Aims & Scope

International Journal of Optics and Photonic Engineering is an Open Access, peer reviewed, academic Journal promoting the various interdisciplinary aspects of Optic and Photonic Engineering.

The Journal focuses upon publishing various aspects under the scope of Geometrical and Physical Optics, Optic Materials and Thin Films, Laser Engineering, Optical and Opto Mechanical Devices, Integrated Optics and Photonics, Coherent Optics and Holography, Optics Laboratory, Multispectral and Infrared Imaging, Nonlinear Optics, Opto Mechanical System Design, Optical Fiber Communication, Laser Engineering, Quantum optics, Quantum Computation, Wave Optical Components, Nano Photonics, Atmospheric and Ocean Optics, Diffractive Optics, Photolithography, Semiconductor Optics, Biomedical optics, Astro Optics, Laser Physics, Optical System Design, Nanotechnology, Incoherent Light Sources, Laser Engineering, Laser Material Processing, Quantum Optics, etc.

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The Journal considers various articles such as Original Article, Reviews, Mini Reviews, Commentaries, etc., for possible publication. We focus upon bringing the new thoughts a perfect platform to share, learn and contribute. The Journal is dedicated to provide high scientific quality articles, high visibility, broad readership, rigorous peer review, rapid publication and standard production and copyediting. Please contact us with any questions or comments you may have. Send E-mail

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Editorial Board


NAME TITLE UNIVERSITY BIOGRAPHY

Athanasios V. Vasilakos

Professor


Lulea University of Technology
Sweden

Athanasios V. Vasilakos is currently Professor at Lulea University of Technology, Sweden,Computer Science Dept. He has authored or co-authored over 250 technical papers in major international journals and conferences. He is author/coauthor of five books and 20 book chapters. view full biography...

Athanasios V. Vasilakos is currently Professor at Lulea University of Technology, Sweden,Computer Science Dept. He has authored or co-authored over 250 technical papers in major international journals and conferences. He is author/coauthor of five books and 20 book chapters.

Dr. Vasilakos Main Research include Networking ,Optical Networks, Mobile and Pervasive Computing, Sensor Nets, Body Area Networks, Distributed Systems, Cloud Computing, Security, Big Data, Big Data in Energy Management, Cyber Physical Systems, Smart Grids, Demand Response Management in Smart Grids , Energy Security, Energy Trading/Management, Energy Exchange among Microgrids ,Energy Internet, Energy Efficiency in Data Centres, Energy Efficiency in Networks and Energy Harvesting, Game Theory/Optimization and its application in Energy Management, Systems Prototypes, Molecular NanoBionetworks(bio-cyber-physical systems).

Prof. Vasilakos has served as General Chair, Technical Program Committee Chair for many international conferences.

Benny Cheung

Professor


Hong Kong Polytechnic University (PolyU)
Hong Kong

Dr. Benny C.F. Cheung is a Professor in Department of Industrial and Systems Engineering (ISE) of The Hong Kong Polytechnic University (PolyU). Currently, he is an Associate Head of the Partner State Key Laboratory of Ultra-precision Machining Technology, view full biography...

Dr. Benny C.F. Cheung is a Professor in Department of Industrial and Systems Engineering (ISE) of The Hong Kong Polytechnic University (PolyU). Currently, he is an Associate Head of the Partner State Key Laboratory of Ultra-precision Machining Technology, and also Associate Director of the Advanced Optics Manufacturing Centre, Knowledge Management and Innovation Research Centre in PolyU. Dr. Cheung is also an associate member of the International Academy for Production Engineering (CIRP).

Dr. Cheung holds various honorary positions in other universities and professional bodies including Distinguished Professorship of Guangdong University of Technology, Adjunct Professorship of Harbin Institute of Technology Shenzhen Graduate School and Changchun University of Science and Technology, Board Membership of the Asian Society for Precision Engineering and Nanotechnology (ASPEN), etc., Dr. Cheung is a recipient of many research prizes and awards such as the 2008 ASAIHL-Scopus Young Scientist Awards - First Runner Up Prize in the category of "Engineering and Technology", a Gold Medal in the 36th International Exhibition Inventions New Techniques & Products in Geneva in 2008, Technology Progress Award (Second Class) from the Ministry of Education in the PRC in 2009, Natural Science Award (Second Class) from the Ministry of Education in the PRC in 2010 and 2011, and Joseph Whitworth Prize 2010 by the Manufacturing Industrial Division of Institution of Mechanical Engineers (IMechE), UK in 2011, etc.

Research interests: Precision Engineering, Ultra-precision Machining, Advanced Optics Manufacturing, Precision Surface Metrology, Knowledge and Technology Management.

Guiren Wang

Associate Professor


University of South Carolina
United States of America

Dr. Guiren Wang is an associate professor in Department of Mechanical Engineering & Biomedical Engineering Program at University of South Carolina, USA. Dr. Wang had a strong background in multidisciplinary fields, including lab-on-a-chip based on nano/microfluidics; far field, view full biography...

Dr. Guiren Wang is an associate professor in Department of Mechanical Engineering & Biomedical Engineering Program at University of South Carolina, USA. Dr. Wang had a strong background in multidisciplinary fields, including lab-on-a-chip based on nano/microfluidics; far field, two tunable femto-lasers based optical nanoscopic system for in situ, 3D nanoscale measurement, super resolution cellular imaging of live cell and nanofabrication; early cancer and clinical diagnostics, detection of chemical/biological agents, biomedical devices; fluid dynamics, turbulence, mixing and etc. He Extensively focused on developing a two tunable femto-lasers based super-resolution optical microscope (nanoscopy), which has overcome diffraction limit for measurement with nanoscale spatial resolution, with Stimulated Emission Depletion (STED). This will be an exceptional multifunctional large instrument, which combines both supper spatial resolution at nanoscale and ultrafast laser measurement with femto second temporal resolution, The aim of development the instrument is to provide a new far field, 3D and in situ measuring technology not only for fundamental research in fluid dynamics and transport phenomena in meso/nanoscale and advance of new nano/microfluidic device, but also for in situ 3D super resolution live cell imaging under controlled microenvironment, and visible light nanophotolithography on behalf of 3D fast nanofabrication with a low cost.

Dr. Wang has recently, for the first time, developed a novel nano/microfluidic velocimeter, i.e. Laser Induced Fluorescence Photobleaching Anemometer (LIFPA), which provides high temporal and spatial resolution to enable flow velocity measurement in nanochannels. Instead of conventional micro/nanoparticles tracer, LIFPA uses neutral molecular tracer and STED to overcome diffraction limit and issues with particle tracer in PIV to achieve nanoscale resolution and fast random signal. This work could provide a new tool not only for fundamental research in fluid dynamics and transport phenomena in nanoscale, but also to enhance development of new nano/microfluidics based devices. He has developed a novel microfluidic technology based on dielectrophoresis to be able to, for the first time (to my knowledge), separate different types of cancer cells, and cancer cells from normal epithelial cells for cancer research and diagnostics. The device can be used for other biomedical applications as well.

Dr. Wang has recently discovered a new receptivity phenomenon for fast turbulent mixing. This work could lead new technology into mixing process, mixer and bioreactor, and extend our understanding of turbulence, a long-term unsolved problem in physics. The similar method enables us for the first time (to the best of our knowledge) to achieve turbulence in microfluidics with Reynolds number in the order of only unity. With LIFPA (the only method so far that can measure turbulence signal in microfluidics), we have even surprisingly observed Kolmogorov -5/3 spectrum and other scaling phenomena of small scale structures of turbulence in this flow.

Shengli Pu

Associate Professor


University of Shanghai for Science and Technology
China

Dr. Shengli Pu is an Associate Professor at University of Shanghai for Science and Technology. He is a Visiting Associate Professor at Cornell University during August 2012-August 2013. Dr. Pu research interests focus on advanced photonic materials and devices view full biography...

Dr. Shengli Pu is an Associate Professor at University of Shanghai for Science and Technology. He is a Visiting Associate Professor at Cornell University during August 2012-August 2013. Dr. Pu research interests focus on advanced photonic materials and devices, especially the novel optical properties and photonic applications of magnetic fluids/ferrofluids.

Research Interests: Nano-optics, Advanced optical materials and photonic devices, Magneto-optics, Wave guide, fiber based application and sensors.

Rajan Jha

Assistant Professor


Indian Institute of Technology Bhubaneswar
India

Dr. Rajan Jha is an Assistant Professor in School of Basic Sciences at Indian Institute of Technology Bhubaneswar, India. He did his M.Sc and PhD degree from Indian Institute of Technology Delhi, India in 2001 and 2007 respectively. From early 2008 to July 2009 view full biography...

Dr. Rajan Jha is an Assistant Professor in School of Basic Sciences at Indian Institute of Technology Bhubaneswar, India. He did his M.Sc and PhD degree from Indian Institute of Technology Delhi, India in 2001 and 2007 respectively. From early 2008 to July 2009, he was a post-doctoral researcher at ICFO-The Institute of Photonics Sciences, Barcelona, Spain. Dr. Rajan Jha is a recipient of 2015 ICO-ICTP Gallieno Denardo award, DAAD Fellowship in 2013 and was awarded JSPS (Japanese Society for Promotion of Science) fellowship in 2009. He is an Associate of Indian Academy of Sciences, Bangalore. Dr. Rajan Jha is a member of Optical Society of America (OSA) and is a life member of Optical Society of India (OSI).

Research Interest: Optical fiber sensors, Waveguide & Interferometer, Plasmonics, Terahertz waveguide and sensor, Photonic crystal Fiber based interferometer.

International Journal of Optics and Photonic Engineering Reviewer Board

Reviewer Board

NAME

UNIVERSITY

COUNTRY

Dr. Jiang GUO
RIKEN Center for Advanced Photonics (RAP)
Japan
Dr. Christos Riziotis
The National Hellenic Research Foundation
Greece
Dr. Hrebesh M. Subhash
Spanish Council for Scientific Research (CSIC)
Spain
Vibgyor Publishers | International Journal of Optics and Photonic Engineering
Articles

Christen Tharwat, E Girgis, YA Badr, KhM Ibrahim, Shireen K Assem and Nour Sh El-Gendy

In this investigation, the biocompatibility of alloying elements for Cp-Ti, and Ti-Ni titanium alloys was tested in order to estimate their suitability for biomaterial components. As this alloys used as orthopedic and dental implants. Cp-Ti was tested as reference material.

Published Date: August 11, 2016 | Int J Opt Photonic Eng, IJOPE-1-003, (Volume 1, Issue 1), Research Article

Yasser H El-Sharkawy

Time-resolved photoacoustic response has been used to characterize breast tissues for the purpose of discriminating between normal and cancerous tumor areas of tissue. The physical response of biological tissue to a short laser pulse is primary thermo mechanical.

Published Date: May 27, 2016 | Int J Opt Photonic Eng, IJOPE-1-002, (Volume 1, Issue 1), Research Article

Yiyu Ou, Daisuke Iida, Ahmed Fadil and Haiyan Ou

Nanopillar InGaN/GaN green light-emitting diode (LED) arrays were fabricated by self-assembled Au nanoparticles patterning and dry etching process. Structure size and density of the nanopillar arrays have been modified by varying the Au film thickness in the nanopatterning process.

Published Date: January 19, 2016 | Int J Opt Photonic Eng, IJOPE-1-001, (Volume 1, Issue 1), Research Article

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