Full Name
HO CHONG PEI
 
 
Email
ELEHCP@NUS.EDU.SG
 

Publications

Results 1-12 of 12 (Search time: 0.008 seconds).

Issue DateTitleAuthor(s)
12016Active control of electromagnetically induced transparency with dual dark mode excitation pathways using MEMS based tri-atomic metamoleculesPitchappa, Prakash ; Manjappa, Manukumara; Ho, Chong Pei ; Singh, Ranjan; Singh, Navab; Lee, Chengkuo 
22016Active control of near-field coupling in conductively coupled microelectromechanical system metamaterial devicesPitchappa, Prakash ; Manjappa, Manukumara; Ho, Chong Pei ; Qian, You ; Singh, Ranjan; Singh, Navab; Lee, Chengkuo 
32017Active MEMS metamaterials for THz bandwidth controlShih, Kailing ; Pitchappa, Prakash ; Manjappa, Manukumara; Ho, Chong Pei ; Singh, Ranjan; Yang, Bin ; Singh, Navab; Lee, Chengkuo 
42018Graphene Tunable Plasmon-Phonon Coupling in Mid-IR Complementary MetamaterialChen, Nan ; Hasan, Dihan ; Ho, Chong Pei ; Lee, Chengkuo 
52017High Temperature Coupling of IR Inactive CC Mode in Complementary Metal Oxide Semiconductor Metamaterial StructureHasan, D ; Pitchappa, P ; Pei Ho, C ; Lee, C 
62015Microelectromechanically tunable multiband metamaterial with preserved isotropyPitchappa, P ; Ho, C.P ; Qian, Y ; Dhakar, L ; Singh, N; Lee, C 
714-Jan-2017Microfluidic metamaterial sensor: Selective trapping and remote sensing of microparticlesShih, Kailing ; Pitchappa, Prakash ; Manjappa, Manukumara; Ho, Chong Pei ; Singh, Ranjan; Lee, Chengkuo:rp00168 
81-Nov-2018Mid-Infrared Slow Light Engineering and Tuning in 1-D Grating WaveguideMa, Yiming ; DONG BOWEI ; Li, Bo ; Wei, Jingxuan ; Chang, Yuhua ; Ho, Chong Pei ; LEE CHENGKUO 
92017Novel CMOS-Compatible Mo-AlN-Mo Platform for Metamaterial-Based Mid-IR AbsorberHasan, D ; Pitchappa, P ; Wang, J ; Wang, T ; Yang, B; Ho, CP ; Lee, C 
102016Polarization controllable multispectral symmetry-breaking absorber in mid-infraredChen, Nan ; Pitchappa, Prakash ; Ho, Chong Pei ; Hasan, Dihan ; Kropelnicki, Piotr; Alioto, Massimo ; Lee, Chengkuo 
112016Realization of Fractal-Inspired Thermoresponsive Quasi-3D Plasmonic Metasurfaces with EOT-Like Transmission for Volumetric and Multispectral Detection in the Mid-IR RegionHasan, D ; Ho, CP ; Lee, C 
122016Thermoplasmonic Study of a Triple Band Optical Nanoantenna Strongly Coupled to Mid IR Molecular ModeHasan, D ; Ho, C.P ; Pitchappa, P ; Yang, B; Yang, C; Lee, C