Key Publications
- Y. S. Ang, M. Z. Zubair, K. J. A. Ooi, and L. K. Ang, “Generalized Fowler-Nordheim theory of vertical field-induced vertical electron emission for two-dimensional materials”, arXiv:1711.05898 (2018).
- M. Z. Zubair, Y. S. Ang, and L. K. Ang, “Fractional Fowler-Nordheim law for field emission from rough surface with nonparabolic energy dispersion”, arXiv:1711.06360, accepted in IEEE Trans. Electron Dev. (In press 2018).
- Y. S. Ang, S. A. Yang, C. Zhang, Z. Ma, L. K. Ang, “Valleytronics in merging Dirac cones: all-electric filter, valve and universal reversible logic gate”, Phys. Rev. B, 96, 245410 (2017).
- Y. S. Ang, S.-J. Liang, and L. K. Ang, “Theoretical modelling of electron emission from graphene”, MRS Bulletin 42, 505 (2017).
- Y. S. Ang, M. Zubair, and L. K. Ang, “Relativistic space-charge-limited current for massive Dirac fermions”, Phys. Rev. B 95, 165409 (2017).
- K. J. A. Ooi, Y. S. Ang, J. L. Cheng, J. E. Sipe, and L. K. Ang, “Electronic scattering of graphene plasmons in the terahertz nonlinear regime”, IEEE J. Sel. Top. Quantum Electron. 23, 5100206 (2017).
- Y. S. Ang and L. K. Ang, “Current-temperature scaling for a Schottky interface with nonparabolic energy dispersion”, Phys. Rev. Appl. 6, 034013 (2016).
- Y. S. Ang, L. K. Ang, Z. Ma, and C. Zhang, “Nonlocal transistor based on pure crossed Andreev reflection in a EuO-graphene/superconductor hybrid structure”, Phys. Rev. B 93, 041422(R) (2016).
- M. Sanderson, Y. S. Ang, S. Gong, T. Zhao, M. Hu, R. Zhong, X. Chen, P. Zhang, C. Zhang, and S. Liu, “Optical bistability induced by nonlinear surface plasmon polaritons in graphene in terahertz regime”, Appl. Phys. Lett. 107, 203113 (2015).
- Y. S. Ang, Z. Ma, and C. Zhang, “Quantum ratchet in two-dimensional semiconductors with Rashba spin-orbit interaction”, Sci. Rep. 5, 7872 (2015).
- W. H. Cao, and Y. S. Ang, “Effect of asymmetry on nonlinear optical response in graphene”, Eur. Phys. Lett. 107, 3, 37007 (2014).
|
- Y. S. Ang, J. C. Cao and C. Zhang, “Nonlinear optical conductivity of two-dimensional semiconductors with Rashba spin-orbit coupling in terahertz regime”, Eur. Phys. J. B 87, 2, 1 (2014).
- Y. S. Ang, C. Ma and C. Zhang, “Chiral-like tunnelling of electrons in two-dimensional semiconductors with Rashba spin-orbit coupling”, Sci. Rep. 4, 3780 (2014).
- Y. S. Ang, Q. Chen and C. Zhang, “Nonlinear optical response of graphene in terahertz and near-infrared frequency regime”, Frontiers of Optoelectronics, 1 (2014).
- M. Sanderson, Y. S. Ang, and C. Zhang, “Klein tunnelling and cone transport in AA-stacked bilayer graphene”, Phys. Rev. B 88, 24, 245404 (2013).
- Q. Chen, Q., Y. S. Ang, X. Wang, R. A. Lewis and C. Zhang, “Energy loss rate of a charged particle in HgTe/(TgTe, CdTe) quantum wells”, Appl. Phys. Lett. 103, 192107 (2013).
- Y. S. Ang, Z. Ma and C. Zhang, “Retro reflection of electrons at the interface of bilayer graphene and superconductor”, Sci. Rep. 2, 1013 (2012).
- Y. S. Ang and C. Zhang, “Enhanced optical conductance in graphene superlattice due to anisotropic band dispersion”, J. Phys. D: Appl. Phys. 45, 395303 (2012).
- S. Sultan, Y. S. Ang and C. Zhang, “Room-temperature strong terahertz photon mixing in graphene”, J. Opt. Soc. Am. B 29, 3, 274-279 (2012).
- Q. Chen, Y. S. Ang, R. A. Lewis, X. Wang and C. Zhang, “Photomixing in topological insulator HgTe/CdTe quantum wells in terahertz regime”, Appl. Phys. Lett. 101, 211109 (2012).
- Y. S. Ang, C. Zhang and C. Y. Kee, “Energy-loss rate of a fast particle in graphene”, Appl. Phys. Lett. 99, 053111 (2011).
- Y. S. Ang and C. Zhang, “Subgap optical conductivity in semihydrogenated graphene”, Appl. Phys. Lett. 98, 042107 (2011).
- Y. S. Ang, S. Sultan and C. Zhang, “Nonlinear optical spectrum of bilayer graphene in the terahertz regime”, Appl. Phys. Lett. 97, 243110 (2010).
|
