Alireza Tabatabaei Mashayekh scite author profile

Alireza Tabatabaei Mashayekh

5Publications

37Citation Statements Received

77Citation Statements Given

How they've been cited

How they cite others

139

Affiliations

RWTH Aachen University, Politecnico di Milano

Publications

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Silicon nitride PIC-based multi-color laser engines for life science applications

et al. 2021

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We implement a multi-color laser engine with silicon nitride photonic integrated circuit technology, that combines four fluorophore excitation wavelengths (405 nm, 488 nm, 561 nm, 640 nm) and splits them with variable attenuation among two output fibers used for different microscope imaging modalities. With the help of photonic integrated circuit technology, the volume of the multi-color laser engine’s optics is reduced by two orders of magnitude compared to its commercially available discrete optics counterpart. Light multiplexing is implemented by means of a directional coupler based device and variable optical attenuation as well as fiber switching with thermally actuated Mach-Zehnder interferometers. Total insertion losses from lasers to output fibers are in the order of 6 dB at 488 nm, 561 nm, and 640 nm. Higher insertion losses at 405 nm can be further improved on. In addition to the system level results, spectrally resolved performance has been characterized for each of the developed devices.

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Investigating the effect of non-ideal conditions on the performance of a planar CH3NH3PbI3-based perovskite solar cell through SCAPS-1D simulation

Hosseini

Bahramgour

Sefidi

et al. 2022

Heliyon

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Miniaturized PIC multi-color laser engines for the life sciences

Mashayekh

Klos

Koch

et al. 2019

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We are reporting on a Multi-Color Laser Engine (MLE) multiplexing four wavelengths (405 nm, 488 nm, 561 nm, 640 nm) by means of a Photonic Integrated Circuit (PIC) with Silicon Nitride (SiN) waveguides. Multiple building blocks are tested that allow manipulating the light in the waveguides to achieve fiber switching and variable optical attenuation. To slow down facet degradation and extend chip lifetime at near Ultra-Violet (UV) wavelengths (405 nm), a lateral endcap is implemented on chip and tested for reliability. Reasonable coupling and on-chip losses have been achieved in view of a practical use of the technology.

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Performance Comparison of Different Hole Transport Layer Configurations in a Perovskite-based Solar Cell using SCAPS-1D Simulation

HOSSEİNİ¹,

Delibaş²,

Bahramgour³

et al. 2021

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Optical Arbitrary Waveform Measurement (OAWM) Using Silicon Photonic Slicing Filters

Fang

Zazzi

Mueller

et al. 2022

J. Lightwave Technol.

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