{"id":52,"date":"2015-04-30T16:34:15","date_gmt":"2015-05-01T00:34:15","guid":{"rendered":"http:\/\/www.ece.ucdavis.edu\/hsics\/?page_id=52"},"modified":"2024-03-02T06:11:44","modified_gmt":"2024-03-02T06:11:44","slug":"publications","status":"publish","type":"page","link":"https:\/\/www.ece.ucdavis.edu\/hsics\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

Journal Articles<\/strong><\/h3>\n
    \n
  1. N. Li et al., “A C-Band Slat-Type Phased-Array Receiver With Co-Aperture Concurrent Eight Beams,” in IEEE Transactions on Microwave Theory and Techniques, doi: 10.1109\/TMTT.2024.3363048<\/li>\n
  2. H. Nie et al., “A 1.3\u20131.7-GHz Q -Enhanced Resonator-Based High-IF Bandpass Filter With 1.5%\u201367% Tunable Fractional Bandwidth in 65-nm CMOS Process,” in IEEE Transactions on Microwave Theory and Techniques, doi: 10.1109\/TMTT.2023.3342627.<\/li>\n
  3. X. Ding, H. Yu, S. Sabbaghi and Q. J. Gu, “Design and Analysis of a Mode-Coupler-Based Multimode Multidrop Si Dielectric Waveguide Channel for Sub-THz\/THz Interconnect,” in IEEE Transactions on Microwave Theory and Techniques, doi: 10.1109\/TMTT.2023.3290189.<\/li>\n
  4. Y. Li et al., “A Ku-Band 20.4% Tuning Range VCO With a Tunable Harmonic-Resonant Transformer in 55 nm CMOS,” in IEEE Microwave and Wireless Technology Letters, vol. 33, no. 6, pp. 719-722, June 2023, doi: 10.1109\/LMWT.2023.3244944.<\/li>\n
  5. T. Xu, J. Chen, L. Du, C. Song, Q. J. Gu and Z. Xu, “An Inverted Complementary Cross-Coupled VCO to Reduce Phase Noise Sensitivity to KVCO,” in IEEE Microwave and Wireless Technology Letters, vol. 33, no. 5, pp. 571-574, May 2023, doi: 10.1109\/LMWT.2023.3234292.<\/li>\n
  6. Y. Yuan et al., “A Compact Ka-Band Eight-Element Four-Beam Receiver for Low-Earth-Orbit Satellite Communications in 65-nm CMOS,” in IEEE Microwave and Wireless Technology Letters, June 2023, doi: 10.1109\/LMWT.2023.3265022.<\/li>\n
  7. X. Ding, H. Yu, S. Sabbaghi and Q. J. Gu, “G-Band Mode-Coupler-Based Si Dielectric Waveguide for Multidrop Sub-THz Interconnect,” in IEEE Microwave and Wireless Technology Letters, June 2023, doi: 10.1109\/LMWT.2023.3239624.<\/li>\n
  8. X. Jiang, X. Gao, X. Wu, Q. J. Gu and X. Liu, “Automatic RF Leakage Cancellation for Improved Remote Vital Sign Detection Using a Low-IF Dual-PLL Radar System,” in IEEE Transactions on Microwave Theory and Techniques, vol. 71, no. 6, pp. 2664-2679, June 2023, doi: 10.1109\/TMTT.2022.3231658.<\/li>\n
  9. M. Li, H. Gao, N. Li, S. Wang, Z. Zhang, P. Chen, N. Wei, X. Yu, J. Gu, C. Song, and Z. Xu, “A 17.7\u201319.2-GHz Receiver Front End With an Adaptive Analog Temperature-Compensation Scheme,” in IEEE Transactions on Microwave Theory and Techniques, 2022, doi: 10.1109\/TMTT.2022.3215558.<\/li>\n
  10. P. Chen, H. Gao, N. Li, S. Wang, N. Wei, M. Li, C. Song, Q. J. Gu, and Z. Xu, “Design and Analysis of a 26\u201334.5-GHz Power Amplifier With Balanced Mismatch Reduction and Interstage Matching,” IEEE Microwave and Wireless Components Letters, vol. 32, no. 8, pp. 968-971, Aug. 2022, doi: 10.1109\/LMWC.2022.3159804.<\/li>\n
  11. L. Qiu, J. Liu , Q. Dong , Z. lv , K. Zhao , S. Wang , Y.-C. Kuan , Q. Jane Gu , X. Yu , C. Song , Z. Xu, \u201cUltra-Low Power E-band Low Noise Amplifier with Three Stacked Current-Sharing Amplification Stages in 28-nm CMOS,\u201d IEEE Microwave and Wireless Components Letters, April 2022<\/li>\n
  12. Z. Zhang, N. Li, H. Gao, M. Li, S. Wang,Y.-C. Kuan, C. Song, X. Yu, Q. J. Gu, and Z. Xu \u201cA DC-Ka Band 7-Bit Passive Attenuator With Capacitive Compensation Based Bandwidth Extension Technique in 55 nm CMOS,\u201d IEEE Transactions on Microwave Theory and Techniques (TMTT), May 2021<\/li>\n
  13. D. Wei, X. Ding, H. Yu, Y.-C. Kuan, Q. J. Gu, Z. Xu, S. Ma, and J. Ren, \u201cAnalysis and Design of a 35-GHz Hybrid \u03c0-Network High-Gain Phase Shifter with 360\u00b0 Continuous Phase Shifting,\u201d IEEE Access, January 2021<\/li>\n
  14. N. Li, M. Li, S. Wang, Z. Zhang, H. Gao, Y.-C. Kuan, C. Song, X. Yu, Q. J. Gu, and Z. Xu \u201cA Four-Element 7.5\u20139-GHz Phased-Array Receiver With 1\u20138 Simultaneously Reconfigurable Beams in 65-nm CMOS,\u201d IEEE Transactions on Microwave Theory and Techniques (TMTT), January 2021<\/li>\n
  15. H. Gao, N. Li, M. Li, S. Wang, Z. Zhang, Y.-C. Kuan, X. Yu, Q. J. Gu, and Z. Xu, \u201cA 6.5\u201312GHz Balanced Variable Gain Low-Noise Amplifier with Frequency-Selective Non-Foster Gain Equalization Technique,\u201d accepted IEEE Transactions on Microwave Theory and Techniques<\/li>\n
  16. Q. Jane Gu, \u201cSub-THz\/THz Interconnect, Complement to Electrical and Optical Interconnects,\u201d Fall 2020 IEEE Solid-State Circuits Magazine<\/li>\n
  17. M. Li, N. Li, H. Gao, Z. Zhang, S. Wang, Y.-C. Kuan, C. Song, X. Yu, Q. J. Gu, and Z. Xu, \u201cAn 800-ps Origami True-Time-Delay-Based CMOS Receiver Front End for 6.5-9 GHz Phased Arrays,\u201d IEEE Solid-State Circuits Letters, September 2020<\/li>\n
  18. D. Wei, X. Ding, H. Yu, Y.-C. Kuan, Q. J. Gu, Z. Xu, S. Ma, and J. Ren \u201cA 29-\/35-GHz Dual-Band High-Gain Phase Shifter with Hybrid \u03c0-Networks,\u201d Electronics Letters, 2020<\/li>\n
  19. Y. Wang, B. Yu, Y. Ye, C.-N. Chen, Q. J. Gu, and H. Wang, \u201cA G-Band On-Off-Keying Low Power Transmitter and Receiver for Interconnect Systems in 65-nm CMOS,\u201d Accept IEEE Transactions on Terahertz Science and Technology, Nov. 2019<\/li>\n
  20. J. Li, R. Shu, Z. Xu, and Q. J. Gu, \u201cA 21dm-OP1dB 20.3%-Efficiency -131.8dBm\/Hz-Noise X-band Cartesian-Error-Feedback Transmitter with Fully Integrated Power Amplifier in 65nm CMOS,\u201d Accept JSSC, Nov. 2019<\/li>\n
  21. S. Hao, J. Li, T. Hu, V. Squitieri, Y. Tang, Z. Xu and Q. Jane Gu, \u201cAn Active Circulator Based Delay Line,\u201d IEEE MWCL, July 2019<\/li>\n
  22. J. Li, and Q. J. Gu, \u201cHarmonic-Based Nonlinearity Factorization of Switching Behavior in Up-Conversion Mixers,\u201d IEEE Transactions on Circuits and Systems I, March 2019<\/li>\n
  23. S. Ma, H. Yu, Q. J. Gu, and J. Ren, “A 5-10 Gbps 12.5 mW Source Synchronous I\/O Interface with 3D Flip Chip Package,” IEEE TCAS-I, vol. 66, Feb. 2019<\/li>\n
  24. B. Yu, X. Ding, H. Yu, Y. Ye, X. Liu, and Q. J. Gu, \u201cRing Resonator based Sub-THz Dielectric Sensor,\u201d IEEE MWCL September 2018<\/li>\n
  25. S. Hao, T. Hu, and Q. J. Gu, \u201cTime-Amplifier Enhanced Phase Noise Filter,\u201d IEEE MWCL July, 2018<\/li>\n
  26. S. Ma, H. Yu, Q. J. Gu, and J. Ren, \u201cA 7.52 dB NF, 128.75-132.25 GHz Super-Regenerative Receiver with 0.615 fW\/Hz0.5 NEP by Coupled Oscillator Networks for Portable Imaging System in 65nm CMOS,\u201d IEEE\u00a0Transactions on Microwave Theory and Techniques, September 2018<\/li>\n
  27. S. Hao, T. Hu, and Q. J. Gu, \u201c10 GHz inverter-type-time-amplifier based phase noise filter with -133 dBc\/Hz phase noise sensitivity,\u201d IEL, April 2018<\/li>\n
  28. M. N. Hasan, S. Saeedi, Q J Gu, H. H. Sigmarsson, and X. Liu \u201cDesign Methodology of N-Path Filters With Adjustable Frequency, Bandwidth, and Filter Shape\u201d IEEE Transactions on Microwave Theory and Techniques, March 2018<\/li>\n
  29. B. Yu, Y. Ye, X. Ding, Y. Liu, Z. Xu, X. Liu, and Q. J. Gu, \u201cOrtho-Mode Sub-THz Interconnect Channel for Planar Chip-to-chip Communications\u201d, IEEE Transactions on Microwave Theory and Techniques, December 2017<\/li>\n
  30. J. Li, Z. Xu, W. Hong, and Q. J. Gu, \u201cA Cartesian Error Feedback Architecture\u201d IEEE IEEE Transactions on Circuits and Systems I, November 2017<\/li>\n
  31. T. Hu, S. Hao, and Q. J. Gu, \u201cAnalysis and Design of Bang-Bang PD based Phase Noise Filter,\u201d\u00a0\u00a0IEEE Trans. on Circuits and Systems I<\/em>, Octrober 2017<\/li>\n
  32. S. Hao, T. Hu, and Q. J. Gu, \u201cA CMOS Phase Noise Filter with Passive Delay Line and PD\/CP based Frequency Discriminator,\u201d\u00a0\u00a0IEEE Transactions on Microwave Theory and Techniques<\/em>, November 2017<\/li>\n
  33. R. Shu, J. Li, A. Tang, B. J. Drouin, Q. J. Gu, \u201cCoupling Inductor based Hybrid mm-Wave CMOS SPST Switch,\u201d IEEE Trans. on Circuits and Systems II, April 2017<\/li>\n
  34. Y. Wang, B. Tobias, Y.-T. Chang, J.-H. Yu, M. Li, F. Hu, M. Chen, M. Mamidanna, T. Phan, A.-V. Pham, J. Gu, X. Liu, Y. Zhu, C.W. Domier, L. Shi, E. Valeo, G.J. Kramer, D. Kuwahara, Y. Nagayama, A. Mase, and N.C. Luhmann Jr, \u201cMillimeter-wave imaging of magnetic fusion plasmas: technology innovations advancing physics understanding,\u201d vol. 57, Nuclear Fusion, March 2017<\/li>\n
  35. S. Hao, T. Hu, and Q. J. Gu, “A 10 GHz Delay Line Frequency Discriminator and PD\/CP based CMOS Phase Noise Measurement Circuit”, IEEE Transactions on Microwave Theory and Techniques, May 2017<\/em><\/li>\n
  36. Y.-T. Chang, Y. Ye, H. Xu, Q. J. Gu, C. Domier, and N. C, Luhmann, Jr., \u201cA Ultra-Wideband CMOS PA with Dummy Filling for Reliability,\u201d accepted Elsevier Solid State Electronics<\/em>, <\/em><\/strong>2016<\/li>\n
  37. M. Naimul Hasan, Q. J. Gu, and X. Liu, \u201cTunable Blocker-Tolerant On-chip RF Front-end Filter with Dual Adaptive Transmission Zeros for Software Defined Radio Applications,\u201d IEEE TMTT, December 2016<\/li>\n
  38. Y. Ye, B. Yu, and Q. J. Gu, \u201cA 165 GHz Transmitter with 10.6% Peak DC-to-RF Efficiency and 0.68 pJ\/bit Energy Efficiency on 65 nm Bulk CMOS,\u201d Nov. IEEE TMTT, 2016<\/li>\n
  39. R. Shu and Q. J. Gu,, \u201cA Transformer-based V-Band SPDT Switch,\u201d IEEE MWCL, 2016<\/li>\n
  40. B. J. Drouin, A. Tang, E. Schlecht, E. Brageot, Q. Jane Gu, Y. Ye, R. Shu, M.-C. F. Chang, Y. Kim, \u201cA CMOS millimeter-wave transceiver embedded in a semi-confocal Fabry-Perot Cavity for molecular spectroscopy,\u201d Journal of Chemical Physics<\/em>, vol 145, no.7, August 2016<\/li>\n
  41. R. Shu, J. Li, A. Tang, B. J. Drouin, Q. J. Gu, \u201cCoupling Inductor based Hybrid mm-Wave CMOS SPST Switch,\u201d TCAS-II, April 2016<\/li>\n
  42. B. Yu, Y. Liu, Y. Ye, X. Liu, and Q. J. Gu, \u201cLow-loss and Broadband G-Band Dielectric Interconnect for Chip-to-Chip Communication,\u201d IEEE Microwave and Wireless Components Letter, June 2016<\/em><\/li>\n
  43. Q. J. Gu, J. Li, and A. Tang, \u201cPower Detectors for Microwave\/mm-Wave Imaging Systems on InP\/Silicon BiCMOS\/CMOS Technologies,\u201d Elsevier Solid State Electronics, January 2016<\/em><\/li>\n
  44. B. You, S.\u00a0Lu, L.\u00a0Chen, Q. J. Gu, “A Half-mode Substrate-Integrated Filter With\u00a0Tunable Center Frequency and Reconfigurable\u00a0Bandwidth,” IEEE Microwave and Wireless Components Letter, February 2016<\/em><\/li>\n
  45. B. Yu, Y. Liu, X. Liu, and Q. J. Gu, \u201cHigh Efficiency Micromachined Sub-THz Channels for Low Cost Interconnect for Planar Integrated Circuits<\/a>,\u201d IEEE Transactions on Microwave Theory and Techniques, vol. 64, no. 1, pp. 96-104, January 2016<\/em><\/li>\n
  46. Y. Ye, B. Yu, A. Tang, B. Drouin, and Q. J. Gu, \u201cHigh Efficiency Micromachined Sub-THz Channels for Low Cost Interconnect for Planar Integrated Circuits<\/a>,\u201d IEEE Microwave and Wireless Components Letters, vol. 26, no. 1, pp. 40-42, January 2016<\/em><\/li>\n
  47. J. Li, R. Shu and Q. J. Gu, “10 GHz CMOS hybrid reflective-type phase shifter with enhanced phase shifting range<\/a>,” IET Electronic Letters, vol. 51, no. 23, pp. 1935-1937, November 2015<\/em><\/li>\n
  48. Z. Xu, D. Winklea, T. C. Oh, S. Kim, S. T.W. Chen, Y. Royter, M. Lau, I. Valles, D. A. Hitko, J. C. Li, Q. J. Gu, \u201c0.8\/2.2-GHz Programmable Active Bandpass Filters in InP Si BiCMOS Technology<\/a>,\u201d IEEE Transactions on Microwave Theory and Techniques, <\/em>vol. 63, no. 4, pp. 1219-1227, April 2015<\/li>\n
  49. Q. J. Gu, \u201cTHz Intercon<\/a>nect The Last Centimeter Communication<\/a>,\u201d IEEE Communication Magazine<\/em>, vol. 53, no. 4, pp.206-215, April 2015<\/li>\n
  50. Q. J. Gu, Z. Xu, and J. Liu, \u201cPhysical Design Optimization of MOSFETs for Millimeter Wave and Sub-millimeter Wave Circuits<\/a>,\u201d Analog Integrated Circuits and Signal Processing<\/em>, vol. 83, no. 1, pp. 11-22, April 2015<\/li>\n
  51. Z. Xu, Q. J. Gu, Y.-C. Wu, and M.-C. F. Chang, \u201cIntegrated D-band transmitter and receiver for wireless data communication in 65 nm CMOS<\/a>,\u201d Analog Integrated Circuits and Signal Processi<\/em>ng, vol. 82, no.1, pp. 171-179, November 2014<\/li>\n
  52. Q. J. Gu and Z. Gao, \u201cA CMOS High Speed Multi-Modulus Divider With Retiming for Jitter Suppression<\/a>,\u201d IEEE Microwave and Wireless Components Letters<\/em> April 2013<\/li>\n
  53. Q. J. Gu, K. Yang, Y. Xue, Z. Xu, A. Tang, C. C. Nien, T. H. Wu, J. H. Tarng and M.-C. F. Chang, \u201cA CMOS Integrated W-band Passive Imager<\/a>,\u201d\u00a0 IEEE Trans. on Circuits and Systems II, vol. 59, no. 11, November 2012<\/li>\n
  54. Q. J. Gu, Z. Xu, A. Tang, and M.-C. F. Chang, \u201cA D-Band Passive Imager in 65 nm CMOS<\/a>,\u201d\u00a0 IEEE Microwave and Wireless Components Letters, vol.22, no. 5, pp. 263-265, May 2012<\/em><\/li>\n
  55. Q. J. Gu, Z. Xu, and M.-C. F. Chang, \u201cTwo-Way Current-Combining w-Band Power Amplifier in 65-nm CMOS<\/a>,\u201d IEEE Transactions on Microwave Theory and Techniques, vol. 60, no. 5, pp. 1365-1374, May 2012<\/em><\/li>\n
  56. Q. J. Gu, Z. Xu, H.-Y. Jian, B. Pan, X. Xu, F. Chang, W. Liu, and H. Fetterman, \u201cCMOS THz Generator With Frequency Selective Negative Resistance Tank<\/a>,\u201d IEEE Transactions on Terahertz Science and Technology, <\/em>vol. 2, no. 2, March 2012<\/em><\/li>\n
  57. Z. Xu, Q. J. Gu, Y.-C. Wu, H.-Y. Jian, and M. C. Frank Chang, \u201cA 70\u201378-GHz Integrated CMOS Frequency Synthesizer for W-Band Satellite Communications<\/a>,\u201d IEEE Transactions on Microwave Theory and Techniques, <\/em>vol.59, no.12, pp.3206-3218, Dec.2011<\/li>\n
  58. A. Tang, Q. J. Gu, and M.-C. F. Chang, \u201cCMOS Receivers for Active and Passive mm-Wave Imaging<\/a>,\u201d IEEE Communication Magazine, <\/em>vol. 49, no. 10, Oct. 2011<\/li>\n
  59. Z. Xu, Q. J. Gu, and M.-C. F. Chang, \u201cA Three Stage, Fully Differential 128\u2013157 GHz CMOS Amplifier with Wide Band Matching<\/a>,\u201d IEEE Microwave and Wireless Components Letters, <\/em>vol. 21, no. 10, pp 550-552, Oct. 2011<\/li>\n
  60. Z. Xu, Q. J. Gu, and M.-C. F. Chang, \u201cA 100\u2013117 GHz W-Band CMOS Power Amplifier With On-Chip Adaptive Biasing<\/a>,\u201d IEEE Microwave and Wireless Components Letters,<\/em> vol. 21, no. 10, pp 547-549, Oct. 2011<\/li>\n
  61. Q. J. Gu, H.-Y. Jian, Z. Xu, Y.-C. Wu, F. Chang, Y. Baeyens, and Y.-K. Chen, \u201cCMOS Prescaler(s) With Maximum 208-GHz Dividing Speed and 37-GHz Time-Interleaved Dual-Injection Locking Range<\/a>,\u201d IEEE Transactions on Circuits and Systems-II, <\/em>vol.58, no.7, pp. 393-397, July 2011<\/li>\n
  62. D. Murphy, Q. J. Gu, Y.-C. Wu, H.-Y. Jian, Z. Xu, A. Tang, F. Wang, and M.-C. F. Chang, \u201cA Low Phase Noise, Wideband and Compact CMOS PLL for Use in a Heterodyne 802.15.3c Transceiver<\/a>,\u201d \u00a0IEEE Journal of Solid-State Circuits, <\/em>vol. 46, no. 7, pp.1606-1617, July, 2011<\/li>\n
  63. J. Y.-C. Liu, Q. J. Gu, A. Tang, N.-Y. Wang, and M.-C. F. Chang, \u201cA 60 GHz Tunable Output Profile Power Amplifier in 65 nm CMOS<\/a>,\u201d IEEE Microwave and Wireless Components Letters<\/em>, vol.21, issue 7, pp. 377-379,\u00a0 July 2011<\/li>\n
  64. Q. J. Gu, Z. Xu, H.-Y. Jian, A. Tang, M.-C. F. Chang, C.-Y. Huang, and C.-C. Nien, \u201c100 GHz integrated CMOS passive imager with 100 MV_W responsivity, 23fW_sqrtHz NEP<\/a>,\u201d IET Electronics Letters<\/em>, vol. 47, issue 9, pp. 544-545, 2011 , Featured Paper<\/strong><\/li>\n
  65. Z. Xu, Q. J. Gu, and M. C. Frank Chang, \u201c200 GHz CMOS amplifier working close to device fT<\/a>,\u201d IET Electronics Letters<\/em>, vol. 47, issue. 11, pp. 639-641, 2011<\/li>\n
  66. Q. Gu, Z. Xu, D. Huang, T. LaRocca, N. Wang, and M.-C. F. Chang, \u201cA Low Power V-Band CMOS Frequency Divider With Wide Locking Range and Accurate Quadrature Output Phases<\/a>,\u201d IEEE Journal of Solid-State Circuits<\/em>, pp. 991-998, Apr. 2008.<\/li>\n
  67. M. F. Chang, I. Verbauwhede, C. Chien, Z. Xu, J. Kim, J. Ko, Q. Gu, and B. Lai, \u201cAdvanced RF_Baseband Interconnect Schemes for Inter- and Intra-ULSI Communications<\/a>,\u201d IEEE Trans. On Electron Devices<\/em>, vol. 52, no. 7, pp. 1271-1285, Jul. 2005.<\/li>\n<\/ol>\n

    Conference Papers<\/strong><\/h3>\n
      \n
    1. Jiangbo Chen, et al., \u201cA 56 \u2013 65 GHz Highly-Integrated FMCW Radar Transceiver with 7.8dB NF and 8 GHz Chirp-Bandwidth in 65-nm CMOS,\u201d accepted IEEE RFIC 2024<\/li>\n
    2. Nayu Li, et al., \u201cA Ka-band 8-element 4-Beam Transmitter Front End with Hybrid VGA and Symmetrical Transformer-based Doherty PA,\u201d accepted IEEE RFIC 2024<\/li>\n
    3. Hang Lu, et. al, \u201cA K-Band 4-Element 8-Beam Phased-Array Receiver with Hybrid Vector Interpolation and Impedance-Adapted Multibeam Combining Techniques for Satellite Communications,\u201d accepted IEEE RFIC 2024<\/li>\n
    4. Shengjie Wang, et al., \u201cA 90-98-GHz FMCW Radar Transceiver Supporting Broadband Modulation in 65nm CMOS,\u201d accepted IEEE RFIC 2024<\/li>\n
    5. Yuan, N. Li, J. Zhou, H. Gao, S. Wang, H. Lu, Q. J. Gu, C. Song, and Z. Xu, \u201cA Compact Ka-Band Eight-Element Four-Beam Receiver for Low-Earth-Orbit Satellite Communications in 65-nm CMOS,\u201d IEEE IMS 2023, Best Student Paper Award, 3rd Place Winner<\/strong><\/li>\n
    6. Ma, B. Lan, W. Zhou, J. Chen, Z. Liu, Q.J. Gu, C. Song, Z. Xu, \u201cA 30\u2013680-MHz GaAs pHEMT Power Amplifier with Guanella-Type Transformers Integrated on a Flexible Printed Circuit Board,\u201d IEEE IMS 2023<\/li>\n
    7. Yuan, S. Wang, J. Chen, J. Liu, Q. Li, Q. Yang, Q.J. Gu, C. Song, and Z. Xu, \u201cA CMOS Low Power K-Band FMCW Radar Transceiver Front-End for AIOT Application,\u201d IEEE IMS 2023<\/li>\n
    8. Zhou, N. Li, Y. Yuan, H. Gao, S. Wang, H. Lu, C. Song, Y.-C. Kuan, Q. J. Gu, and Z. Xu, \u201cA C-Band Compact High-Linearity Multibeam Phased-Array Receiver with Merged Gain- Programmable Phase Shifter Technique,\u201d IEEE RFIC 2023<\/li>\n
    9. Hai Yu, et al., \u201cA 160GHz Integrated Permittivity Sensor with Resolution of 0.05% \u2206\u03b5r in 28nm CMOS,\u201d IEEE RFIC 2023<\/li>\n
    10. Nayu Li, et al.,\u201cA C-Band Compact High-Linearity Multibeam Phased-Array Receiver With Merged Gain-Programmable Phase Shifter Technique,\u201d IEEE RFIC 2023<\/li>\n
    11. Xuan Ding, Hai Yu, Sajjad Sabbaghi and Qun Jane Gu, \u201cA 1.6pJ\/b 65Gb\/s Si-Dielectric-Waveguide based Multi-Mode Multi-Drop sub-THz Interconnect in 65nm CMOS,\u201d IEEE CICC 2023<\/li>\n
    12. Xuan Ding, Bo Yu, Hai Yu, Sajjad Sabbaghi and Qun Jane Gu, \u201cMultiplexing Schemes for sub-THz\/THz Interconnects,\u201d IEEE RFIT 2022, Invited paper<\/strong><\/li>\n
    13. L. Qiu, J. Liu, Q. Dong, Z. Lv , K. Zhao, S. Wang, Y.-C. Kuan, Q. J. Gu, X. Yu, C. Song, and Z. Xu, \u201cUltralow Power E-Band Low-Noise Amplifier With Three-Stacked Current-Sharing Amplification Stages in 28-nm CMOS,\u201d IEEE IMS 2022, Student Paper Finalist<\/li>\n
    14. K. Zhao, L. Qiu, J. Chen, Q. Dong, Y.-C. Kuan, Q. J. Gu, C. Song, and Z. Xu, \u201cAn E-band Subradix Active Phase Shifter With < 0.69\u00b0 RMS Phase Error and 16-dB Attenuation in 28-nm CMOS,\u201d IEEE IMS 2022<\/li>\n
    15. Q. Dong, L. Qiu, S. Wang, H Gao, K. Zhao, Z. Qian, J. Chen, Y.-C. Kuan, Q. J. Gu, C. Song, and Z. Xu, \u201cA 27 – 57 GHz Down-conversion Mixer with Bulk Injection Technique,\u201d IEEE IMS 2022<\/li>\n
    16. X. Ding, H. Yu, and Q. J. Gu, \u201cAn FDD-based Full-Duplex Sub-THz Interconnect with Data-rate of 22.6 Gb\/s and Energy-Efficiency of 1.58pJ\/bit,\u201d IRMMW-THz 2021, Best Student Presentation Award Finalist<\/li>\n
    17. H. Nie, Z. Huang, T. Yu, D. Liu, X. Yu, Q. J. Gu, and Z. Xu, \u201cA CMOS 1.3-1.7GHz Q Enhanced LC Band pass RF Filter with 1.5-67% Tunable Fractional Bandwidth,\u201d IEEE IMS 2021<\/li>\n
    18. J. Liu, S. Wang, Y. Gong, D. Liu, H. Nie, C. Song, Q. J. Gu, Z. Xu, \u201cA 0.7-8 GHz High IF Frequency-Extended Transmitter Front-End With \u221247.1-dB EVM at 16 QAM in 65-nm CMOS,\u201d IEEE RFIC 2021<\/li>\n
    19. M. Li, N. Li, H. Gao, S. Wang, Z. Zhang, P. Chen, N. Wei, Q. J. Gu, Z. Xu, \u201cAn Adaptive Analog Temperature Healing Low-Power 17.7-19.2 GHz RX Front End with \u00b10.005dB\/\u00b0C Gain Variation, <1.6dB NF Variation, and <2.2dB IP1dB Variation across -15~85\u00b0C for Phased Array Receiver,\u201d Accepted 2021 IEEE International Solid-State Circuits Conference (ISSCC)<\/li>\n
    20. S. Hao, Y.-W. Tang, X. Ding, L. Du, Y. Du, A. Tang, Q. J. Gu, M.-C. F. Chang, \u201cAn 8.3% Efficiency 96-134 GHz CMOS Frequency Doubler Using Distributed Amplifier and Nonlinear Transmission Line,\u201d IEEE ASSCC 2020<\/li>\n
    21. H. Yu, B. Yu, X. Ding, S. G.-Diaz, Q. Jane Gu, \u201cA 162 GHz Ring Resonator based High Resolution Dielectric Sensor,\u201d IMS 2020, Best Student Paper Award, 3rd Place Winner<\/strong><\/li>\n
    22. H. Gao, N. Li, M. Li, S. Wang, Z. Zhang, Y.-C. Kuan, X. Yu, Q. J. Gu, and Z. Xu, \u201cA 6.5\u201312GHz Balanced Variable Gain Low-Noise Amplifier with Frequency-Selective Non-Foster Gain Equalization Technique,\u201d IMS2020<\/li>\n
    23. X. Ding, H. Yu, B. Yu, Z. Xu, and Q.J. Gu, \u201cA Superharmonic Injection Based G-Band Quadrature VCO in CMOS,\u201d IMS2020<\/li>\n
    24. D. Wei, X. Ding, H. Yu, Q.J. Gu, Z. Xu, Y.-C. Kuan, S. Ma, and J. Ren, \u201cA 35GHz Hybrid \u03c0-Network High-Gain Phase Shifter with 360\u00b0 Continuous Phase Shift Range,\u201d IMS2020<\/li>\n
    25. J. Li, R. Shu, Q. J. Gu, \u201cAn 8.5-11 GHz CMOS Transmitter with >19 dBm OP1dB and 24 % Efficiency,\u201d IEEE CICC 2019<\/li>\n
    26. Q. J. Gu, Bo Yu, Xuan Ding, Yu Ye, Xiaoguang Liu, and Zhiwei Xu \u201cTHz interconnect: the last centimeter communication,\u201d SPIE, May 2019, Invited Paper<\/strong><\/li>\n
    27. Jinbo Li and Q. J. Gu, \u201cA 21-dBm OP1dB 20.3%-Efficiency -131.8dBm\/Hz-Noise X-band Cartesian Error Feedback Transmitter with Fully Integrated Power Amplifier in 65nm CMOS,\u201d IEEE ISSCC2019<\/li>\n
    28. T. Hu, S. Hao, and Q. J. Gu, \u201cA 10 GHz Digital Phase Noise Filter with 14 dB Noise Suppression and -127 dBc-Hz Noise Sensitivity at 1 MHz Offset,\u201d RFIC 2018 Student Paper Finalist<\/strong><\/li>\n
    29. Jinbo Li and Q. J. Gu \u201cA 10 GHz Up-conversion Mixer with 14.5 dBm OIP3 Using Regulator-based Constant Gm Stage and Harmonic Nulling,\u201d 2018 IMS Student Paper Finalist<\/strong><\/li>\n
    30. H. Lu, G. Liu, R. Proietti, V. Squitieri, K. Zhang, A. Castro, Q. J. Gu, Z. Ding, S. J. Ben Yoo, \u201cmmWave Beamforming using Photonic Signal Processing for Future 5G Mobile Systems,\u201d 2018 Optical Fiber Communication Conference (OFC), March 2018<\/li>\n
    31. B. Yu, Y. Ye, X. Ding, C. Neher, X. Liu, Z. Xu, Q. J. Gu, \u201cSub-THz Interconnect for Planar Chip-to-Chip Communications,\u201d IEEE SiRF 2018, Invited Paper<\/strong><\/li>\n
    32. S. Hao, T. Hu, and Q. J. Gu, \u201cFrequency Discriminator based Phase Noise Filter for High Fidelity Clock,\u201d IEEE International Symposium on Radio-Frequency Integration Technology <\/em>RFIT2017, \u00a0Invited Paper<\/strong><\/li>\n
    33. J. Li and Q. J. Gu, \u201cA Low-Noise Cartesian Feedback Architecture,\u201d 2017 IEEE International Symposium on Circuits and Systems<\/em> ISCAS2017<\/li>\n
    34. H. Wang, D. Kuzmenko, B. Yu, Y. Ye, Q. J. Gu, H. Rashtian, X. Liu;, \u201cA Compact 213-GHz CMOS Fundamental Oscillator with 0.56 mW Output Power and 3.9% Efficiency using a Capacitive Transformer,\u201d IEEE International Microwave Symposium<\/em> IMS2017<\/li>\n
    35. Y. Wang, B. Yu, Y Ye, H. Wang, and Q. J. Gu, \u201cA G-Band SPST Switch with 2.4-dB Insertion Loss and Minimum 28.5-dB Isolation Using Grounded Co-Planar Waveguide Folded Coupled Line Topology in 65-nm CMOS Technology,\u201d IEEE International Microwave Symposium<\/em> IMS2017<\/li>\n
    36. B. Yu, Y. Ye, X. Ding, Y. Liu, X. Liu, and Q. J. Gu, \u201cDielectric Waveguide Based Multi-Mode sub-THz Interconnect Channel for High Data-Rate High Bandwidth-Density Planar Chip-to-Chip Communication,\u201d IEEE International Microwave Symposium<\/em> IMS2017 Best Student Paper Award, 3rd<\/sup> Place Winner<\/strong><\/li>\n
    37. B. Yu, Y Ye, X. Ding, T. Hu, S. Hao, J. Li, X. Liu, and Q. J. Gu, \u201cHigh Energy-Efficiency High Bandwidth-Density Sub-THz Interconnect for the Last-Centimeter Chip-to-Chip Communications,\u201d IEEE International Microwave Symposium<\/em> IMS2017<\/li>\n
    38. T. Hu, S. Hao, B. Yu, J. Li, Y. Ye and Q. J. Gu, \u201cA Bang-Bang PD based Phase Noise Filter with 23 dB Noise Suppression,\u201d IEEE International Microwave Symposium<\/em> IMS2017<\/li>\n
    39. J. Li and Q. J. Gu, \u201cA Systematic Coupling Balance Scheme to Enhance Amplitude and Phase Matches for Long Traveling N-Pair Differential Signals,\u201d IEEE International Microwave Symposium<\/em> IMS2017<\/li>\n
    40. J. Li, R. Shu, S. Hao, B. Yu, T. Hu, Y. Ye, and Q. J. Gu, \u201cA Fully-Integrated Cartesian Feedback Loop Transmitter in 65nm CMOS,\u201d IEEE International Microwave Symposium <\/em>IMS2017 Advanced Practice Paper Finalist<\/strong><\/li>\n
    41. T. Hu, S. Hao, Q. J. Gu, \u201cA 9.95 – 10.05 GHz Bang-Bang PD based Phase Noise Filter with 10 dB Noise Suppression,\u201d IEEE RFIT 2016, Best Student Paper Award<\/strong><\/li>\n
    42. B. Yu, Y. Ye, X. Liu, Q. J. Gu, \u201cMicrostrip Line based Sub-THz Interconnect for High Energy-Efficiency Chip-to-Chip Communications,\u201d IEEE RFIT 2016<\/li>\n
    43. B. Yu, Y. Ye, X. Liu, Q. J. Gu, \u201cSub-THz Interconnect Channel for Planar Chip-to-Chip Communication,\u201d IEEE International Symposium on Electromagnetic Compatibility 2016<\/li>\n
    44. S. Hao, Q. J. Gu, \u201cA 10 GHz Phase Noise Filter with 10.6 dB Phase Noise Suppression and -116 dBc\/Hz Sensitivity at 1 MHz Offset,\u201d IEEE IMS 2016, Best Student Paper Award, 2nd<\/sup> Place Winner<\/strong><\/li>\n
    45. H. Cheng, Q. J. Gu, Y. Cheng, S. Li, H. Sun, \u201cMulti-Section Auto-Focus Millimeter-Wave Holography,\u201d\u00a0 IEEE IMS 2016<\/li>\n
    46. M. Naimul Hasan, Q. J. Gu, and X. Liu, \u201cTunable Blocker-Tolerant RF Front-end Filter with Dual Adaptive Notches for Reconfigurable Receiver, \u201c IEEE IMS 2016<\/li>\n
    47. Y.-T. Chang, Y. Ye, Q. J. Gu, C. Domier, and N.C. Luhamnn, Jr \u201cThe V-Band CMOS Multi-Frequency Transmitter for Plasma Imaging Radar Reflectometric Diagnostic,\u201d IEEE IMS 2016<\/li>\n
    48. S. Hao, T. Hu, and Q. J. Gu, \u201cPhase Noise Improvement for Array Systems,\u201d IEEE IMS 2016<\/li>\n
    49. Y. Ye, B. Yu, and Q. J. Gu, \u201cA 165GHz OOK Transmitter with 10.6% Peak DC-to-RF Efficiency in 65nm Bulk CMOS,\u201d\u00a0 IEEE IMS 2016<\/li>\n
    50. A. Tang, T. Reck, R. Shu, L. Samoska, Yangyho Kim Y. Ye, Q. Gu, B.J. Drouin, J. Truettel, R. Al Hadi, Y. Xu, S. Sarkozy, R. Lai, M-C Chang & Imran Mehdi, “A W-Band 65nm CMOS\/InP-Hybrid Radiometer & Passive Imager”, International Microwave Symposium 2016<\/li>\n
    51. Md. N. Hasan, Q. J. Gu, and X. Liu, \u201cReconfigurable Blocker-Tolerant RF Front-end Filter with Tunable Notch for Active Cancellation of Transmitter Leakage in FDD Receivers,\u201d a<\/em>ccepted by\u00a0<\/em>2016 ISCAS, Student Paper Finalist<\/strong><\/li>\n
    52. A. J. Tang, Yangyho Kim, Qun Jane Gu, \u201cA 0.43K NE\u0394T 100 GHz Dicke-Free Radiometer with 100% Time Efficiency in 65nm CMOS Technology,\u201d IEEE\u00a0ISSCC 2016<\/em><\/li>\n
    53. B. Drouin, A. Tang, E. Schlecht, E. Brageot, A. Daly, Q. J. Gu, Y. Ye, R. Shu, M-C F. Chang, and R. M Kim, “A CMOS Millimeter-Wave Transceiver Embedded in a Semi-Confocal Fabry Perot Cavity”\u00a0 71st International Symposium on Molecular Spectroscopy, 2016<\/li>\n
    54. H. Rashtian, L. P. B. Katehi, Q. J. Gu, and X. Liu, \u201cA 200-GHz Triple-Push Oscillator in 65-nm CMOS with Design Techniques for Enhancing DC-to-RF Efficiency,\u201d \u00a02016 IEEE SiRF<\/em><\/li>\n
    55. J. Li, R. Shu, and Q. J. Gu, \u201cPassive Interferometer for Wideband and Linear Transmitter Leakage Cancellation,\u201d 2015 APMC<\/em>\u00a0Best Student Paper Award<\/strong><\/li>\n
    56. Md. N. Hasan, S. Aggarwal, Q. J. Gu, and X. Liu, \u201cTunable N-Path RF Front-end Filter with an Adaptive Integrated Notch for FDD Co-Existence<\/a>,\u201d 2015 IEEE Int’l Midwest Symposium on Circuits & Systems<\/em><\/li>\n
    57. R. Shu, A. Tang, B. Drouin, Q. J. Gu, \u201cA 54-84 GHz CMOS SPST Switch with 35 dB Isolation<\/a>,\u201d 2015 IEEE Radio Frequency Integrated Circuits Symposium (RFIC)<\/em><\/li>\n
    58. S. Hao, T. Hu, Q. J. Gu, \u201cA 10 GHz Delay Line Frequency Discriminator and PD CP based CMOS Phase Noise Measurement Circuit with -138.6 dBc_Hz Sensitivity at 1 MHz Offset<\/a>,\u201d 2015 IEEE Radio Frequency Integrated Circuits Symposium (RFIC)<\/em><\/li>\n
    59. Y.-T. Chang, Y. Ye, C. Domier, and Q. J. Gu, \u201cA Ultra-Wideband CMOS PA with Dummy Filling for Reliability<\/a>,\u201d 2015 IEEE International Wireless Symposium<\/em><\/li>\n
    60. Qun Jane Gu, \u201cIntegrated Circuits and Systems for THz Interconnect<\/a>,\u201d 2015 IEEE Wireless and Microwave Conference<\/em>, Invited Paper<\/strong><\/li>\n
    61. B. J. Drouin, A. Tang, E. Schlecht, A. Daly, E. Brageot, Q. J. Gu, Y. Ye, R. Shu, F. Chang, R. Kim, \u201cImplementation of CMOS Millimeter-wave Devices for Rotational Spectroscopy,\u201d \u00a0International Symposium on Molecular Spectroscopy<\/em>, 2015<\/li>\n
    62. S. Ma, J. Ren, N. Li, F. Ye, and Q. J. Gu, \u201cA Wideband and Low Power Dual-Band ASK Transceiver for Intra Inter-Chip Communication<\/a>,\u201d \u00a02015 IEEE International Microwave Symposium<\/em><\/li>\n
    63. S. Hao and Q. J. Gu, \u201cA Fourth Order Tunable Capacitor Coupled Microstrip Resonator Band Pass Filter<\/a>,\u201d\u00a0 2015 IEEE Radio Wireless Week<\/em><\/li>\n
    64. Md. N. Hasan, S. Aggarwal, Q. J. Gu, and X. Liu, \u201cReconfigurable N-Path RF Front-end Filter with Improved Blocker Rejection<\/a>,\u201d 2014 IEEE Int’l Midwest Symposium on Circuits & Systems<\/em>, August 2014<\/li>\n
    65. B. Yu, Y. Liu, X. Hu, X. Ren, X. Liu, and Q. J. Gu, \u201cMicromachined Sub-THz Interconnect Channels for Planar Silicon Processes<\/a>,\u201d 2014 IEEE International Microwave Symposium<\/em><\/li>\n
    66. B. Yu, Y. Liu, X. Hu, X. Ren, X. Liu, and Q. J. Gu, \u201cMicromachined Silicon Channels for THz Interconnect<\/a>,\u201d 2014 IEEE Wireless and Microwave Conference, Best Conference Paper Award<\/strong><\/li>\n
    67. A. Tang, Q. Jane Gu, \u201cA High-Precision Millimeter-Wave Navigation System for Indoor and Urban Environment Autonomous Vehicles<\/a>“, IEEE MTT-S International Microwave Symposium, June 2013<\/li>\n
    68. M. Yu, S. Suko, S. Pamarti, Q. Gu, and M. Fitelson, \u201cRecent Development Progress of an X-Band High Efficiency Transmitter Using Class E PA and Split-Band Supply Modulation<\/a>,\u201d March 2013 GoMAC<\/li>\n
    69. J. Shin, S. Hameed, K. Weller, S. Suko, M. Yu, Q. J. Gu, M.-C. F. Chang, and S. Pamarti, \u201cA 10 GHz 2 Gb\/s Open-Loop Phase Modulator<\/a>,\u201d March 2013 GoMAC<\/li>\n
    70. A. Tang, D. Murphy, F. Hsiao, Q. J. Gu, Z. Xu, G. Virbila, Y.-H. Wang, H. Wu, L. Nan, Y.-C. Wu, and M.-C. F. Chang, \u201cA CMOS 135-150 GHz 0.4 dBm EIRP Transmitter with 5.1dB P1dB Extension Using IF Envelope Feed-Forward Gain Compensation<\/a>,\u201d 2012 IEEE MTT-S International Microwave Symposium, June 2012, Honorable Mention of the Best Student Paper<\/strong><\/li>\n
    71. A. Tang, Q. J. Gu, Z. Xu, G. Virbila and M.-C. F. Chang, \u201cA Max 349 GHz 18.2mW Pixel CMOS Inter-modulated Regenerative Receiver for Tri-Color mm-Wave Imaging<\/a>,\u201d 2012 IEEE MTT-S International Microwave Symposium, June 2012, Third Place – Best Student Paper<\/strong><\/li>\n
    72. A. Tang, G. Virbila, Y.-H. Wang, Q. J. Gu, Z. Xu, L. Du, N. Yan, Y.-H. Wu, Y.-C. Wu, M.-C. F. Chang, \u201cA 200 GHz 16-pixel Focal Plane Array Imager using CMOS Super Regenerative Receivers with Quench Synchronization<\/a>,\u201d 2012 IEEE MTT-S International Microwave Symposium, June 2012, Student Paper Award Finalist<\/strong><\/li>\n
    73. A. Tang, G. Virbila, D. Murphy, F. Hsiao, Y.-H. Wang, Q. J. Gu, Z. Xu, Y.-C. Wu, M. Zhu, and F. Chang, \u201cA 144GHz 0.76cm-Resolution Sub-Carrier SAR Phase Radar for 3D Imaging in 65nm CMOS<\/a>,\u201d 2012 IEEE International Solid-State Circuits Conference (ISSCC), <\/em>February 2012<\/li>\n
    74. A. Tang, F. Hsiao, D. Murphy, I-N. Ku, J. Y. Liu, N.-Y. Wang, S. D’Souza, H. Wu, Y.-H. Wang, Y.-C. Kuan,\u00a0 M. Tang, M. Pham, G. Virbila, D. Yang, Q. J. Gu, C. Chien and M.-C. F. Chang, \u201cA Low-Overhead Self-Healing Embedded System for Ensuring High Yield and Long-Term Sustainability of 60GHz 4Gbps Radio-on-a-Chip<\/a>,\u201d 2012 IEEE International Solid-State Circuits Conference (ISSCC), <\/em>February 2012<\/li>\n
    75. Q. J. Gu, \u201cW-Band Transmitter with Injection Locking Frequency Multiplier based Phase Shifter for Large Phase Array Systems<\/a>,\u201d 2012 GoMAC, March 2012<\/li>\n
    76. Q. J. Gu, Z. Xu, and M.-C. F. Chang, \u201cMillimeter Wave and Sub-millimeter Wave Circuits for Integrated System-On-a-Chip<\/a>,\u201d 2011 IEEE International Symposium on Radio-Frequency Integration Technology(RFIT), <\/em>Best Paper Award<\/strong><\/li>\n
    77. Z. Xu, Q. J. Gu, and M.-C. F. Chang, \u201cA W-band Current Combined Power Amplifier with 14.8dBm Psat and 9.4% Maximum PAE in 65nm CMOS<\/a>,\u201d IEEE Radio Frequency Integrated Circuits Symposium (RFIC)<\/em> 2011<\/li>\n
    78. Q. J. Gu, Z. Xu, H.-Y. Jian, and M.-C. F. Chang, \u201cA CMOS Fully Differential W-Band Passive Imager with 2 K NETD<\/a>,\u201d IEEE Radio Frequency Integrated Circuits Symposium (RFIC)<\/em> 2011<\/li>\n
    79. J. Y-C. Liu, A. Tang, N.-Y. Wang, Q. J. Gu, R. Berenguer, H.-H. Hsieh, P.-Y. Wu, C. Jou, and M.-C. F. Chang, \u201cA V-band Self-Healing Power Amplifier with Adaptive Feedback Bias Control in 65 nm CMOS<\/a>,\u201d IEEE Radio Frequency Integrated Circuits Symposium (RFIC)<\/em> 2011<\/li>\n
    80. A. Tang, Z. Xu, Q. J. Gu, Y.-C. Wu, and M.-C. F. Chang, \u201cA 144 GHz 2.5mW Multi-Stage Regenerative Receiver for mm-Wave Imaging in 65nm CMOS<\/a>,\u201d IEEE Radio Frequency Integrated Circuits Symposium (RFIC)<\/em> 2011<\/li>\n
    81. M.-C. F. Chang, A. Tang, Q. J. Gu, and C. Chien, \u201cSelf-Healing 4Giga-bit-sec Reconfigurable CMOS Radio-on-a-Chip<\/a>,\u201d GOMACTech 2011<\/em><\/li>\n
    82. Q. J. Gu, Z. Xu, and M.-C. F. Chang, \u201cFully Differential mm sub-mm Wave CMOS Amplifiers<\/a>,\u201d poster paper in GOMACTech 2011<\/em><\/li>\n
    83. Z. Xu, Q. J. Gu, I.-N. Ku, and M.-C. F. Chang, \u201cA Compact, Fully Differential D-band CMOS Amplifier in 65nm CMOS<\/a>\u201d, IEEE Asian Solid-State Circuits Conference (ASSCC),<\/em> pp. 1-4, November 2010<\/li>\n
    84. J. Y.-C. Liu, Q. J. Gu, T. LaRocca, N.-Y. Wang, Y.-C. Wu, and M.-C. F. Chang, \u201cA 60 GHz High Gain Transformer-Coupled Differential Power Amplifier in 65nm CMOS<\/a>,\u201d Asia-Pacific Microwave Conference (APMC), <\/em>pp. 932-935, November 2010, Best Student Paper Award<\/strong><\/li>\n
    85. Z. Xu, Q. J. Gu, Y.-C. Wu, and A. Tang, Y.-L. Lin, H.-H. Chen, C. Jou, and M.-C.F. Chang, \u201cD-Band CMOS Transmitter and Receiver for Multi-Giga-Bit sec Wireless Data Link<\/a>,\u201d IEEE Custom Integrated Circuits Conference (CICC), <\/em>pp. 1-4, <\/em>September 2010<\/li>\n
    86. D. Murphy, Q. J. Gu, Y.-C. Wu, H.-Y. Jian, Z. Xu, A. Tang, F. Wang, Y.-L. Lin; H.-H. Chen, C. Jou, and M.-C. F. Chang, \u201cA Low Phase Noise, Wideband and Compact CMOS PLL for Use in a Heterodyne 802.15.3c TRX<\/a>,\u201d IEEE European Solid-State Circuits Conference (ESSCIRC), <\/em>pp. 258-261, <\/em>September 2010<\/li>\n
    87. Q. J. Gu, H.-Y. Jian, Z. Xu, Y.-C. Wu, F. Chang, Y. Baeyens, and Y.-K. Chen, \u201c200GHz CMOS Prescalers with Extended Dividing Range via Time-Interleaved Dual Injection Locking<\/a>,\u201d IEEE RFIC Symposium, <\/em>pp. 69-72, <\/em>May 2010<\/em><\/li>\n
    88. Z. Xu, Q. J. Gu, Y.-C. Wu, H.-Y. Jian, F. Wang, and M. C. Frank Chang, \u201cAn Integrated Frequency Synthesizer for 81-86GHz Satellite Communications in 65nm CMOS<\/a>,\u201d IEEE RFIC Symposium, <\/em>pp. 57-60, <\/em>May 2010<\/li>\n
    89. Q. J. Gu, Z. Xu, H.-Y. Jian, X. Xu, F. Chang, W. Liu, and H. Fetterman, \u201cGenerating Terahertz Signals in 65nm CMOS with Negative-Resistance Resonator Boosting and Selective Harmonic Suppression<\/a>,\u201d IEEE Symposium on VLSI Circuit, <\/em>pp. 109-110, <\/em>June 2010<\/li>\n
    90. T. LaRocca, S. Tam, D. Huang, Q. Gu, E. Socher, W. Hant, and F. Chang, \u201cMillimeter-Wave CMOS Digital Controlled Artificial Dielectric Differential Mode Transmission Lines for Reconfigurable ICs<\/a>,\u201d IEEE MTT-S International Microwave Symposium Digest<\/em>, pp. 181-184, June 2008.<\/li>\n
    91. Q. Gu, Z. Xu, and M.F. Chang, \u201cA Wide Locking Range and Low Power V-band Frequency D-ivider ‘in 9Onm CMOS<\/a>,\u201d IEEE <\/em>Symposium on VLSI Circuits<\/em>, pp. 266-267, June 2007.<\/li>\n
    92. Q. Gu, Z. Xu, J. Ko, and M.F. Chang, \u201cTwo 1OGb_s_pin Low-Power Interconnect Methods for 3D ICs<\/a>,\u201d IEEE International Solid-State Circuits Conference (ISSCC) Digest of Technical papers<\/em>, pp. 448-449, Feb. 2007.<\/li>\n
    93. D. Huang, R. Wong, Q. Gu, N. Wang, T. Ku, C. Chien, and M.F. Chang, \u201cA 60GHz CMOS Differential Receiver Front-End Using On-Chip Transformer for 1.2 Volt Operation with Enhanced Gain and Linearity<\/a>,\u201d \u00a0IEEE Symposium on VLSI Circuits<\/em>, pp. 144-145, June 2006.<\/li>\n
    94. D. Huang, W. Hant, N-Y, Wang, T. Ku, Q. Gu, R. Wong, and F. Chang, \u201cA 60GHz CMOS VCO Using On-Chip Resonator with Embedded Artificial Dielectric for Size Loss and Noise Reduction<\/a>,\u201d IEEE International Solid-State Circuits Conference (ISSCC) Digest of\u00a0 Technical papers<\/em>, pp. 1218-1219, Feb. 2006.<\/li>\n
    95. Z. Xu, S. Jiang, Y. Wu, H. Jian, G. Chu, K. Ku, P. Wang, N. Tran, Q. Gu, M. Lai, C. Chien, M. F. Chang, and R. D. Chow, \u201cA Compact Dual-Band Direct-Conversion CMOS Transceiver for 802.11abg WLAN<\/a>,\u201d IEEE International Solid-State Circuits Conference (ISSCC) Digest of\u00a0 Technical papers<\/em>, pp. 98-99, Feb. 2005.<\/li>\n
    96. J. Ko, J. Kim, Z. Xu, Q. Gu, C. Chien, and M. F. Chang, \u201cAn RF-Baseband FDMA-Interconnect Transceiver for Reconfigurable Multiple Access Chip-to-Chip Communication<\/a>,\u201d IEEE International Solid-State Circuits Conference (ISSCC) Digest of Technical papers<\/em>, pp. 338-339, Feb. 2005.<\/li>\n
    97. Q. Gu, Z. Xu, J. Kim, J. Ko, and M. F. Chang, \u201cThree-Dimensional Circuit Integration Based on Self-synchronized RF-Interconnect Using Capacitive Coupling<\/a>,\u201d IEEE Symposium on VLSI Technology<\/em>, pp. 96-97, June 2004.<\/li>\n
    98. Q. Gu, Z. Xu, J. Ko, S. Hsien, and M. F. Chang, \u201cA Self-Synchronized RF-Interconnect For 3-Dimensional Integrated Circuits<\/a>,\u201d IEEE Symposium on ISCAS<\/em>, pp. 317-320, vol. 4, May 2004.<\/li>\n<\/ol>\n

      Books and Book Chapters<\/strong><\/h3>\n
        \n
      1. Book Chapter, Yu Ye, Q. J. Gu, \u201cHigh efficiency THz oscillators,\u201d for the book \u201cIntroduction to Terahertz Electronics,\u201d 2021 Springer, ISBN 978-3-030-51841-7<\/li>\n
      2. Book Chapter, Z. Xu, Q. J. Gu, J.\u00a0Liu, and M.-C. F. Chang, \u201cmm-Wave Power Combining Architectures: Current Combining,\u201d for the book \u201cRF-THz power generation in silicon\u201d<\/li>\n
      3. Book Chapter, J. Y.-C. Liu, Z. Xu, Q. J. Gu, M.-C. F. Chang, \u201cSelf-healing Techniques for Robust Millimeter-Wave Power Amplification,\u201d for the book \u201cRF-THz power generation in silicon\u201d<\/li>\n<\/ol>\n

         <\/p>\n

        Google Scholar Citation<\/a><\/p>\n","protected":false},"excerpt":{"rendered":"

        Journal Articles<\/strong><\/h3>\n
      4. N. Li et al., “A C-Band Slat-Type Phased-Array Receiver With Co-Aperture Concurrent Eight Beams,” in IEEE Transactions on Microwave Theory and Techniques, doi: 10.1109\/TMTT.2024.3363048<\/li>\n
      5. H. Nie et al., “A 1.3\u20131.7-GHz Q -Enhanced Resonator-Based High-IF Bandpass Filter With 1.5%\u201367% Tunable Fractional Bandwidth in 65-nm CMOS Process,” in IEEE Transactions \u2026 Continue reading → <\/span><\/a>
        \n","protected":false},"author":13,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-52","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/www.ece.ucdavis.edu\/hsics\/wp-json\/wp\/v2\/pages\/52","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.ece.ucdavis.edu\/hsics\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.ece.ucdavis.edu\/hsics\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.ece.ucdavis.edu\/hsics\/wp-json\/wp\/v2\/users\/13"}],"replies":[{"embeddable":true,"href":"https:\/\/www.ece.ucdavis.edu\/hsics\/wp-json\/wp\/v2\/comments?post=52"}],"version-history":[{"count":6,"href":"https:\/\/www.ece.ucdavis.edu\/hsics\/wp-json\/wp\/v2\/pages\/52\/revisions"}],"predecessor-version":[{"id":732,"href":"https:\/\/www.ece.ucdavis.edu\/hsics\/wp-json\/wp\/v2\/pages\/52\/revisions\/732"}],"wp:attachment":[{"href":"https:\/\/www.ece.ucdavis.edu\/hsics\/wp-json\/wp\/v2\/media?parent=52"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}