InP/GaAsSb Double Heterojunction Bipolar Transistor Emitter-Fin Technology With f MAX = 1.2 THz
| Autor: | Akshay M. Arabhavi, Filippo Ciabattini, Sara Hamzeloui, Ralf Fluckiger, Tamara Saranovac, Daxin Han, Diego Marti, Giorgio Bonomo, Rimjhim Chaudhary, Olivier Ostinelli, Colombo R. Bolognesi |
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| Rok vydání: | 2022 |
| Předmět: | |
| Zdroj: | IEEE Transactions on Electron Devices, 69 (4) |
| ISSN: | 1557-9646 0018-9383 |
| Popis: | We report a new InP/GaAsSb double heterojunction bipolar transistor (DHBT) emitter fin architecture with a record fMAX =1.2 THz, a simultaneous fT =475 GHz, and BVCEO} =5.4 V. The resulting BVCEO × fMAX =6.48 THz-V is unparalleled in semiconductor technology. Devices were realized with a 20-nm-thick compositionally and impurity graded GaAsSb-base and a 125-nm InP collector. The performance arises because the process allows: 1) a tunable base-emitter access distance down to 10 nm; 2) the use of thicker base contact metals; and 3) the minimization of parasitic capacitances and resistances via precise lateral wet etching of the base-collector (B/C) mesa. Perhaps more significantly, InP/GaAsSb DHBTs with fMAX ≥1 THz are demonstrated with emitter lengths as long as 9.4 μm and areas as high as 1.645 μm 2. Such an area is > 6× larger than previously reported terahertz (THz) DHBTs, representing a breakthrough in THz transistor scalability. This attractive performance level is achieved with a very low dissipated power density which makes InP/GaAsSb DHBTs well-suited for high-efficiency millimeter- A nd submillimeter-wave applications. Furthermore, we provide the first large-signal characterization of a THz transistor with 94 GHz load-pull measurements showing a peak power-added-efficiency (PAE) of 32.5% (40% collector efficiency) and a maximum saturated power of 6.67 mW/μm 2 or 1.17 mW/μm of emitter length in a common-emitter configuration. Devices operate stably under large-signal conditions, with voltages nearly twice higher than those for peak small-signal performance. IEEE Transactions on Electron Devices, 69 (4) ISSN:0018-9383 ISSN:1557-9646 |
| Databáze: | OpenAIRE |
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