Mančić, Ana M.

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Strong coupling regime of semiconductor quantum dot embedded in the nano-cavity

Stojanović-Krasić, Marija T.; Mančić, Ana M.; Kuzmanovic, Slavica; Đorić-Veljković, Snežana M.; Stepić, Milutin

(Belgrade : Vinča Institute of Nuclear Sciences, 2015) 

TY  - CONF
AU  - Stojanović-Krasić, Marija T.
AU  - Mančić, Ana M.
AU  - Kuzmanovic, Slavica
AU  - Đorić-Veljković, Snežana M.
AU  - Stepić, Milutin
PY  - 2015
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/12004
AB  - Photonic lattices represent suitable systems for investigation of wave propagation in periodic structures [1]. However, different unavoidable defects may arise either during their process of fabrication or as result of misusage, accidental damage, etc. Although undesirable in the first place, these imperfections enable the existence of different types of stable, localized defect modes [2]. In this paper, we investigate light propagation through composite photonic lattice composed of two identical linear and lossless lattices. The interface between them represents a geometric defect, while each lattice contains a single nonlinear defect that is placed symmetrically with respect to the interface. Depending on the input light beam parameters (its position, width and transverse tilt), the width of geometric defect, strength and position of the nonlinear defects, different dynamical regimes have been identified. These dynamical regimes are caused by the balance of photonic lattice potentials’ contributions originating from the presence of the geometric and two nonlinear defects. We have found numerically conditions under which dynamically stable bounded modes can exist in the area between nonlinear defects or between a nonlinear and a geometric defect. Various types of localized modes such as: two-hump, multi-hump, one- and multicomponent moving breathers localized at a certain area among defects have been observed. The parameters can be adjusted to capture light and to prevent light launched inside the area among defects to leave it, i.e. this corresponds to the appearance of the modes trapped inside this area. Since the configuration of the lattice prevents transmission of the light through the area confined by defects, these modes can formally be related to Fano resonances and Fano- blockade [3, 4]. When light is launched outside the area among defects, different dynamical regimes have been distinguished: total reflection, single and double partial reflection and full transmission through the area among defects. These numerical findings may lead to interesting applications such as blocking, filtering and transporting light beams through the optical medium. Photonic devices based on resonant tunneling such as waveguides interacting through the area between defects, may be applied as add-drop filters.
PB  - Belgrade : Vinča Institute of Nuclear Sciences
C3  - PHOTONICA2015 : 5th International School and Conference on Photonics and COST actions: MP1204, BM1205 and MP1205 : book of abstracts; August 24-28, 2015; Belgrade
T1  - Strong coupling regime of semiconductor quantum dot embedded in the nano-cavity
SP  - 70
EP  - 71
UR  - https://hdl.handle.net/21.15107/rcub_vinar_12004
ER  - 
@conference{
author = "Stojanović-Krasić, Marija T. and Mančić, Ana M. and Kuzmanovic, Slavica and Đorić-Veljković, Snežana M. and Stepić, Milutin",
year = "2015",
abstract = "Photonic lattices represent suitable systems for investigation of wave propagation in periodic structures [1]. However, different unavoidable defects may arise either during their process of fabrication or as result of misusage, accidental damage, etc. Although undesirable in the first place, these imperfections enable the existence of different types of stable, localized defect modes [2]. In this paper, we investigate light propagation through composite photonic lattice composed of two identical linear and lossless lattices. The interface between them represents a geometric defect, while each lattice contains a single nonlinear defect that is placed symmetrically with respect to the interface. Depending on the input light beam parameters (its position, width and transverse tilt), the width of geometric defect, strength and position of the nonlinear defects, different dynamical regimes have been identified. These dynamical regimes are caused by the balance of photonic lattice potentials’ contributions originating from the presence of the geometric and two nonlinear defects. We have found numerically conditions under which dynamically stable bounded modes can exist in the area between nonlinear defects or between a nonlinear and a geometric defect. Various types of localized modes such as: two-hump, multi-hump, one- and multicomponent moving breathers localized at a certain area among defects have been observed. The parameters can be adjusted to capture light and to prevent light launched inside the area among defects to leave it, i.e. this corresponds to the appearance of the modes trapped inside this area. Since the configuration of the lattice prevents transmission of the light through the area confined by defects, these modes can formally be related to Fano resonances and Fano- blockade [3, 4]. When light is launched outside the area among defects, different dynamical regimes have been distinguished: total reflection, single and double partial reflection and full transmission through the area among defects. These numerical findings may lead to interesting applications such as blocking, filtering and transporting light beams through the optical medium. Photonic devices based on resonant tunneling such as waveguides interacting through the area between defects, may be applied as add-drop filters.",
publisher = "Belgrade : Vinča Institute of Nuclear Sciences",
journal = "PHOTONICA2015 : 5th International School and Conference on Photonics and COST actions: MP1204, BM1205 and MP1205 : book of abstracts; August 24-28, 2015; Belgrade",
title = "Strong coupling regime of semiconductor quantum dot embedded in the nano-cavity",
pages = "70-71",
url = "https://hdl.handle.net/21.15107/rcub_vinar_12004"
}
Stojanović-Krasić, M. T., Mančić, A. M., Kuzmanovic, S., Đorić-Veljković, S. M.,& Stepić, M.. (2015). Strong coupling regime of semiconductor quantum dot embedded in the nano-cavity. in PHOTONICA2015 : 5th International School and Conference on Photonics and COST actions: MP1204, BM1205 and MP1205 : book of abstracts; August 24-28, 2015; Belgrade
Belgrade : Vinča Institute of Nuclear Sciences., 70-71.
https://hdl.handle.net/21.15107/rcub_vinar_12004
Stojanović-Krasić MT, Mančić AM, Kuzmanovic S, Đorić-Veljković SM, Stepić M. Strong coupling regime of semiconductor quantum dot embedded in the nano-cavity. in PHOTONICA2015 : 5th International School and Conference on Photonics and COST actions: MP1204, BM1205 and MP1205 : book of abstracts; August 24-28, 2015; Belgrade. 2015;:70-71.
https://hdl.handle.net/21.15107/rcub_vinar_12004 .
Stojanović-Krasić, Marija T., Mančić, Ana M., Kuzmanovic, Slavica, Đorić-Veljković, Snežana M., Stepić, Milutin, "Strong coupling regime of semiconductor quantum dot embedded in the nano-cavity" in PHOTONICA2015 : 5th International School and Conference on Photonics and COST actions: MP1204, BM1205 and MP1205 : book of abstracts; August 24-28, 2015; Belgrade (2015):70-71,
https://hdl.handle.net/21.15107/rcub_vinar_12004 .