Publication 2016

(#) Co/-responding author; (*) Co-/First author

Electronics and Spintronics Devices

1.      Y.B Fan*, X.F Kou*, P. Upadhyaya*, Q.M Shao, M.R Lang, et al., “Electric-field control of spin-orbit torque in a magnetically doped topological insulator”, Nature Nanotechnology 11, 352-359 (2016)

2.      K.L Wang, X.F Kou, P. Upadhyaya, Y.B Fan, Q.M Shao, G.Q Yu, and P.K Amiri, “Electric-Field Control of Spin-Orbit Interaction for Low-Power Spintronics” (invited review paper), Proceedings of the IEEE 1041974-2008 (2016)

3.      T.X Nie, J.S Tang, X.F Kou, G. Yin, S.W Lee, X.D Zhu, Q.L He, L.T Chang, K. Murata, Y.B Fan, and K.L Wang, “Enhancing electric-field control of ferromagnetism through nanoscale engineering of high-Tc MnxGe1-x nanomesh”, Nature Communications 7:12866 (2016)

 

Optoelectronics Devices

4.      J. Even, C. Wang, and F. Grillot, “From basic physical properties of InAs/InP quantum dots to state of the artlasers for 1.55 μm optical telecommunications: An overview,” in Semiconductor and Metal Nanoparticles: Physical Properties and Device Applications, CRC Press (2016)

5.      C. Wang, J.-P. Zhuang, F. Grillot, and S.-C. Chan, Contribution of off-resonant statesto the phase noise of quantum dot lasers, Opt. Express 24, 29872 (2016)

6.      C. Wang, K. Schires, M. Osiński, P. J. Poole, and F. Grillot, “Thermally insensitive determination of the linewidth broadening factor in nanostructured semiconductor lasers using optical injection locking,” Sci. Rep. 6, 27825 (2016)

7.      C. Wang, R. Raghunathan, K. Shires, S. C. Chan, L. F. Lester, and F. Grillot, “Optically injected InAs/GaAs quantum dot laser for tunable photonic microwave generation,” Opt. Lett. 41, 1153 (2016)

 

Circuit and Systems

8.      X.C Liu*, S.P Sun, X. Li, H.F Qian and P.Q Zhou. “Machine Learning for Noise Sensor Placement and Full-Chip Voltage Emergency Detection,” IEEE TCAD 421-434 (2016)