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34 results on '"Parsanasab, Gholam-Mohammad"'

1. Design and Fabrication of a Differential MOEMS Accelerometer Based on Fabry Perot micro-cavities

Author

Rahimi, Mojtaba, Malekmohammad, Mohammad, Taghavi, Majid, and, Mohammad Noori, and Parsanasab, Gholam Mohammad

Subjects
Physics - Applied Physics, Physics - Optics
Abstract

In this paper, a differential MOEMS accelerometer based on the Fabry-Perot (FP) micro-cavities is presented. The optical system of the device consists of two FP cavities and the mechanical system is composed of a proof mass that is suspended by four springs. The applied acceleration tends to move the PM from its resting position. This mechanical displacement can be measured by the FP interferometer formed between the proof mass cross-section and the optical fiber end face. The proposed sensor is fabricated on a silicon on insulator (SOI) wafer using the bulk micromachining method. The results of the sensor characterization show that the accelerometer has a linear response in the range of 1g. Also, the optical sensitivity and resolution of the sensor in the static characterization are 6.52 nm/g and 153ug. The sensor sensitivity in the power measurement is 49.6 mV/g and its resonant is at 1372 Hz. Using the differential measurement method increases the sensitivity of the accelerometer. Based on experimental data, the sensor sensitivity is two times as high as that of a similar MOEMS accelerometer with one FP cavity., Comment: arXiv admin note: text overlap with arXiv:2202.05153

Published
2022
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2. Closed-Loop MOEMS Accelerometer

Author

Taghavi, Majid, Abedi, Abolfazl, Parsanasab, Gholam-Mohammad, Rahimi, Mojtaba, Noori, Mohammad, Nourolahi, Hamzeh, and latifi, hamid

Subjects
Physics - Applied Physics, Physics - Optics
Abstract

In this paper, a closed-loop micro-opto-electro-mechanical system (MOEMS) accelerometer based on the Fabry-P\'erot (FP) interferometer is presented. The FP cavity is formed between the end of a cleaved single-mode optical fiber and the cross-section of a proof mass (PM) which is suspended by four U-shaped springs. The applied acceleration tends to move the PM in the opposite direction. The arrays of fixed and movable comb fingers produce an electrostatic force which keeps the PM in its resting position. The voltage that can provide this electrostatic force is considered as the output of the sensor. Using a closed-loop detection method it is possible to increase the measurement range without losing the resolution. The proposed sensor is fabricated on a silicon-on-insulator wafer using the bulk micromachining method. The results of the sensor characterization show that the accelerometer has a linear response in the range of 5 g. In the closed-loop mode, the sensitivity and bias instability of the sensor are 1.16 V/g and 40 g, respectively.

Published
2022
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4. A High Extinction Ratio Plasmonic Waveguide Polarizer

Author

Malekzadeh, Peyman, Parsanasab, Gholam-Mohammad, Nikbakht, Hamed, and Mohajerani, Ezeddin

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

A novel method for increasing the extinction ratio of plasmonic waveguide polarizer has been investigated in this work. Aluminum was coated in a 20 microns multi-strips pattern on the top of a SU-8 waveguide to excite the surface plasmons. Simulation and experimental results have been shown the extinction ratio of the multi-strip polarizer is more than the single strip ones with the same total aluminum-coated length due to the coupling loss between Al coated and uncoated region and also the scattering at the edge of metal. This polarizer was characterized over a wide range of wavelengths and showed a high extinction ratio of 46 dB at 1550 nm and 26.8 dB at 980 nm wavelengths.

Published
2020
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14. Wavelength-Selective Single-Mode Laser by Joint Use of Parity-Time Symmetry and Vernier Effect in Symmetric and Asymmetric Coupled Microrings

Author

Jahangiri, Milad, Parsanasab, Gholam-Mohammad, and Moradiani, Fatemeh

Abstract

The Control of the gain and loss in microcavities, especially microrings, and discs, plays a crucial role in harnessing the excited modes in these types of microlasers. In multi-microring configurations, the Vernier effect eliminates various excited modes within the system, while simultaneously strengthening and producing many latitudinal modes. The implementation of the spectral Vernier effect involves the utilization of two coupled asymmetric microrings to enhance the effective free spectral range (FSR). By carefully balancing the gain/loss ratio and breaking parity-time symmetry, these latitudinal modes can be extensively suppressed, resulting in the single-mode lasing operation. Here, we have successfully demonstrated that wavelength-selective single-frequency lasing can be achieved in structures consisting of two coupled size-mismatched microrings by simultaneously employing the Vernier effect and broken parity-time (PT) symmetry. By controlling the gain/loss ratio through pump variations, the gain can adapt to changes in single-mode lasing wavelength, while the loss effectively suppresses numerous excited modes, leaving only a dominant mode. Thanks to gap engineering, the single-mode lasing based on broken parity-time symmetry at different wavelengths occurs by changing the air gap between two symmetric microrings. The proposed structures have been thoroughly analyzed both experimentally and numerically. Our findings can contribute to a deeper understanding of the spectral modulation process in coupled microrings lasers, offering valuable insights for future research in this field.

Published
2024
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15. Highly Efficient DFB Laser-Assisted Grating As2S3 Chalcogenide for Integrated Photonics

Author

Mafakheri, Afshin, Parsanasab, Gholam-Mohammad, Sorayaie, Parvin, Mostajeran, Samaneh, Akbari, Ladan, and Kolahdouz, Mohammadreza

Abstract

Chalcogenide (As2S3) is a material with promising applications in integrated photonics. This material has the potential for low-threshold, compact, and high-coherence light sources. Our team has developed a chalcogenide-based distributed feedback (DFB) laser using a ridge polymer waveguide structure, incorporating a 500 nm As2S3 grating as the wavelength selective element. With precise engineering of the DFB laser structure, we have achieved single-mode lasing with an 18 nJ lasing threshold and a side mode suppression ratio (SMSR) of 28 dB. Additionally, we have found that the single-mode lasing persists over a wide range of pump power energy. To validate our experimental results, we performed a numerical simulation of the proposed structure, which confirmed experimental results.

Published
2024
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22. Closed-loop MOEMS accelerometer

Author

Taghavi, Majid, primary, Abedi, Abolfazl, additional, Parsanasab, Gholam-Mohammad, additional, Rahimi, Mojtaba, additional, Noori, Mohammad, additional, Nourolahi, Hamzeh, additional, and Latifi, Hamid, additional

Published
2022
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23. A Closed-Loop MOEMS Accelerometer

Author

Taghavi, Majid, Abedi, Abolfazl, Parsanasab, Gholam-Mohammad, Rahimi, Mojtaba, Noori, Mohammad, Nourolahi, Hamzeh, and latifi, hamid

Subjects
FOS: Physical sciences, Applied Physics (physics.app-ph), Optics (physics.optics)
Abstract

In this paper, a closed-loop micro-opto-electro-mechanical system (MOEMS) accelerometer based on the Fabry-P��rot (FP) interferometer is presented. The FP cavity is formed between the end of a cleaved single-mode optical fiber and the cross-section of a proof mass (PM) which is suspended by four U-shaped springs. The applied acceleration tends to move the PM in the opposite direction. The arrays of fixed and movable comb fingers produce an electrostatic force which keeps the PM in its resting position. The voltage that can provide this electrostatic force is considered as the output of the sensor. Using a closed-loop detection method simultaneously increases the measurement range and sensitivity of the accelerometer. The proposed sensor is fabricated on a silicon-on-insulator wafer using the bulk micromachining method. The results of the sensor characterization show that the accelerometer has a linear response in the range of 5 g. In the closed-loop mode, the sensitivity and bias stability of the sensor are 1.16 V/g and 40 ug, respectively.

Published
2022
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26. A Dual-Axis MOEMS Accelerometer

Author

Taghavi, Majid, primary, Latifi, Hamid, additional, Parsanasab, Gholam Mohammad, additional, Abedi, Abolfazl, additional, Nikbakht, Hamed, additional, and Poorghadiri, Mohammad Hosein, additional

Published
2021
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27. Two-dimensional photonic crystal for optical channel separation in azo polymers

Author

Karimi-Alavijeh, Hamidreza, Parsanasab, Gholam-Mohammad, Baghban, Mohammad-Amin, and Gharavi, Alireza

Subjects
Nanocrystals -- Usage, Crystal optics -- Research, Astronomy, Physics
Abstract

We have fabricated a two-dimensional photonic crystal that functions as a two-channel add/drop filter on azo-functionalized polymeric films using a fast, direct-writing method. By properly adjusting the resonance, this structure can be used as a multichannel add/drop filter in the plane of the film. Here, we were able to separate two channels at 1555.7 and 1570.7 nm with attenuation of 13.1 dB and FWHM of 67 nm for each channel. The separated channels were directed towards the sides at an approximately 90[degrees] angle with respect to the input direction. OCIS codes: 230.5298, 130.3120, 130.3130.

Published
2009

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