Your search keyword '"optoelectronic"' showing total 3 results

1. Design and simulation of a quantum dot-based optical using selective energy contacts to simultaneous detection of multi-wavelengths

Author

Hamid Heidarzadeh

Subjects

optical photodetector, quantum dots, simultaneous detection, selective energy contacts, wavelength, optoelectronic, Engineering design, TA174

Abstract

In this paper, selective energy contacts are used to design a multi-wavelength optical photodetector. Here, 3D spherical shape quantum dots with quantum well-based energy selective contacts are simulated. The introduced technique helps us to design a novel photodetector that can simultaneously detect multi-wavelengths. These wavelengths can include several ultraviolet wavelengths or several infrared wavelengths or a combination of them. This detection can be achieved by intera-band and inter-band transitions in quantum dot-based Super-lattices. To detect higher wavelengths, intra-band transmissions and for lower wavelengths, inter-band transmissions can be used. In this work, suitable energy selective contacts are designed using quantum wells. Also, quantum dots with different radii are used to detect multi-wavelengths simultaneously. Finally, as an application of this structure, the results have been presented for two quantum dots capable of simultaneous detection of two UV radiations, simultaneously. The detector can be further improved by applying several quantum dots with different sizes, shapes and materials and using more ESCs.

Published

2022

2. IncreasinIncluding MoS2 in Visible Rangeg Absorption of Rudin-Shapiro Quasi-Photonic Crystals

Author

Narges Ansari, Ensiyeh Mohebbi, and Kimiya Fallah

Subjects

Absorption Spectra, Rudin-Shapiro Quasi-Photonic Crystals, Photonic Crystals, Two Dimensional Material, optoelectronic, Lorentz Model, Molybdenum Disulfides, Transfer Matrix Methods

Abstract

Nowadays Molybdenum Disulfides (MoS2) have represented potential applications in optoelectronic devices which design of these devices is under debate in a wide optical range. In this paper , we design Rudin- Shapiro quasi-photonic crystals (quasi-PCs) based on Si3N4, SiO2 layer s and MoS2 monolayer s for increasing broadband and absorption spectr a. Optical proper ty of structures is calculated by Transfer matr ix method teoretically which refr active index of the MoS2 monolayer was determined based on the Lorentz model. Absorption of this structur e is achieved higher than 70% in visible range.

Published

2020

3. Increasing the Absorption and the Broadband Absorption TMDCs with Using Photonic Crystals

Author

Narges Ansari, Ensiyeh Mohebbi, and Kimiya Fallah

Subjects

Molybdenum disulfide, broadband absorption, Transition material dichalcogenide monolayers, photonic crystals, quasi-photonic crystals, absorption, Transfer matrix method, optoelectronic

Abstract

Nowadays transition material dichalcogenide (TMDC) two-dimensional crystals due to direct band gap and a significant absorption in the visible region have been highly regarded in optoelectronic devices. The use of TMDCs in photonic crystals will increase the absorption and performances of them. In this paper, in order to design a structure with high absorption in a wide range of wavelength, TMDCs wrapping impact in three photonic crystals including SiO2, Si3N4 and TMDC has been investigated by using the transfer matrix method. Four TMDCs contains Molybdenum disulfide (MoS2), Molybdenum diselenide (MoSe2), Tungsten disulfide (WS2) and Tungsten diselenide (WSe2) which in best structures we reached to absorption higher than 66% (92%) in range of 400-700 nm (400-530nm).

Published

2020