Fiber Optic Sensors:

Investigating the development of sensors based on optical fibers, which offer advantages in terms of sensitivity, immunity to electromagnetic interference, and the ability to operate in harsh environments. These sensors are used in applications such as structural health monitoring, environmental sensing, and medical diagnostics.

Optical Biosensors:

Focusing on the design and implementation of optical biosensors that can detect and quantify biological molecules, pathogens, and biomarkers for applications in healthcare, drug development, and disease diagnosis.

Spectroscopic Sensors:

Exploring spectroscopic techniques, including absorption spectroscopy, fluorescence spectroscopy, and Raman spectroscopy, used in optical sensors to analyze chemical composition, molecular structure, and physical properties of substances in various fields, including chemistry, food quality control, and environmental science.

Optical Gas Sensing:

Addressing the use of optical sensors to detect and quantify gases in the environment, industrial processes, and emissions monitoring, contributing to air quality assessment and safety.

Optical Imaging and Sensing:

Analyzing technologies for optical imaging and sensing, including imaging sensors used in cameras, medical imaging devices, and remote sensing systems, with a focus on improving resolution, sensitivity, and image processing techniques.

Quantum Optical Sensors:

Investigating the emerging field of quantum optics and its application in developing highly sensitive sensors for measuring physical quantities such as time, magnetic fields, and gravitational waves, pushing the boundaries of precision measurement.