School of Microelectronics
Founded in December 2015, the school of microelectronics of Northwest University of technology is a national key demonstration microelectronics college. At present, it is located in Xi'an, Shaanxi, an ancient historical and cultural city. At the same time, it has an international joint research center for integrated circuits and intelligent systems in Taicang, Jiangsu, a water town in the south of the Yangtze River. The college has "national local joint engineering research center of integrated circuit technology", is one of the 15 "national integrated circuit talent training bases" in China, is the "construction point of microelectronics specialty" of the quality engineering construction project of the Ministry of education, and is the "innovative experimental area for engineering integrated circuit design talent training" of Shaanxi Province. The college has the Department of micro and Nano Electronics, the Department of integrated circuits, the Department of intelligent systems and the cross application research center. It has a bachelor's degree in microelectronics science and engineering and a doctoral degree in Electronic Science and technology. It can be engaged in circuit and system, physical electronics, microelectronics and solid-state electronics, integrated avionics technology and electronic information (integrated circuit engineering, electronics and Communication Engineering) And other disciplines to recruit master's and doctoral students.
18. 2023学年微电子学院博士申请导师信息表 Supervisor List for 2023 PhD Application School of Microelectronics.pdf
The attachments are the Major List and the Spervisor List that can accept the PhD students of the School of Microelectronics in 2023 Academic Year.
Please contact the supervisor according to the their researsh direction and Teacher Website Page information.
Do not send the MASS EMAIL.
For PhD application, the supervisor acceptance letter is the mandatory document.
The PhD Major Introduction for the School of Microelectronics
一、专业名称 Major： 电子科学与技术 Electronic Science and Technology
1.专业核心课程名称 Core Courses:
材料的电子显微学 Electron microscopy of materials
电磁理论中的渐近方法 Asymptotic method in electromagnetic theory
智能信息处理 intelligent information processing
信息融合理论 Information fusion theory
模糊控制与智能控制基础 Fundamentals of fuzzy control and intelligent control
光学原理 Optical principle
集成电路分析与设计 Integrated circuit analysis and design
微传感器原理和应用 Principle and application of micro sensor
雷达数据处理技术 Radar data processing technology
Advanced Antenna Theory
抗辐射集成电路设计 Design of Radiation-Hardened Integrated Circuits
2. 研究方向及介绍 Research Direction and its introduction:
① 自旋电子科学与技术 Spintronic Science and Technology
Spintronic science uses the spin and magnetic moment of electrons to add the spin and magnetic moment of electrons to solid-state devices in addition to charge transport. It is a new subject and technology. Materials used in spintronics should have higher electron polarizability and longer electron spin relaxation time. Many new materials, such as magnetic semiconductors and semi metals, have been widely studied in recent years in order to obtain the nature required for spintronic devices'application.
③ 集成电路设计 Integrated Circuit Design
Integrated circuit design refers to the design process aiming at integrated circuits and VLSI. Integrated circuit design involves the establishment of interconnection models of electronic devices (such as transistors, resistors, capacitors, etc.) and devices. All devices and interconnects need to be placed on a semiconductor substrate material. These components are placed on a single silicon substrate through semiconductor device manufacturing process (such as lithography, etc.) to form a circuit.
③ 集成于光电子芯片的高性能光电探测器 High-performance photodetector for photonic integrated circuits
Photodetectors work by converting the information carried by light into electrical signals, and are widely used in applications from game consoles to optical fiber communication, medical imaging and motion detectors. At present, photodetectors cannot sense more than one color in one device, and it is often inconvenient to carry. High performance photodetectors integrated into optoelectronic chips open the door to improve biomedical imaging and promote the early detection of health problems such as cancer. In addition to the reduced medical imaging equipment, the ultra-thin prototype also opens the possibility for more effective motion detectors, low light imaging and possibly faster optical fiber communication.
④ 射频电路设计 RF Circurts Design
RF circuit is generally composed of receiver RF processing unit, transmitter RF processing unit and frequency synthesis unit. The biggest characteristic of RF circuit is that in the RF frequency band, the characteristics of conductor resistance, inductance or capacitance will become quite complex, and sometimes completely lose their original characteristics. In the RF frequency band, the resistance can show the characteristics of inductance and capacitance. For the hardware circuit system of the transmission system, the most difficult part is the intermediate amplifier frequency conversion and RF power amplifier. The difficulty of intermediate amplifier frequency conversion mainly lies in the design of frequency conversion system scheme. A good system scheme design produces less relevant interference, and may even reduce the requirements for local oscillation signals participating in frequency conversion. The difficulty of RF power amplifier mainly lies in power efficiency and linearity.