InP HBT IC Technology for Terahertz Frequencies: Fundamental Oscillators Up to 0.57 THz - researchr publication related

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Munkyo Seo, Miguel Urteaga, Jonathan Hacker, Adam Young, Zach Griffith, Vibhor Jain, Richard Pierson, Petra Rowell, Anders Skalare, Alejandro Peralta, Robert Lin, David Pukala, Mark J. W. Rodwell. InP HBT IC Technology for Terahertz Frequencies: Fundamental Oscillators Up to 0.57 THz. J. Solid-State Circuits, 46(10):2203-2214, 2011. [doi]

The following publications are possibly variants of this publication:

InP HBT Technologies for sub-THz CommunicationsMiguel Urteaga, Zach Griffith, A. Arias-Purdue, A. Carter, Petra Rowell, J. Hacker, B. Brar. vlsit 2022: 122-123 [doi]

InP HBT Technologies for THz Integrated CircuitsMiguel Urteaga, Zach Griffith, Munkyo Seo, Jonathan Hacker, Mark J. W. Rodwell. pieee, 105(6):1051-1067, 2017. [doi]

A Gain Boosted Single-Ended 300 GHz InP HBT Oscillator for Terahertz ApplicationsWaseem Abbas, Munkyo Seo. isocc 2021: 407-408 [doi]

280-GHz Frequency Multiplier Chains in 250-nm InP HBT TechnologyUtku Soylu, Amirreza Alizadeh, Munkyo Seo, Mark J. W. Rodwell. jssc, 58(9):2421-2429, September 2023. [doi]

A gain boosted single stage wideband InP HBT amplifier for terahertz applicationsWaseem Abbas, Munkyo Seo. icuimc 2022: 1-4 [doi]

Low phase noise millimeter-wave frequency sources using InP-based HBT MMIC technologyHuei Wang, Kwo Wei Chang, Liem T. Tran, John C. Cowles, Thomas R. Block, Eric W. Lin, Gee Samuel Dow, Aaron K. Oki, Dwight C. Streit, Barry R. Allen. jssc, 31(10):1419-1425, 1996. [doi]

A 280 GHz (x8) Frequency Multiplier Chain in 250 nm InP HBT TechnologyUtku Soylu, Amirreza Alizadeh, Munkyo Seo, Mark J. W. Rodwell. bcicts 2022: 191-194 [doi]

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