Behnam Jafari
YOU?
Author Swipe
View article: Enhanced Plasmon-Induced Transparency for Slow-Light Applications in an Ingenious Architecture of Asymmetrical Square Ring Resonators Integrated with Optical Switching and its high effect on the performance of a proposed index sensor and all optical logical Gates
Enhanced Plasmon-Induced Transparency for Slow-Light Applications in an Ingenious Architecture of Asymmetrical Square Ring Resonators Integrated with Optical Switching and its high effect on the performance of a proposed index sensor and all optical logical Gates Open
This Study proposes an asymmetrically coupled square ring resonator coupled to a metal-insulator metal waveguide to optimize slow-light manipulation and refractive index sensing based on plasmon-induced transparency. The asymmetrical desig…
View article: High-performance and compact photonic crystal channel drop filter using P-shaped ring resonator
High-performance and compact photonic crystal channel drop filter using P-shaped ring resonator Open
View article: Plasmon-Induced Transparency in Square Ring Resonator Structures for Optical Switch and Slow-Light Applications
Plasmon-Induced Transparency in Square Ring Resonator Structures for Optical Switch and Slow-Light Applications Open
In this study, we introduce an innovative plasmonic structure utilizing a Metal-Insulator-Metal (MIM) waveguide that interacts with an A symmetric square ring resonator, designed specifically for enhanced control of slow-light effects and …
View article: Predictors of health-related quality of life after total knee arthroplasty: a case–control study
Predictors of health-related quality of life after total knee arthroplasty: a case–control study Open
Total knee arthroplasty (TKA) improves patients’ Health-related quality of life (HRQoL) compared to before surgery. However, based on our knowledge, the improvement in HRQoL after TKA, which depends on various factors, has yet to be invest…
View article: Highly sensitive label-free biosensor: graphene/CaF2 multilayer for gas, cancer, virus, and diabetes detection with enhanced quality factor and figure of merit
Highly sensitive label-free biosensor: graphene/CaF2 multilayer for gas, cancer, virus, and diabetes detection with enhanced quality factor and figure of merit Open
View article: Ultrasensitive and label-free, graphene/CaF2 multilayer-based biosensor for detecting gasses, cancers, viruses, and diabetes, with significant improvement of sensitivity, quality factor, and figure of merit
Ultrasensitive and label-free, graphene/CaF2 multilayer-based biosensor for detecting gasses, cancers, viruses, and diabetes, with significant improvement of sensitivity, quality factor, and figure of merit Open
One of the primary goals for the researchers is to create a high-quality sensor with a simple structure because of the urgent requirement to identify biomolecules at low concentrations to diagnose diseases and detect hazardous chemicals fo…
View article: Author Correction: Graphene-based optofluidic tweezers for refractive-index and size-based nanoparticle sorting, manipulation, and detection
Author Correction: Graphene-based optofluidic tweezers for refractive-index and size-based nanoparticle sorting, manipulation, and detection Open
View article: Graphene-based optofluidic tweezers for refractive-index and size-based nanoparticle sorting, manipulation, and detection
Graphene-based optofluidic tweezers for refractive-index and size-based nanoparticle sorting, manipulation, and detection Open
This work proposes a novel design composed of graphene nanoribbons-based optofluidic tweezers to manipulate and sort bio-particles with radii below 2.5 nm. The suggested structure has been numerically investigated by the finite difference …
View article: An Inventive Method for Graphene-Based Optofluidic Tweezer to Actively Detection, Sorting, and Manipulation of Nano-bioparticles below 2.5 nm
An Inventive Method for Graphene-Based Optofluidic Tweezer to Actively Detection, Sorting, and Manipulation of Nano-bioparticles below 2.5 nm Open
This work proposes a novel design composed of graphene nanoribbons-based optofluidic tweezers to manipulate and sort bio-particles with radii below 2.5 nm. The suggested structure has been numerically investigated by the finite difference …
View article: An Innovative Method for Adjustable Broadband THz to Mid-IR Optical Modulator Using Graphene Gratings Surface Plasmon Fabry-Perot Resonances with Low Insertion Loss, High Speed and Modulation Depth
An Innovative Method for Adjustable Broadband THz to Mid-IR Optical Modulator Using Graphene Gratings Surface Plasmon Fabry-Perot Resonances with Low Insertion Loss, High Speed and Modulation Depth Open
View article: The Influence of Neo-Classical Facades on Urban Textures of Iran
The Influence of Neo-Classical Facades on Urban Textures of Iran Open
One of the most important aims of designing the building's facades, in addition to maintaining its durability and sustainability against the severe weather conditions, is the beauty and attractiveness of the appearance and its overall adap…