May 4, 2020

[paper] DHBT with Record ft of 813 GHz

Y. Shiratori, T. Hoshi and H. Matsuzaki,
InGaP/GaAsSb/InGaAsSb/InP Double Heterojunction Bipolar Transistors
With Record ft of 813 GHz
IEEE EDL vol. 41, no. 5, pp. 697-700, May 2020
doi: 10.1109/LED.2020.2982497

Abstract - We fabricated InGaP/GaAsSb/InGaAsSb/InP double heterojunction bipolar transistors (DHBTs) with an aggressive lateral and vertical scaling technology to improve the current gain cutoff frequency (fT) further. A 13-nm-thick GaAsSb/InGaAsSb base and a 40-nm-thick InP collector are used to reduce electron transit time. In addition, the width of the base electrode on each side of the emitter is reduced to about 0.05µm to suppress increases in parasitic collector capacitance. A fabricated DHBT with the emitter size of 0.24µm×7.8 µm exhibits maximum differential current gain of ∼95 and collector-emitter breakdown voltage of 2.6V. At a collector current density of 18 mA/µm2, the DHBT exhibits fT of 813 GHz, which is the highest among all types of transistors measured at a room temperature.
Fig: (a) Current gain ( |h21| ) and Mason’s unilateral power gain (Ug ) of the DHBT as a function of frequency. JC and VCE are 18 mA/μm2 and 1.0 V, respectively. ft and fmax are extrapolated by single-pole fitting. Inset: frequency dependence of extrapolating ft and fmax . (b) Gummel’s ft extraction (imaginary part of 1/h21 as a function of frequency). The red circles and black line show experimental data and a linear fitting, respectively.

URL: https://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=9044299&isnumber=9079222

May 1, 2020

[paper] Physical Mechanisms of Reverse DIBL and NDR in FeFETs With Steep Subthreshold Swing

C. Jin, T. Saraya, T. Hiramoto and M. Kobayashi,
in IEEE J-EDS, vol. 8, pp. 429-434, 2020
doi: 10.1109/JEDS.2020.2986345

Abstract - We have investigated transient IdVg and IdVd characteristics of ferroelectric field-effect transistor (FeFET) by simulation with ferroelectric model considering polarization switching dynamics. We show transient negative capacitance (TNC) with polarization reversal and depolarization effect can result in sub-60mV/dec subthreshold swing (SS), reverse drain-induced barrier lowering (R-DIBL), and negative differential resistance (NDR) without traversing the quasi-static negative capacitance (QSNC) region of the S-shaped polarization-voltage (PV) predicted by single-domain Landau theory. Moreover, the mechanisms of R-DIBL and NDR based on the TNC theory are discussed in detail. The results demonstrated in this work can be a possible explanation for the mechanism of previously reported negative capacitance field-effect transistor (NCFET) with sub-60mV/dec SS, R-DIBL, and NDR.
Equivalent circuits of a ferroelectric capacitor in both static and transient conditions.

Apr 30, 2020

#paper: W. E. Muhea, G. U. Castillo, H. C. Ordoñez, T. Gneiting, G. Ghibaudo and B. Iñiguez, "Parameter Extraction and Compact Modeling of 1/f Noise for Amorphous ESL IGZO TFTs," in IEEE J-EDS, vol. 8, pp. 407-412, 2020. https://t.co/SCTs7BsGJZ https://t.co/gZcCgMrYVd


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April 30, 2020 at 03:13PM
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#paper: J. Leise et al., "Charge-Based Compact Modeling of Capacitances in Staggered Multi-Finger OTFTs," in IEEE J-EDS, vol. 8, pp. 396-406, 2020. https://t.co/zk4BAp2tMj https://t.co/Ay502xHy1w

#paper: J. Leise et al., "Charge-Based Compact Modeling of Capacitances in Staggered Multi-Finger OTFTs," in IEEE J-EDS, vol. 8, pp. 396-406, 2020



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