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Design of CMOS Millimeter-Wave and Terahertz Integrated Circuits with Metamaterials by Yang Shang, Hao Yu

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References 329
[41] D. Cai, Y. Shang, H. Yu, J. Ren, and K. S. Yeo, “A 76 ghz o scillator by
high-q differential tr ansmission line loaded with split ring resonator in
65-nm CMOS,” in Silicon Monolithic Integrated Circuits in RF S ystems
(SiRF), 2013 IEEE 13th Topical Meeting on, Jan 2013, pp. 111– 113.
[42] S. Ma, H. Yu, and J. Ren, “A 32.5-gs/s sampler with time-interleaved
track-and-hold amplifier in 65 -nm C MOS,” Microwave Theory and Tech-
niques, IEEE Transactions on, vol. 62, no. 12, pp. 3500–3511, Dec 2014.
[43] Y. Shang, H. Yu, S. Hu, Y. Liang, X. Bi, and M. Arasu, “High-
sensitivity CMOS super-regenera tive receiver with quench-controlled
high-q metamaterial resonator for millimeter-wave imaging at 96 a nd
135 ghz,” IEEE Transactions on Microwave Theory and Techniques,
vol. 62, no. 12, pp. 3095–3106, Dec 2014.
[44] Y. Shang, D. Cai, W. Fei, H. Yu, and J. Ren, “An 8mw ultra low power
60ghz direct-conversion receiver w ith 55db gain and 4.9db nois e figure
in 65nm CMOS,” in Radio-Frequency Integration Technology (RFIT),
2012 IEEE International Symposium on, Nov 2012, pp. 47–49.
[45] Y. Shang, H. Yu, D. Cai, J. Ren, and K. S. Yeo, “Design of high-q
millimeter-wave oscilla tor by differential transmission line loaded with
metamaterial resonator in 65-nm CMOS,” IEEE Transactions on Mi-
crowave Theory and Techniques, vol. 61, no. 5, pp. 1892–1902, May
2013.
[46] H. Fu, W. Fei, H. Yu, and J. Ren, A 60.8-67ghz and 6.3mw injection-
locked frequency divider with switching-inductor loaded transformer in
65nm CMO S,” in Microwave Symposium (IMS), 2014 IEEE MTT-S
International, June 2014, pp. 1–4 .
[47] W. Fei, H. Yu, Y. Liang, and W. M. Lim, “A 54 to 62.8ghz pa w ith
95.2mw/mm2 output power density by 4×4 distributed in-phase powe r
combining in 6 5nm CMOS,” in Microwave Symposium (IMS), 2014
IEEE MTT-S International, June 2014, pp. 1–4.
[48] K. Okada, K. Matsushita, K. Bunsen, R. Murakami, A. Musa, T. Sato,
H. Asada, N. Takayama, N. Li, S. Ito, W. Chaivipas, R. Minami,
and A. Matsuzawa, “A 60ghz 16qam/8psk/qpsk/bpsk direct-conversion
transceiver for ieee 802.15.3c,” in IEEE International Solid-State Cir-
cuits Conferen ce, Feb 2011, pp. 160–162.
[49] T. Nagatsuma, S. Horiguchi, Y. Minamikata, Y. Yoshimizu, S. Hisatake,
S. Kuwano, N. Yoshimoto , J. Terada, and H. Takahashi, “Terahertz wire-
less communications based on photonics technologies,” Optics express,
vol. 21, no. 20, pp. 23 736 –23 747, 2013.

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