DC and analog/RF performance of C-shaped pocket TFET (CSP-TFET) with fully overlapping gate

Chen, Zixin; Liu, Wei-Jing; Liu, Jiang-Nan; Wang, Qiu-Hui; Zhang, Xuguo; Xu, Jie; Li, Qinghua; Bai, Wei; Tang, Xiadong

doi:10.1088/1674-1056/ac43a6

Cited by 2 publications

(3 citation statements)

References 38 publications

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“…SiO 2 was used as the gate oxide layer with a thickness of 2 nm. Based on the team's previous work, [34] we found that increasing the T p and L p2 in the C-pocket would increase the leakage current and prevent the device from switching off, and increasing the T p would also reduce the on-state current of the device. Therefore, the T p and L p2 should not be large, and we also considered the fabrication issues.…”

Section: Device Structure and Simulation Modelmentioning

confidence: 95%

“…Several solutions have been proposed to suppress ambipolar currents: using asymmetric doping, [22][23][24] gate-drain underlap, [23,25,26] gate-drain overlap, [27] heterogeneous dielectrics, [23,28,29] work function engineering, [23,30,31] recessed drains [32] and spacer engineering. [33] To solve these issues, a TFET with a C-type pocket (CSP-TFET) [34] was proposed in previous work by our team, which improved the low on-state current while further reducing the sub-threshold swing; however, the ambipolar behavior was not fully suppressed. Further work is needed to optimize the structure of the device to completely suppress the ambipolar current while ensuring that the on-state current is not affected as much as possible, thus improving the performance of the device.…”

Section: Introductionmentioning

confidence: 99%

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Ambipolar performance improvement of the C-shaped pocket TFET with dual metal gate and gate–drain underlap

Zhao¹,

Chen²,

Liu³

et al. 2023

Chinese Phys. B

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In this paper, dual-metal gate and gate-drain underlap designs are introduced to reduce the ambipolar current of the device based on the C-shaped pocket TFET(CSP-TFET). The effects of gate work function and gate-drain underlap length on the DC characteristics and analog/RF performance of CSP-TFET devices, such as on-state current (I on), ambipolar current (I amb), transconductance (g m), cut-off frequency (f T) and gain-bandwidth product (GBP) are analyzed and compared in this work. And a combination of both the dual-metal gate and gate-drain underlap designs has been proposed for the C-shaped pocket dual metal underlap TFET (CSP-DMUN-TFET), which contains a C-shaped pocket area that significantly increases the on-state current of the device, and this combination design substantially reduces the ambipolar current. The results show that the CSP-DMUN-TFET has excellent performance, including high I on (9.03×10-4 A/μm), high I on/I off (~1011), low SS avg (~13 mV/dec), low I amb (2.15×10-17 A/μm). The CSP-DMUN-TFET has the capability to fully suppress ambipolar currents while maintaining high on-state currents, making it a potential replacement for next generation of semiconductor devices.

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Section: Device Structure and Simulation Modelmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 99%

Ambipolar performance improvement of the C-shaped pocket TFET with dual metal gate and gate–drain underlap

Zhao¹,

Chen²,

Liu³

et al. 2023

Chinese Phys. B

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“…The fabricated III-V heterostructure TFET (H-TFET) with a lateral tunneling junction has demonstrated excellent performance with sub-thermal operation, reaching down to 48 mV/decade, and a high current of 10.6 µA/µm at drain-to-source bias of 0.3 V. [4] The TCAD predicted III-V H-TFET with a trench gate and InGaAs pocket structure achieves simultaneously 921 µA/µm on-current and average subthreshold swing of 4.9 mV/dec. [5] Despite significant experimental and finite-element simulation efforts, [4][5][6][7][8][9][10][11][12] an accurate analytical model of the TFET is urgent and indispensable to provide further insight into the physics of the device and to accelerate the process of device and circuit designs. Furthermore, the potential model is the cornerstone of the capacitance and current models, [13,14] which thus needs to be modeled more accurately.…”

Section: Introductionmentioning

confidence: 99%

An accurate analytical surface potential model of heterojunction tunnel FET

Guan

Chen

et al. 2023

Chinese Phys. B

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In this paper, based on the accurate and efficient thermal injection method, we develop a fully analytical surface potential model for the heterojunction tunnel field-effect transistor (H-TFET). This model accounts for both the effects of source depletion and inversion charge which are the key factors influencing the charge, capacitance and current in H-TFET. The accuracy of the model is validated against TCAD simulation, and is greatly improved in comparison with the conventional model based on Maxwell-Boltzmann approximation. Furthermore, the dependences of the surface potential and electric field on biases are well predicted and thoroughly analyzed.

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DC and analog/RF performance of C-shaped pocket TFET (CSP-TFET) with fully overlapping gate

Cited by 2 publications

References 38 publications

Ambipolar performance improvement of the C-shaped pocket TFET with dual metal gate and gate–drain underlap

Ambipolar performance improvement of the C-shaped pocket TFET with dual metal gate and gate–drain underlap

An accurate analytical surface potential model of heterojunction tunnel FET

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