High Performance Integrated Circuits Laboratory
Stevens Institute of Technology
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Journal Publications
[36] Y. Kim, A. Bharathan, C. Romero, N. Chahat, G. Gupta, G. Chattopadhyay, H-P Marshall, N. Lin, J. Gier, and A. Tang, “Close-In Dynamic Range Considerations in Up-converted and Frequency Multiplied FMCW Radars at Ku-Band,” IEEE Microwave Magazine, 2024 (Accepted for Publication)
[35] A. Sharma, C. Romero, and Y. Kim, “Millimeter-wave ceramic antennas and fibers for extermely high temperature applications,” IEEE Microwave Magazine, 2024 (Accepted for Publication)
[34] A. Tang, N. Chahat, Y. Kim, A. Bharathan, G. Virbila, H.P. Marshall, T. Weide, G. Gupta, R. Anand, G. Chattopadhyay, and F. Chang, “A UAV based CMOS ku-band metasurface FMCW radar system for low-altitude snowpack sensing,” IEEE Journal of Microwaves, 2024
[33] T. Buhr, A. Karsilayan, J. Silva-Martinez, C. Rodenbeck, B. Tierney, and Y. Kim, “X-band CMOS rectifier with 4% efficiency at -35 dBm for wireless power transmission,” IEEE Access, 2023
[32] A. Tang, Yanghyo Kim, Y. Zhang, G. Virbila, N. Livesey, G. Chattopadhyay, J. Kooi, and M.C.F. Chang, “CMOS system-on-chip spectrometer processors for spaceborne microwave-to-THz earth & planetary science and radioastronomy,” IEEE Journal of Microwaves, 2022
[31] Y. Kim, S. Tam, M.C. Frank Chang, "Millimeter-Wave Contactless Connectors: From Fundamental Research to Commercialization," IEEE Microwave Magazine, 2022
[30] A. Tang, M.A. Del-Pino, Y. Kim, Y. Zhang, T. Reck, C. Jung-Kubiak, D. Nemchick, L. Dyer, G. Virbila, G. Chattopadhyay, M.C. Frank Chang, "Sub-Orbital Flight Demonstration of a 183/540-600 GHz Hybrid CMOS-InP and CMOS-Schottky-MEMS Limb-Sounder," IEEE Journal of Microwaves, 2021 (Invited)
[29] R. Huang, C. Chiang, C. Liang, Y. Kim, Y. Kuan, M.C.F. Chang, "A W-band 4-GHz BW multiuser interference-tolerant radar with 28-nm CMOS front-ends," IEEE Solid-State Circuits Letters, 2020
[28] Y. Kim, B. Hu, R. Huang, A. Tang, C. Joye, T. Itoh, and M.C.F. Chang, "150-GHz CMOS TX/RX with digitally pre-distorted PAM-4 modulation for terahertz contactless/plastic-waveguide communications," IEEE Transactions on Terahertz Science and Technology, 2020
Before Joining Stevens
[27] Y. Kim, B. Hu, W. Cho, R. Huang, A. Tang, H. Chen, C. Jou, J. Cong, T. Itoh, and M.C.F. Chang, "A millimeter-wave CMOS transceiver with digitally pre-distorted PAM-4 modulation for contactless communications," IEEE Journal of Solid-State Circuits, vol. 54, no. 6, 2019
[26] Y. Kim, Y. Zhang, T. Reck, D. Nemchick, G. Chattopadhyay, B Drouin, M.C.F. Chang, and A. Tang, "A 183-GHz InP/CMOS-hybrid heterodyne-spectrometer for spaceborne atmospheric remote sensing," IEEE Transactions on Terahertz Science and Technology, vol. 9, no. 3, 2019
[25] Y. Zhang,Y. Kim,A. Tang, J. Kawamura, T. Reck, and M.C.F. Chang, "Integrated wide-band CMOS spectrometer systems for spaceborne telescopic sensing," IEEE Transactions on Circuits and Systems I, vol. 66, no. 5, 2019
[24] Y. Kim, T. Reck, M. Alonso-delPino, T. Painter, H.P. Marshall, J. Dozier, G. Chattopadhyay, K.N. Liou, M.C.F. Chang, and A. Tang, "A Ku-Band CMOS FMCW radar transceiver for snowpack remote sensing," IEEE Transactions on Microwave Theory and Techniques, vol. 66, no. 5, 2018
[23] B. Hu, Y. Kim, R. Huang, Y. Du, and M.C.F. Chang, "A 32Gb/s C2C-DAC-based PAM-4 wireline transmitter with two-tap feed-forward-equalization and level-mismatch correction in 28nm CMOS," IEEE Microwave and Wireless Component Letters, vol. 28, no. 11, 2018
[22] A. Tang, Y. Kim, T. Reck, G. Chattopadhyay, I. Mehdi, B. Drouin, K. Cooper, N. Livesey, and M.C.F. Chang, "DDFS and sigma-delta approaches for fractional frequency synthesis in terahertz instruments," IEEE Transactions on Terahertz Science and Technology, vol. 8, no. 4, 2018
[21] D. Nemchick, B. Drouin, A. Tang, Yanghyo Kim, and M.C.F. Chang, "Sub-Doppler spectroscopy with a CMOS transmitter," IEEE Transactions on Terahertz Science and Technology, vol. 8, no. 1, 2018
[20] A. Tang, Yanghyo Kim, T. Reck, Y. Tang, Y. Xu, G. Chattopadhyay, B. Drouin, I. Mehdi, and M. C. F. Chang, “A 177-205GHz 249mW CMOS-based integer-N frequency synthesizer module for planetary exploration,” IEEE Transactions on Terahertz Science and Technology, vol. 8, no. 2, 2018
[19] Y. Kim, W.H. Cho, Y. Du, J. Cong, T. Itoh, and M. C. F. Chang, "Impulse response analysis of carrier-modulated multiband RF-interconnect (MRFI)," Analog Integrated Circuits and Signal Processing, vol. 93, no. 3, pp. 395-413, 2017
[18] Y. Kim, A. Tang, J. Cong, M.C.F. Chang, and T. Itoh, "Impulse response analysis of coherent waveguide communication," International Journal of Microwave and Wireless Technologies, vol. 10, no. 1, 2017
[17] Y. Kim, S.W. Tam, T. Itoh, and M. C. F. Chang, "A 60GHz CMOS transceiver with on-chip antenna and periodic near field directors for multi-Gb/s contactless connector," IEEE Microwave and Wireless Component Letters, vol. 27, no. 4, 2017
[16] A. Tang, B. Drouin, Y. Kim, G. Virbila, and M.C.F. Chang, "A 95-105GHz 352 mW all-silicon cavity-coupled echo rotational spectroscopy system," IEEE Transactions on Terahertz Science and Technology, vol. 7, no. 3, 2017
[15] Y. Du, W. Cho, P. Huang, Y. Li, C. Wong, J. Du, Y. Kim, B. Hu. L. Du, C. Liu, S. Lee, and M.C.F. Chang, "A 16-Gb/s 14.7mW tri-band cognitive serial link transmitter with forwarded clock to enable PAM-16/256-QAM and channel response detection," IEEE Journal of Solid-State Circuits, vol. 52, no. 4, 2017
[14] A. Tang, Y. Kim, and M.C. F. Chang, "Logic-I/O threshold comparing-dosimeter in radiation insensitive deep-sub-micron CMOS," IEEE Transactions on Nuclear Science, vol. 63, No. 2, 2016
[13] A. Tang, Y. Kim, Y. Xu, G. Virbila, T. Reck, and M.C.F. Chang, "Evaluation of 28nm CMOS receivers at 183GHz for space-borne atmospheric remote sensing," IEEE Microwave and Wireless Components Letters, vol. 27, no. 1, 2016
[12] Y. Zhao, Z. Chen, Y. Du, Y. Li, R. Hadi, G. Virbila, Y. Xu, Y. Kim, A. Tang, T. Reck, and M.C.F. Chang, "A 0.56 THz phase-locked frequency synthesizer in 65nm CMOS technology," IEEE Journal of Solid-State Circuits, vol. 51, no. 12, 2016
[11] B. Drouin, A. Tang, E. Schlecht, E. Brageot, Q. Gu, Y. Ye, R. Shu, M.C.F. Chang, and Y. Kim, "A CMOS millimeter-wave transceiver embedded in a semi-confocal fabry perot cavity for molecular spectroscopy," The Journal of Chemical Physics, 2016
[10] A. Tang, Y. Kim, and M.C. F. Chang, "A 65nm CMOS 330Mb/s microwave backscatter link at 2.4 to 2.9GHz with ambient blocker cancellation," IEEE Microwave and Wireless Components Letters, vol. 26, no. 1, 2016
[9] A. Tang, Y. Kim, Y. Xu, and M.C.F. Chang, "A 5.8GHz 54Mb/s backscatter modulator for WLAN with symbol pre-distortion and transmit pulse shaping, IEEE Microwave Wireless Component Letters, vol. 26, no. 9, 2016
[8] Y. Kuan, Y.K. Lo, Y. Kim, M.-C.F. Chang, and W. Liu, "Wireless gigabit data telemetry for large-scale neural recording," IEEE Journal of Biomedical and Health Informatics, vol. 19, no. 3, 2015
[7] Y. Kim, L. Nan, J. Cong, and M.-C.F. Chang, "High-speed mm-wave data-link based on hollow cable and CMOS transceiver," IEEE Microwave and Wireless Components Letters, vol. 23, no. 12, 2013
[6] A. Tang, D. Murphy, F. Hsiao, G. Virbila, Y.-H. Wang, H. Wu, Y. Kim, and M.-C. F. Chang, "A CMOS D-band transmitter with IF envelope feed-forward pre-distortion and injection locked frequency tripling synthesizer," IEEE Transactions on Microwave Theory and Techniques, Vol. 60, no. 12, 2013
[5] Y. Kim, S.-W. Tam, G.-S. Byun, H. Wu, L. Nan, G. Reinman, J. Cong, and M.-C. F. Chang, "Analysis of non-coherent ASK modulation based RF-interconnect for memory interface," IEEE Journal on Emerging and Selected Topics in Circuits and Systems, Vol.2, No. 2, 2012
[4] G.-S. Byun, Y. Kim, J. Kim, S.W. Tam, and M.-C. F. Chang, "An energy efficient and high-speed mobile memory I/O interface using simultaneous Bi-directional dual (base+RF)-band signaling," IEEE Journal of Solid-State Circuits, Vol. 47, No. 1, 2012 (Invited)
[3] A. Yu, F. Yang, A. Z. Elsherbeni, J. Huang, and Y. Kim, "An offset-fed X-band reflectarray antenna using a modified element rotation technique," IEEE Transactions on Antennas and Propagation, Vol. 60, No. 3, 2012
[2] H. Yu, S.-W. Tam, Y. Kim, E. Socher, W. Hant, M.-C. F. Chang, and T. Itoh, ”A dual-band millimeter-wave CMOS oscillator with left-handed resonator,” IEEE Transactions on Microwave Theory and Techniques, Vol. 58, Issue. 5, 2010
[1] Y. Kim, F. Yang, and A. Z. Elsherbeni, "Compact artificial magnetic conductor designs using planar square spiral geometry," Progress in Electromagnetic research, PIER 77, pp. 43-54, 2007
Conference Publications
[55] A. Sharma, and Y. Kim, "Electromagnetic stability characterization of millimeter-wave dielectric fibers at extremely high-temperatures: enabling harsh environment communication and sensing," IEEE International Microwave Symposium, 2024
[54] C. Romero, A. Sharma, and Y. Kim, "Extremely high temperature millimeter-wave ceramic fiber communications,” IEEE Asia Pacific Microwave Conference, 2023
[53] A. Tang, Y. Kim, G. Chattopadhyay, and F. Chang, "A CMOS 183 GHz millimeter-wave spectrometer for exploring the origins of water and evolution of the solar system," IEEE Radio Frequency Integrated Circuits Symposium, 2023
[52] W. Wargacki, C. Romero, and Y. Kim, "A 12.5-Gb/s Fresnel Zone Coupled Fully Rotatable 60-GHz Contactless Connector in 65-nm CMOS Process," IEEE International Microwave Symposium, 2023
[51] M. Mirzaee, and Y. Kim, "Cross-talk Mitigation Using Left/Right-Handed Circularly-Polarized Antennas for Multi-Lane Millimeter-Wave Wireless Interconnects," IEEE International Symposium on Antennas and Propagation, 2022
[50] M. Mirzaee, and Y. Kim, "On the Contrast between Healthy and Cancer Tissues at Millimeter-Wave Regime for Skin Cancer Detection Using Reflectometry," IEEE International Symposium on Antennas and Propagation, 2022
[49] M. Mirzaee, and Y. Kim, "Analysis of Penetration Depth and Average SAR in Double-Ridge Open-Ended Waveguide Antennas for Skin Cancer Detection at Millimeter-Wave Regime," IEEE International Symposium on Antennas and Propagation, 2022
[48] M. Mirzaee, and Y. Kim, "Analysis of Ultra-Wideband Double-Ridge Open-Ended Waveguide Antennas for Millimeter-Wave Communications," IEEE International Symposium on Antennas and Propagation, 2022
[47] M. Mirzaee, and Y. Kim, "Sub-Millimeter Melanoma Skin Cancer Detection: Differentiating Between Healthy and Malignant Tissues Based on Local Specific Absorption Rate," IEEE International Symposium on Antennas and Propagation, 2022
[46] M. Mirzaee, and Y. Kim, "Analysis of Circularly-Polarized Millimeter-Wave Antennas for Rotatable Wireless Interconnects," IEEE International Symposium on Antennas and Propagation, 2022
[45] A. Tang, Y. Kim, and M.C. Frank Chang, "A fully-integrated CMOS system-on-chip Ku band radiometer system for remote sensing of snow and ice," IEEE International Microwave Symposium, 2022
[44] M. Mirzaee, and Y. Kim, "Microwave characterization of NinjaFlex filament using performance probe for developing 3D-printed wearable antennas," National Radio Science Meeting, 2022
[43] M. Mirzaee, and Y. Kim, "On the far-field characteristics of a 3D-printed antenna using wood-based PLA and conductive sliver nanoparticle ink," National Radio Science Meeting, 2022
[42] M. Mirzaee, and Y. Kim, "A 3D-printed microwave passive sensor using fully biodegradable and renewable materials," National Radio Science Meeting, 2022
[41] M. Mirzaee, and Y. Kim, "Fully 3D-printed using biodegradable and renewable materials: microwave characterization and fabrication process," National Radio Science Meeting, 2022
[40] M. Mirzaee, and Y. Kim, "Metal-Coated Flexible Dielectric Waveguides for Millimeter-Wave Multi-Lane Wireline Communications," IEEE International Symposium on Antennas and Propagation, 2021
[39] M. Mirzaee, and Y. Kim, "Design Method for Bowtie Antenna with Enhanced Bandwidth and Controllable Gain Using 3D-Printing Technology," IEEE International Symposium on Antennas and Propagation, 2021
[38] M. Mirzaee, and Y. Kim, "Antenna Miniaturization Using High-Permittivity and Magneto-Dielectric Substrates in VHF-UHF Bands: A Comparative Study," IEEE International Symposium on Antennas and Propagation, 2021
[37] M. Mirzaee, and Y. Kim, "Conformal Miniaturized Antenna with Enhanced Bandwidth and Efficiency Using Periodic Magneto-Dielectric Anisotropic Meta-Substrate," IEEE International Symposium on Antennas and Propagation, 2021
[36] Y. Kim, "Overview of Millimeter-Wave Wireless Interconnect," IEEE International Symposium on Radio Frequency Integration Technology, 2021 (Invited)
[35] D. Nemchick, B. Drouin, A. Tang, Y. Kim, M. Alonso, M.C.F. Chang, "180 GHz CMOS pulsed transmitter and heterodyne receiver pair for in-situ chemical detections," IEEE International Symposium on Space Terahertz Technology, 2020
Before Joining Stevens
[34] A. Tang, D. Nemchick, M. Alonso, G. Chattopadhyay, T. Reck, Y. Zhang, Y. Kim, M.C.F. Chang, "First flight of an almost all-CMOS 183 GHz limb-sounding spectrometer system aboard the ReckTangLE ballooncraft," IEEE International Symposium on Space Terahertz Technology, 2020
[33] Y. Kim, B. Hu, Y. Du, R. Huang, W. Cho, R. Hadi, A. Tang, H. Chen, C. Jou, T. Itoh, and M.C.F Chang, "A 30Gb/s 60.2mW 151GHz CMOS transmitter/receiver with digitally pre-distorted current mode PAM-4 modulator for plastic waveguide and contactless communications," IEEE International Microwave Symposium, 2019
[32] A. Tang, Y. Kim, G. Virbila, M.C.F. Chang, "A 205GHz serial direct-sequence spread spectrum (DS/SS) radar system-on-chip in 28nm CMOS," IEEE International Microwave Symposium, 2019
[31] A. Tang, Y. Kim, Y. Zhang, R. Huang, M.C.F. Chang, "A W-band FMCW radar system-on-chip employing synchronized switching digitally controlled artificial dielectric for chirp," IEEE International Microwave Symposium, 2019
[30] Y. Kim, B. Hu, Y. Du, A. Tang, H. Chen, C. Jou, J. Cong, T. Itoh, and M.C.F. Chang, "A 20 Gb/s 79.5 mW CMOS transceiver with digitally pre-distorted PAM4 modulation for contactless communications," IEEE International Solid-State Circuits Conference, 2018
[29] A. Tang, Y. Kim, G. Virbila, and M.C.F. Chang, "A 5.8GHz 1.77mW AFSK-OFDM CMOS backscatter transmitter for low power IoT applications," IEEE International Microwave Symposium, 2018
[28] Y. Kim, Y. Zhang, A. Tang, T. Reck, and M.C.F. Chang, "A 1.5W 3GHz back-end processor in 65nm CMOS for sub-millimeter-wave heterodyne receiver arrays," IEEE International Symposium on Space Terahertz Technology, 2018
[27] D. Nemchick, B. Drouin, A. Tang, Y. Kim, G. Virbila, and M.C.F. Chang, "A CMOS-based 90-105 GHz pulsed-echo spectrometer: new approaches for highly-mobile and low-power in situ chemical detections," IEEE International Symposium on Space Terahertz Technology, 2018
[26] Y. Zhang, Y. Kim, A. Tang, J. Kawamura, T. Reck, and M.C.F. Chang, "A 2.6GS/s spectrometer system in 65nm CMOS for spaceborne telescopic sensing," IEEE International Symposium on Circuits and Systems, 2018 (2nd Best Paper Award)
[25] Y. Kim, Y. Du, A. Tang, Y. Zhao, B. Lee, H. Chen, C. Jou, J. Cong, T. Itoh, and M.C.F. Chang, "A 125GHz transceiver in 65nm CMOS assembled with FR4 PCB antenna for contactless wave-connectors, IEEE International Microwave Symposium, 2017
[24] Y. Kim, A. Tang, K.N. Liou, T. Painter, and M.C.F. Chang, "A Ku-band CMOS FMCW radar transceiver with ring oscillator based waveform generation for snowpack remote sensing," IEEE International Microwave Symposium, 2017
[23] P. Siegel, A. Tang, Rod Kim, G. Virbila, M.C.F. Chang, and V. Pikov, "Noninvasive in vivo millimeter-wave measurements of glucose: First results in human subjects," 42nd International Conference on Infrared, Millimeter, and Terahertz Waves, 2017
[22] A. Tang, Y. Kim, L. Du, T. Reck, and M.C.F. Chang, "Chirp-partition based pre-distortion for reduced carrier leakage in circulator-based wide-band FMCW radar systems," IEEE International Microwave Symposium, 2017
[21] B. Drouin, A. Tang, T. Reck, D. Nemchick, M. Cich, T. Crawford, A. Raymond, M.C.F. Chang, and Y. Kim, "Millimeter wave spectroscopy in a semi-confocal Fabry-Perot Cavity," 72nd International Symposium on Molecular Spectroscopy, 2017
[20] Y. Du, W. Cho, Y. Li, C. Wong, J. Du, P. Huang, Yanghyo Kim, Z. Chen, S. Lee, and F. Chang, “A 16Gb/s 14.7mW tri-band cognitive serial link transmitter with forwarded clock to enable PAM-16 / 256-QAM and channel response detection in 28-nm CMOS,” IEEE Symposium on VLSI Circuits, 2016
[19] B. Drouin, A. Tang, E. Schlecht, E. Brageot, A Daly, Q. Gu, Y. Ye, R. Shu, M.C.F. Chang, and Y. Kim, "A CMOS millimeter-wave transceiver embedded in a semi-confocal fabry perot cavity," 71st International Symposium on Molecular Spectroscopy, 2016
[18] A. Raymond, B. Drouin, A. Tang, E. Schlecht, Y. Kim, and M.C.F. Chang, "In situ gas sensing with a 100GHz CMOS spectrometer," IEEE Aerospace Conference Proceedings, 2016
[17] A. Tang, Y. Kim, and J. Gu, "A 0.43K noise equivalent-dT 100GHz Dicke-free radiometer with 100% time efficiency in 65nm CMOS," IEEE International Solid State Circuits Conference, 2016
[16] A. Tang, T. Reck, Y. Kim, G. Virbila, G. Chattopadhyay, M.C.F. Chang, "A 65nm CMOS 88-105 GHz DDFS-based fractional synthesizer for high resolution planetary exploration spectroscopy," IEEE International Microwave Symposium, 2016
[15] Y. Zhao, Z. Chen, G. Virbila, Y. Xu, R. Hadi, Y. Kim, A. Tang, T. Reck, and M.C.F. Chang, "An integrated 0.56THz frequency synthesizer with 21GHz locking range and -74dBc/Hz phase noise at 1MHz Offset in 65nm CMOS," IEEE International Solid-State Circuits Conference, 2016
[14] A. Tang, T. Reck, R. Shu, L. Samoska, Y. Kim, Y. Yu, Q. Gu, B. Drouin, J. Truettel, R. Hadi, Y. Xu, S. Sarkozy, R. Lai, M.F.C. Chang, and I. Mehdi, "A W-band 65nm CMOS/InP-hybrid radiometer & passive imager," IEEE International Microwave Symposium, 2016
[13] W. Cho, Y. Li, Y. Kim, P. Huang, S. Lee, and M.C.F. Chang, "A 5.4mW 4Gb/s 5Band QPSK transceiver for frequency-division multiplexing memory interface," IEEE Custom Integrated Circuits Conference, 2015
[12] B. Drouin, A. Tang, E. Schlecht, A. Daly, E. Brageot, Q. Gu, Y. Ye, R. Shu, M.C.F. Chang, and Y. Kim, "Implementation of CMOS millimeter-wave devices for rotational spectroscopy," International Symposium on Molecular Spectroscopy, 2015
[11] P. Siegel, A. Tang, G. Virbila, Y. Kim, M.C.F. Chang, and V. Pikov, "Compact non-invasive millimeter-wave glucose sensor," International Conference on infrared, Millimeter, and Terahertz Waves, 2015
[10] F. Hsiao, A. Tang, Y. Kim, B. Drouin, G. Chattopadhyay, and M.C.F. Chang, "A 2.2GS/s 188mW spectrometer processor in 65nm CMOS for supporting low-power THz planetary instruments," IEEE Custom Integrated Circuits Conference, 2015
[9] Z. Chen, A. Tang, Y. Kim, M.-C.F. Chang, "A wide-band 65nm CMOS 28-34GHz synthesizer module enabling low power heterodyne spectrometers for planetary exploration," IEEE International Microwave Symposium, 2015
[8] A. Tang, F. Hsiao, Y. Kim, M.-C.F. Chang, "A 95GHz centimeter scale precision confined pathway system-on-chip navigation processor for autonomous vehicles in 65nm CMOS," IEEE International Microwave Symposium, 2015
[7] G. Chattopadhyay, T. Reck, A. Tang, C. Jung-Kubiak, C. Lee, J. Siles, E. Schlecht, Y. Kim, M.-C.F. Chang, and I. Mehdi, "Compact terahertz instruments for planetary missions," IEEE 9th European Conference on Antennas and Propagation, 2015
[6] Y. Kim, G.-S. Byun, A. Tang, H.H. Hsieh, P.Y. Wu, G. Reinman, J. Cong, and M.-C. F. Chang, "An 8Gb/s/pin 4pJ/b/pin single-T-line dual (Base+RF) band simultaneous bidirectional mobile memory I/O interface with inter-channel interference suppression," IEEE International Solid-State Circuits Conference, pp. 50-51, 2012
[5] A. Tang, D. Murphy, G. Virbila, F. Hsiao, S.-W. Tam, H.-T. Yu, Y. Kim, A. Wong, A. Wong, Y.-C. Wu, and M.-C. F. Chang, "D-band frequency synthesis using a U-band PLL and frequency tripler in 65nm CMOS technology," IEEE International Microwave Symposium, 2012
[4] G. Byun, Y. Kim, J. Kim, S.-W. Tam, H.H. Hsieh, P.Y. Wu, C. Jou, J. Cong, G. Reinman, and M.-C. F. Chang, "An 8.4Gb/s 2.5pJ/b mobile memory I/O interface using simultaneous bi-directional dual (base+RF) band signaling," IEEE International Solid-State Circuits Conference, pp. 488-490, 2011
[3] S.-W. Tam, H. Yu, Y. Kim, E. Socher, M.-C. F. Chang, and T. Itoh, "A dual-band mm-wave CMOS oscillator with left-handed resonator," IEEE Radio Frequency Integrated Circuits Symposium, pp. 477-480, 2009
[2] F. Yang, Y. Kim, A. Yu, J. Huang, and A. Z. Elsherbeni, “A single layer reflectarray antenna for C/X/Ka bands applications,” IEEE International Conference on Electromagnetics in Advanced Applications, 2007
[1] F. Yang, Y. Kim, J. Huang, and A. Z. Elsherbeni, "A single layer tri-band reflectarray antenna design," IEEE Antennas and Propagation Society International Symposium, pp. 5307-5310, 2007