Four pathways are available for this programme:
Pathway A: Photoelectricity (Optoelectronic) Test (detection) Technology
This pathway focuses on basic theory, implementation method, system, and key technique of optoelectronic detection area. It addresses Laser diagnostic technique and optical measurement techniques. It offers research on physical parameter and system of all kinds of measurement instruments, including laser interferometry, laser diffraction, laser tracking, optical fiber sensing detection, optoelectronic multi-degree of freedom measurement, etc., with integration of light, machine, electricity electronics and computer.
Pathway B: Micro-optical Element Devices and System
Based upon electromagnetic theory, this pathway focuses on the design theory of diffractive optical element, sub-wavelength grating device, and optical surface plasmonic devices. It researches and explores micro-optical system with application of optical trapping, microscopy, multi-degree of freedom measurement and high density optical storage to realize the function of super-resolution imaging, beam shaping, and polarization conversion.
Pathway C: Fiber Laser and Optical Devices
This pathway covers studies on laser coherent synthetic technology, tunable laser technology, packaging technology of double-clad fiber and diode-laser, the optoelectronic devices including single frequency fiber laser, femtosecond fiber laser, Q-switched pulsed fiber laser, high power continuous fiber laser, pump combiner, fiber grating, high power optical isolator, high power fiber collimator and optical fiber coupling acousto-optic modulator, etc.
Pathway D: Optoelectronic Information Processing
This pathway focuses on acquisition, processing, storage, and display of physics (physical) information by optical and digital image technique, including analysis, measurement and identification of information through optoelectronic image processing technology; deformation measurement by digital holographic interferometry and laser speckles measurement technology; technique acquirement and analysis of 3-D profile by 3D sensing technology; optical information storage and 3D display, etc.
Sub-discipline: Instrumentation Engineering
Five pathways of Master of Engineering are available for this programme:
Pathway A: Visual Inspection and Optoelectronic Technology Instrument
It offers researches on comprehensive utilization of all kinds of Optoelectronic sensors to achieve high precision measurement for product contour, 3D-shape and other physical quantities through multi-crossed disciplines technology i.e. image processing, computer vision and photogrammetry.
Pathway B: Precision Instrument and Measurement System
It mainly researches technology and method of precision measurement, design of precision measurement system, theoretical accuracy evaluation of precision measurement system, and instrument design.
Pathway C: Biomedical Detection Technology and Instruments
This pathway addresses design and development of clinical medicine instrument, ultrasonic testing technology, system, biomedical detection technology and instrument design on the basis of Optoelectronic Detection technology, medical image processing and advanced instrument development in the field of life science and biomedical engineering.
Pathway D: Electron Measurement Technology and Instruments
This pathway focuses on measurement technology for electric parameter and temporal frequency metrology, design of measuring instrument, and test and control system.
Pathway E: Opto-mechatronics Measurement and Control System
This pathway offers research on its system integration and instrument design.