciton-polariton modes... Read More about Electromagnetic theory of the coupling of zero-dimensional exciton and photon states: A quantum dot in a spherical microcavity.

Optical eigenmodes of a multilayered spherical microcavity (2001)
Journal Article
Kaliteevski, M., Brand, S., Abram, R., & Nikolaev, V. (2001). Optical eigenmodes of a multilayered spherical microcavity. Journal of Modern Optics, 48(9), 1503-1516. https://doi.org/10.1080/09500340108231779

The optical mode structure of a spherical microcavity has been investigated using a transfer matrix approach. We derive exact algebraic equations from which the frequencies of the optical eigenmodes of the two polarizations can be obtained, as well a... Read More about Optical eigenmodes of a multilayered spherical microcavity.

Bandgap structure of optical Fibonacci lattices after light diffraction (2001)
Journal Article
Kaliteevski, M., Nikolaev, V., Abram, R., & Brand, S. (2001). Bandgap structure of optical Fibonacci lattices after light diffraction. Optics and Spectroscopy, 91(1), 109-118. https://doi.org/10.1134/1.1388332

The modification of the bandgap structure of optical Fibonacci lattices that arises from an increase in the system size is analyzed. It is found that there is a minimum critical size of the Fibonacci lattice necessary to form a photonic bandgap. The... Read More about Bandgap structure of optical Fibonacci lattices after light diffraction.

The design of two-dimensional photonic quasicrystals by means of a Fourier transform method (2001)
Journal Article
Kaliteevski, M., Brand, S., Abram, R., Krauss, T., de La Rue, R., & Millar, P. (2001). The design of two-dimensional photonic quasicrystals by means of a Fourier transform method. Journal of Modern Optics, 48(1), 9-14. https://doi.org/10.1080/09500340108235149

We report a method of designing aperiodic photonic quasicrystals. The method is based on the recognition that the Fourier transform of the dielectric structure has a direct influence on the mode spectrum, and can be chosen to enhance the properties o... Read More about The design of two-dimensional photonic quasicrystals by means of a Fourier transform method.

Optical eigenmodes of a spherical microcavity (2001)
Journal Article
Abram, R., Brand, S., Kaliteevski, M., & Nikolaev, V. (2001). Optical eigenmodes of a spherical microcavity. physica status solidi (a) – applications and materials science, 183(1), 183-187. https://doi.org/10.1002/1521-396x%28200101%29183%3A1%3C183%3A%3Aaid-pssa183%3E3.0.co%3B2-t

The optical mode structure of a spherical microcavity has been investigated using a transfer matrix approach. Exact algebraic equations from which the frequencies of the optical eigenmodes of the two polarizations can be obtained, as well as approxim... Read More about Optical eigenmodes of a spherical microcavity.

Two-dimensional Penrose-tiled photonic quasicrystals: from diffraction pattern to band structure (2000)
Journal Article
Kaliteevski, M., Brand, S., Abram, R., Krauss, T., DeLa Rue, R., & Millar, P. (2000). Two-dimensional Penrose-tiled photonic quasicrystals: from diffraction pattern to band structure. Nanotechnology, 11(4), 274-280. https://doi.org/10.1088/0957-4484/11/4/316

We report measurements of the diffraction pattern of a two-dimensional photonic quasicrystal structure and use the set of plane waves defined by the diffraction pattern as the basis of a theoretical approach to calculate the photonic band structure o... Read More about Two-dimensional Penrose-tiled photonic quasicrystals: from diffraction pattern to band structure.

Two-dimensional Penrose-tiled photonic quasicrystals: diffraction of light and fractal density of modes (2000)
Journal Article
Kaliteevski, M., Brand, S., Abram, R., Krauss, T., de La Rue, R., & Millar, P. (2000). Two-dimensional Penrose-tiled photonic quasicrystals: diffraction of light and fractal density of modes. Journal of Modern Optics, 47(11), 1771-1778. https://doi.org/10.1080/09500340008232430

We report measurements of the diffraction pattern of a two-dimensional photonic quasicrystal structure. Using a set of plane waves defined by the diffraction pattern we introduce a theoretical approach for the calculation of the band structure which... Read More about Two-dimensional Penrose-tiled photonic quasicrystals: diffraction of light and fractal density of modes.

Direct calculation of k.p parameters for wurtzite AlN, GaN and InN (2000)
Journal Article
Dugdale, D., Brand, S., & Abram, R. (2000). Direct calculation of k.p parameters for wurtzite AlN, GaN and InN. Physical review B, 61(19), 12933-12938. https://doi.org/10.1103/physrevb.61.12933

Electronic band structure calculations have been performed for the wurtzite structures of AlN, GaN, and InN. In particular, the conventional k⋅p valence band parameters Ai (i=1–7) have been computed from initial empirical pseudopotential calculations... Read More about Direct calculation of k.p parameters for wurtzite AlN, GaN and InN.

Exciton polaritons in a cylindrical microcavity with an embedded quantum wire (2000)
Journal Article
Kaliteevski, M., Brand, S., Abram, R., Nikolaev, V., Maximov, M., Ledentsov, N., …Kavokin, A. (2000). Exciton polaritons in a cylindrical microcavity with an embedded quantum wire. Physical review B, 61(20), 13791-13797. https://doi.org/10.1103/physrevb.61.13791

Exciton-light coupling in cylindrical microcavities containing quantum wires has been treated by means of classical electrodynamics within the nonlocal dielectric response model. A typical anticrossing behavior of quasi-one-dimensional exciton-polari... Read More about Exciton polaritons in a cylindrical microcavity with an embedded quantum wire.

Determination of band structure parameters in nitride alloys for use in quantum well calculations (1999)
Journal Article
Dugdale, D., Brand, S., Abram, R., & Pugh, S. (1999). Determination of band structure parameters in nitride alloys for use in quantum well calculations. physica status solidi (b) – basic solid state physics, 216(1), 351-354. https://doi.org/10.1002/%28sici%291521-3951%28199911%29216%3A1%3C351%3A%3Aaid-pssb351%3E3.0.co%3B2-%23

The empirical pseudopotential method has been used to conduct band structure calculations on gallium and indium nitride and their alloys. Initially, the pseudopotential form factors required for the semi-empirical calculations were obtained using a M... Read More about Determination of band structure parameters in nitride alloys for use in quantum well calculations.