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https://www.singa.a-star.edu.sg/
Интересно, что ни GRE, ни TOEFL не требуется.
а вот объявление, которое мой коллега–физик попросил запостисть:
Nanyang Technological University, Singapore
School of Physical and Mathematical Science
Division of Physics and Applied Physics
Assistant Professor Wang Lan’s group welcomes applications for PhD study
Email: wanglan@ntu.edu.sg
Students from Russian and Eastern Europe can apply “SINGAPORE INTERNATION AWARD (SINGA) http://www.spms.ntu.edu.sg/home/def
Research Interests and main facilities
The central theme of the research in Professor Wang Lan’ lab is to investigate the magnetic, electrical transport and optical properties of novel spintronic materials, thin film structures and devices. The researches in this lab focus on magnetic and electrical transport studies. Magneto-optic measurements are performed in Prof Alfred Huan and Dr Sum Tze Chien’s Lab.
The main research facilities in this lab:
1. A Pulse Laser Deposition System
2. A Six-gun UHV Sputtering System
3. A MBE system for semiconductor thin film grow (Shared with Professor Lew Wen Siang)
4. A Physical Property Measurement System (Quantum Design 1.9K to 400K, magnetic field up to 9 Tesla)
5. A home-made Point Contact Andreev Reflection System to measure the spin polarization of materials
Besides the above mentioned facilities, some group members also have the right to use the Laser MBE system in Digital Storage Institute because of an A*star project.
High resolution XRD, AFM, TEM, SEM, etc are utilized for sample characterizations. Devices are fabricated using lithography techniques.
Main research Areas:
1. Novel oxide magnetic materials and spintronic devices: Our research involves investigating half metallic ferromagnet, dilute magnetic system and strongly correlated electron system. Currently, our research focus on investigation of transition metal doped transparent oxide and the perovskite oxides with independent control on spin and charge as well as some potential half metal systems. Novel magnetic heterostructures and spintronic devices are fabricated based on these novel materials.
2. Spin injection, spin transport and spin dynamics in Si and GaAs based spintronic devices. We will utilize both magneto optical methods and electrical methods to detect the spin transport and spin dynamics in Si and GaAs based spintronic devices.
3. Spin injection, spin transport and spin dynamics in organic spintronic devices. We will utilize both magneto optical methods and electrical methods to detect the spin transport and spin dynamics in organic spintronic devices.
