Introduction to Photonics: Principles and the Most Recent Applications of Microstructures
Light has found applications in data transmission, such as optical fibers and waveguides and in optoelectronics. It consists of a series of electromagnetic waves, with particle behavior. Photonics involves the proper use of light as a tool for the benefit of humans. It is derived from the root word...
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doaj-549dab7da48f48a79677dd4869f6f2e62020-11-25T02:16:54ZengMDPI AGMicromachines2072-666X2018-09-019945210.3390/mi9090452mi9090452Introduction to Photonics: Principles and the Most Recent Applications of MicrostructuresIraj Sadegh Amiri0Saaidal Razalli Bin Azzuhri1Muhammad Arif Jalil2Haryana Mohd Hairi3Jalil Ali4Montree Bunruangses5Preecha Yupapin6Division of Materials Science and Engineering, Boston University, Boston, MA 02215, USADepartment of Computer System & Technology, Faculty of Computer Science & Information Technology, University of Malaya, 50603 Kuala Lumpur, MalaysiaDepartment of Physics, Faculty of Science, Universiti Teknologi Malaysia, 81300 Johor Bahru, MalaysiaFaculty of Applied Sciences, Universiti Teknologi Mara, Pasir Gudang Campus, 81750 Johor, MalaysiaLaser Centre, IBNU SINA ISIR, Universiti Teknologi Malaysia, 81310 Johor Bahru, MalaysiaFaculty of Industrial Education, Rajamangala University of Technology Phranakorn, Bangkok 10300, ThailandComputational Optics Research Group, Advanced Institute of Materials Science, Ton Duc Thang University, District 7, Ho Chi Minh City, VietnamLight has found applications in data transmission, such as optical fibers and waveguides and in optoelectronics. It consists of a series of electromagnetic waves, with particle behavior. Photonics involves the proper use of light as a tool for the benefit of humans. It is derived from the root word “photon”, which connotes the tiniest entity of light analogous to an electron in electricity. Photonics have a broad range of scientific and technological applications that are practically limitless and include medical diagnostics, organic synthesis, communications, as well as fusion energy. This will enhance the quality of life in many areas such as communications and information technology, advanced manufacturing, defense, health, medicine, and energy. The signal transmission methods used in wireless photonic systems are digital baseband and RoF (Radio-over-Fiber) optical communication. Microwave photonics is considered to be one of the emerging research fields. The mid infrared (mid-IR) spectroscopy offers a principal means for biological structure analysis as well as nonintrusive measurements. There is a lower loss in the propagations involving waveguides. Waveguides have simple structures and are cost-efficient in comparison with optical fibers. These are important components due to their compactness, low profile, and many advantages over conventional metallic waveguides. Among the waveguides, optofluidic waveguides have been found to provide a very powerful foundation for building optofluidic sensors. These can be used to fabricate the biosensors based on fluorescence. In an optical fiber, the evanescent field excitation is employed to sense the environmental refractive index changes. Optical fibers as waveguides can be used as sensors to measure strain, temperature, pressure, displacements, vibrations, and other quantities by modifying a fiber. For some application areas, however, fiber-optic sensors are increasingly recognized as a technology with very interesting possibilities. In this review, we present the most common and recent applications of the optical fiber-based sensors. These kinds of sensors can be fabricated by a modification of the waveguide structures to enhance the evanescent field; therefore, direct interactions of the measurand with electromagnetic waves can be performed. In this research, the most recent applications of photonics components are studied and discussed.http://www.mdpi.com/2072-666X/9/9/452lightphotoncommunicationswaveguidesfibersbiosensors |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Iraj Sadegh Amiri Saaidal Razalli Bin Azzuhri Muhammad Arif Jalil Haryana Mohd Hairi Jalil Ali Montree Bunruangses Preecha Yupapin |
spellingShingle |
Iraj Sadegh Amiri Saaidal Razalli Bin Azzuhri Muhammad Arif Jalil Haryana Mohd Hairi Jalil Ali Montree Bunruangses Preecha Yupapin Introduction to Photonics: Principles and the Most Recent Applications of Microstructures Micromachines light photon communications waveguides fibers biosensors |
author_facet |
Iraj Sadegh Amiri Saaidal Razalli Bin Azzuhri Muhammad Arif Jalil Haryana Mohd Hairi Jalil Ali Montree Bunruangses Preecha Yupapin |
author_sort |
Iraj Sadegh Amiri |
title |
Introduction to Photonics: Principles and the Most Recent Applications of Microstructures |
title_short |
Introduction to Photonics: Principles and the Most Recent Applications of Microstructures |
title_full |
Introduction to Photonics: Principles and the Most Recent Applications of Microstructures |
title_fullStr |
Introduction to Photonics: Principles and the Most Recent Applications of Microstructures |
title_full_unstemmed |
Introduction to Photonics: Principles and the Most Recent Applications of Microstructures |
title_sort |
introduction to photonics: principles and the most recent applications of microstructures |
publisher |
MDPI AG |
series |
Micromachines |
issn |
2072-666X |
publishDate |
2018-09-01 |
description |
Light has found applications in data transmission, such as optical fibers and waveguides and in optoelectronics. It consists of a series of electromagnetic waves, with particle behavior. Photonics involves the proper use of light as a tool for the benefit of humans. It is derived from the root word “photon”, which connotes the tiniest entity of light analogous to an electron in electricity. Photonics have a broad range of scientific and technological applications that are practically limitless and include medical diagnostics, organic synthesis, communications, as well as fusion energy. This will enhance the quality of life in many areas such as communications and information technology, advanced manufacturing, defense, health, medicine, and energy. The signal transmission methods used in wireless photonic systems are digital baseband and RoF (Radio-over-Fiber) optical communication. Microwave photonics is considered to be one of the emerging research fields. The mid infrared (mid-IR) spectroscopy offers a principal means for biological structure analysis as well as nonintrusive measurements. There is a lower loss in the propagations involving waveguides. Waveguides have simple structures and are cost-efficient in comparison with optical fibers. These are important components due to their compactness, low profile, and many advantages over conventional metallic waveguides. Among the waveguides, optofluidic waveguides have been found to provide a very powerful foundation for building optofluidic sensors. These can be used to fabricate the biosensors based on fluorescence. In an optical fiber, the evanescent field excitation is employed to sense the environmental refractive index changes. Optical fibers as waveguides can be used as sensors to measure strain, temperature, pressure, displacements, vibrations, and other quantities by modifying a fiber. For some application areas, however, fiber-optic sensors are increasingly recognized as a technology with very interesting possibilities. In this review, we present the most common and recent applications of the optical fiber-based sensors. These kinds of sensors can be fabricated by a modification of the waveguide structures to enhance the evanescent field; therefore, direct interactions of the measurand with electromagnetic waves can be performed. In this research, the most recent applications of photonics components are studied and discussed. |
topic |
light photon communications waveguides fibers biosensors |
url |
http://www.mdpi.com/2072-666X/9/9/452 |
work_keys_str_mv |
AT irajsadeghamiri introductiontophotonicsprinciplesandthemostrecentapplicationsofmicrostructures AT saaidalrazallibinazzuhri introductiontophotonicsprinciplesandthemostrecentapplicationsofmicrostructures AT muhammadarifjalil introductiontophotonicsprinciplesandthemostrecentapplicationsofmicrostructures AT haryanamohdhairi introductiontophotonicsprinciplesandthemostrecentapplicationsofmicrostructures AT jalilali introductiontophotonicsprinciplesandthemostrecentapplicationsofmicrostructures AT montreebunruangses introductiontophotonicsprinciplesandthemostrecentapplicationsofmicrostructures AT preechayupapin introductiontophotonicsprinciplesandthemostrecentapplicationsofmicrostructures |
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