Your search keyword '"Trung Thanh Le"' showing total 14 results

1. Highly Sensitive Optical Sensor Based on Resonance Shift Mechanism for Seawater Salinity Sensing integrated with Wireless Sensor Networks

Author

Duy Tien Le, Tuan Anh Nguyen, and Trung Thanh Le

Subjects

Materials science, Silicon, business.industry, Physics::Optics, chemistry.chemical_element, law.invention, Mechanism (engineering), Wavelength, Resonator, chemistry, law, Computer Science::Networking and Internet Architecture, Optoelectronics, Seawater, Sensitivity (control systems), business, Waveguide, Wireless sensor network

Abstract

We present a new configuration based on multimode interference with a microring resonator feedback waveguide. The proposed configuration can create a deep Fano shape and provide a high sensitive sensor structure. In this paper, we is applied to seawater salinity sensor with a high sensitivity. We also propose an approach for these optical sensors integated with wireless sensor networks for online and real-time applications. The sensor structure can provide a sensitivity of 581nm/RIU based on wavelength shift based mechanism. We use silicon waveguides for the whole sensor designs and working at operating wavelength of 1550nm.

Published

2021

2. Optical Integrated Sensor Based on 2×4 Multimode Interference Coupler and Intensity Mechanism with a High Sensitivity

Author

Van Hach Nguyen, Trung Thanh Le, Tuan Anh Nguyen, and Duy Tien Le

Subjects

Resonator, Wavelength, Interferometry, Materials science, business.industry, Optoelectronics, Silicon on insulator, Sensitivity (control systems), business, Mach–Zehnder interferometer, Interference (wave propagation), Waveguide (optics)

Abstract

We propose a new structure for generating a Fano shape. This structure can be applied to design an optical sensor with a high sensitivity based on intensity mechanism using a 2×4 multimode interference (MMI) coupler. The sensor structure can provide a very sensitivity (higher than 10 times) compared with the traditional structure based on Mach Zehnder interferometer (MZI) and microring resonators (MRR). For CMOS compatibility, we use silicon on insluator (SOI) waveguide for the whole sensor designs. The sensing structure can work at operating wavelength of 1550nm, that is suitable for fiber-optic communication and real-time measurement applications.

Published

2021

3. Generation of PAM-4 Signals Based on a 2x4 MMI Coupler for Optical Interconnect Systems and Data Center Networks

Author

Duy Tien Le, Ngoc Minh Nguyen, and Trung Thanh Le

Subjects

Footprint (electronics), Very-large-scale integration, Resonator, Silicon photonics, Materials science, business.industry, Pulse-amplitude modulation, Optical interconnect, Phase (waves), Optoelectronics, Data center, business

Abstract

This research presents a new method for generation of multilevel pulse amplitude modulation (PAM-4) signals for optical interconnects and data center networks. The new approach uses multimode interference (MMI) structure with two phase shifters in push-pull configuration instead of microring resonators and two couplers as shown in the literature. Based on this structure, an extreme high bandwidth and compact footprint can be achieved. The whole device is designed and analyzed using the existing VLSI silicon photonics.

Published

2021

4. High FSR and Critical Coupling Control of Microring Resonator Based on Graphene-Silicon Multimode Waveguides

Author

Trung-Thanh Le and Duy-Tien Le

Subjects

Coupling, Resonator, Materials science, Silicon, chemistry, Graphene, law, business.industry, chemistry.chemical_element, Optoelectronics, business, law.invention, Multimode waveguides

Published

2020

5. Two-channel highly sensitive sensors based on 4 × 4 multimode interference couplers

Author

Trung-Thanh Le

Subjects

lcsh:Applied optics. Photonics, Materials science, Channel (digital image), Silicon, Transfer-matrix method (optics), chemistry.chemical_element, 02 engineering and technology, high sensitivity, 01 natural sciences, optical microring resonators, 010309 optics, Resonator, 020210 optoelectronics & photonics, Optics, transfer matrix method, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Multimode interference, Sensitivity (control systems), Detection limit, business.industry, Biological sensors, chemical sensors, lcsh:TA1501-1820, multimode interference, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Highly sensitive, chemistry, business

Abstract

We propose a new kind of microring resonators (MRR) based on 4 × 4 multimode interference (MMI) couplers for multichannel and highly sensitive chemical and biological sensors. The proposed sensor structure has advantages of compactness and high sensitivity compared with the reported sensing structures. By using the transfer matrix method (TMM) and numerical simulations, the designs of the sensor based on silicon waveguides are optimized and demonstrated in detail. We apply our structure to detect glucose and ethanol concentrations simultaneously. A high sensitivity of 9000 nm/RIU, detection limit of 2 × 10‒4 for glucose sensing and sensitivity of 6000 nm/RIU, detection limit of 1.3 × 10‒5 for ethanol sensing are achieved.

Published

2017

6. Fast and slow light enhancement using cascaded microring resonators with the Sagnac reflector

Author

Manh-Cuong Nguyen, Duy-Tien Le, and Trung-Thanh Le

Subjects

Physics, Coupling, business.industry, Finite-difference time-domain method, Phase (waves), Physics::Optics, Reflector (antenna), 02 engineering and technology, Slow light, 01 natural sciences, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Pulse (physics), 010309 optics, Resonator, 020210 optoelectronics & photonics, Optics, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, Electrical and Electronic Engineering, business, Group delay and phase delay

Abstract

A cascaded microring resonator based on silicon waveguides with an MMI (Multimode Interference) based Sagnac reflector is proposed in this study. By controlling the coupling coefficients with the used of the MMI based Sagnac reflector, the double of both pulse delay and advancement for the slow and fast light can be achieved. The new structure can produce the fast and slow light phenomenon on one chip with a double of the time delay and pulse advancement. By using the Sagnac reflector, the device is very compact. Transfer matrix method and FDTD (Finite Difference Time Domain) simulation are used to obtain the characteristics of the device. The transmission, phase, group delay and pulse propagation are analyzed in detail. Our FDTD simulations show a good agreement with the analytical theory.

Published

2017

7. Glucose sensor based on 4×4 multimode interference coupler with microring resonators

Author

Trung-Thanh Le and Thi-Thuy Bui

Subjects

Resonator, Analyte, Interferometry, Optics, Materials science, business.industry, Figure of merit, Wavelength shift, Multimode interference, business, Sensitivity (electronics), Waveguide (optics)

Abstract

We propose a novel optical integrated structure using only one 4×4 multimode interference (MMI) coupler with support of two microring resonators for glucose sensor. Due to the presence of the analyte, the wavelength shift of the output spectrum is realized. Our structure can provide a high sensitivity, low detection limit and good figure of merit (FoM).

Published

2017

8. Two channel highly sensitive sensors based on 4×4 multimode interference coupler

Author

Thi-Thuy Bui and Trung-Thanh Le

Subjects

Resonator, Materials science, business.industry, Transfer-matrix method (optics), Optoelectronics, Multimode interference, Sensitivity (control systems), Optical refraction, Silicon nanowires, business, Highly sensitive, Communication channel

Abstract

A new microring resonators (MRR) based on 4×4 multimode interference (MMI) couplers for multichannel and highly sensitive chemical and biological sensors is proposed in this paper. The proposed sensor structure has advantages of compactness, high sensitivity compared with the reported sensing structures. By using the transfer matrix method (TMM) and numerical simulations, the designs of the sensor based on silicon nanowires are optimized and demonstrated in detail. The glucose and ethanol sensing by using our structure is investigated.

Published

2017

9. Generation of two Fano resonances using 4×4 multimode interference structures on silicon waveguides

Author

Laurence W. Cahill and Trung-Thanh Le

Subjects

Physics, business.industry, Electromagnetically induced transparency, Transfer-matrix method (optics), Phase (waves), Fano resonance, Fano plane, Mach–Zehnder interferometer, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Resonator, Optics, Beam propagation method, Optoelectronics, Electrical and Electronic Engineering, Physical and Theoretical Chemistry, business

Abstract

We propose a novel microring resonator coupled 4×4 generalized Mach Zehnder interferometer (GMZI) structure to produce Fano resonance line shapes. The structure can produce two independent Fano resonance line shapes. Two phase shifters are introduced in two arms of the 4×4 GMZI to control the variation of the Fano line shapes. The other aim of this study is to use silicon waveguides, that are compatible with the existing CMOS (Complementary Metal-Oxide-Semiconductor) fabrication technology, for designing the proposed devices. The transfer matrix method (TMM) and beam propagation method (BPM) are used for analytical analysis and first order design of the device. Finally, we discuss potential applications of the new device for sensing, all-optical switching applications and generation of electromagnetically induced transparency (EIT) effect.

Published

2013

10. Power splitting ratio couplers based on MMI structures with high bandwidth and large tolerance using silicon waveguides

Author

Cao-Dung Truong and Trung-Thanh Le

Subjects

Fabrication, Materials science, business.industry, Photonic integrated circuit, Transfer-matrix method (optics), Condensed Matter Physics, Mach–Zehnder interferometer, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, law.invention, Resonator, Optics, CMOS, Hardware and Architecture, Beam propagation method, law, Optoelectronics, Electrical and Electronic Engineering, business, Waveguide

Abstract

We show that it is possible to obtain 2 × 2 couplers based on multimode interference (MMI) structures with nineteen new power-splitting ratios by cascading three or four MMI couplers. The other aim of this study is to use silicon waveguides, that are compatible with the existing CMOS (Complementary Metal-Oxide-Semiconductor) fabrication technology, for designing the proposed devices. The proposed MMI couplers with new power splitting ratios have simple geometries and low losses. These MMI couplers can offer valuable new possibilities for designing MMI waveguide-based photonic integrated circuits such as all-optical interconnects, microring resonators, clock distribution, Mach Zehnder Interferometer based on MMI couplers and other all-optical processing applications. The transfer matrix method (TMM) and modified effective index method (MEIM) along with the support of the 3D Beam Propagation Method (3D BPM) are used to optimize the proposed devices.

Published

2013

11. Electromagnetically Induced Transparency (EIT) Like Transmission Based on 3 × 3 Cascaded Multimode Interference Resonators

Author

Trung-Thanh Le

Subjects

Electromagnetically induced transparency, lcsh:Mechanical engineering and machinery, transfer matrix method (TMM), Physics::Optics, 02 engineering and technology, optical microring resonator, Coupled mode theory, 01 natural sciences, Article, law.invention, 010309 optics, Resonator, law, 0103 physical sciences, lcsh:TJ1-1570, Electrical and Electronic Engineering, electromagnetically induced transparency (EIT), Physics, business.industry, Mechanical Engineering, multimode interference (MMI), Fano resonance, 021001 nanoscience & nanotechnology, Transfer matrix, beam propagation method (BPM), CMOS, Transmission (telecommunications), finite difference time difference (FDTD), Control and Systems Engineering, Optoelectronics, 0210 nano-technology, business, Waveguide

Abstract

We propose a method for generating the electromagnetically induced transparency (EIT) like-transmission by using microring resonator based on cascaded 3 &times, 3 multimode interference (MMI) structures. Based on the Fano resonance unit created from a 3 &times, 3 MMI coupler with a feedback waveguide, two schemes of two coupled Fano resonator unit (FRU) are investigated to generate the EIT like transmission. The theoretical and numerical analysis based on the coupled mode theory and transfer matrix is used for the designs. Our proposed structure has advantages of compactness and ease of fabrication. We use silicon waveguide for the design of the whole device so it is compatible with the existing Complementary Metal-Oxide-Semiconductor (CMOS) circuitry foundry. The fabrication tolerance and design parameters are also investigated in this study.

Published

2018

12. Silicon on Insulator Microring Resonators with Feedback Waveguides for Highly Sensitive Biomedical Sensors

Author

Trung-Thanh Le

Subjects

Coupling, Resonator, Materials science, business.industry, Beam propagation method, Transfer-matrix method (optics), Physics::Optics, Fano resonance, Power dividers and directional couplers, Silicon on insulator, Optoelectronics, Sensitivity (control systems), business

Abstract

A novel sensing structure based on microring resonators with feedback using silicon waveguides is proposed in this paper. The proposed structure can produce a sharp asymmetric Fano resonance line shape, in which the slope between the zero and the unity transmission is greatly enhanced, comparing with that of the conventional microring resonators. As a result, biological sensors using this structure can provide a high sensitivity. In addition, multimode interference (MMI) couplers are employed as coupling elements instead of using directional couplers in the microring resonators. MMI couplers have shown to have relaxed fabrication requirements, simplicity, compactness and are less sensitive to the wavelength. The analytical description of output spectrum response of the proposed sensor is analyzed and derived. The transfer matrix method (TMM) and beam propagation method (BPM) are used to optimally design the sensor structure.

Published

2013

13. Realization of a Multichannel Chemical and BiologicalSensor Using 6x6 Multimode Interference Structures

Author

Trung-Thanh Le

Subjects

Optical fiber, Materials science, business.industry, Physics::Optics, Cladding (fiber optics), Waveguide (optics), law.invention, Resonator, Interferometry, Fiber Bragg grating, law, Optoelectronics, Power dividers and directional couplers, business, Refractive index

Abstract

A new mirroring resonators (MRR) based on 6x6 multimode interference (MMI) couplers for multichannel and highly sensitive chemical and biological sensors is proposed in this paper. The proposed sensor structure has advantages of compactness, high sensitivity compared with the reported sensing structures. By using the transfer matrix method (TMM) and numerical simulations, the designs of the sensor based on silicon nanowires are optimized and demonstrated in detail. Current approaches to the real time analysis of chemical and biological sensing applications utilize systematic approaches such as mass spectrometry for detection. Such systems are expensive, heavy and cannot monolithically integrated in one single chip (1). Electronic sensors use metallic probes which produces electro magnetic noise, which can disturb the electro magnetic field being measured. This can be avoided in the case of using optical sensors. Optical sensors are very attractive due to their advantages of high sensitivity and ultra-wide bandwidth. A large class of optical sensors based on optical fibre and waveguides uses evanescent wave to monitor the presence of the analyte in the environment. Detection can be made by the optical absorption of the analytes, optic spectroscopy or the refractive index change (1). The two former methods can be directly obtained by measuring optical intensity. The third method is to monitor various chemical and biological systems via sensing of the change in refractive index (2). Optical waveguide devices can perform as refractive index sensors particularly when the analyte becomes a physical part of the device, such as waveguide cladding. In this case, the evanescent portion of the guided mode within the cladding will overlap and interact with the analyte. The measurement of the refractive index change of the guided mode of the optical waveguides requires a special structure to convert the refractive index change into detectable signals. A number of refractive index sensors based on optical waveguide structures have been reported, including Bragg grating sensors, directional coupler sensors, Mach- Zehnder interferometer (MZI) sensors, microring resonator sensors and surface plasmon resonance sensors (1-5).

Published

2011

14. Photonic Signal Processing Using MMI Coupler-Based Microring Resonators

Author

Laurence W. Cahill and Trung-Thanh Le

Subjects

Resonator, Materials science, Optics, business.industry, Size reduction, Optoelectronics, Integrated optics, Multimode interference, business, Photonic signal processing

Abstract

Some novel configurations for microring resonators, based on MMI couplers, that are suitable for photonic signal processing applications. A number of relevant design issues are discussed. As an example, a microring resonator based on 3x3 MMI couplers has been designed; simulation results show that such a device has the potential advantages of high performance and size reduction.

Published

2007