Numerical study of sub-millimeter Gunn oscillations in InP and GaN vertical diodes: Dependence on bias, doping, and length

Garcia, Sérgio Boscato; Íñiguez-de-la-Torre, I.; Pérez, S.; Matéos, J.; González, T.

doi:10.1063/1.4817884

Cited by 19 publications

(12 citation statements)

References 31 publications

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“…This choice significantly simplifies the frequency performance assessment. The equivalence between the operation of a diode connected in series with a resonant circuit and the direct application of a signal consisting in the superposition of a sinusoidal AC component to the DC bias has been proved in previous articles . The DC‐to‐RF conversion efficiency is defined as η = − P RF / P DC , where P RF is the time‐average AC power, P DC is the dissipated DC by the Gunn diode.…”

Section: Simulation Methods and Physical Modelsmentioning

confidence: 91%

The enhancement of the output characteristics in the GaN based multiple‐channel planar Gunn diode

Wang

Yang

Wang

et al. 2015

Physica Status Solidi (a)

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We present an explicit numerical analysis on GaN‐based multi‐quantum‐well planar Gunn diodes. The simulation demonstrates that Gunn oscillations generated in the multi‐channel can be self‐synchronized to each other, which significantly improves the output characteristics of planar Gunn diode due to the superposition of the dipole domain in each channel. The optimized output characteristics are obtained in the triple‐channel Gunn diode, where the RF output power is about 6.45 mW and the DC‐to‐RF conversion efficiency is about 2.39% at the fundamental frequency of 216.05 GHz, more than three times larger than that of the single‐channel AlGaN/GaN Gunn diode. The proposed GaN HEMT‐like multi‐channel planar Gunn diode with higher level of output characteristics shows great potential as a solid‐state radiation source of millimeter‐wave and sub‐terahertz.

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Section: Simulation Methods and Physical Modelsmentioning

confidence: 91%

The enhancement of the output characteristics in the GaN based multiple‐channel planar Gunn diode

Wang

Yang

Wang

et al. 2015

Physica Status Solidi (a)

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“…Recently, many efforts have been made to improve the efficiency, operating frequency, and output power of Gunn diodes, both in vertical and in planar [3][4][5]. What is more, the electron energy relaxation time in GaN is much smaller than that in traditional III-V materials such as GaAs [6,7].…”

Section: Introductionmentioning

confidence: 97%

Research on the origin of negative effect in uniform doping GaN-based Gunn diode under THz frequency

et al. 2016

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The transport properties of GaN-based uniform doping Gunn diode are calculated by an ensemble Monte Carlo method. The drift velocity, electron density, and electric field distribution as a function of time in the device are illustrated under direct current (DC) and alternating current (AC) bias condition. With the help of port current, the relationship between electron transport status and port current can be acquired, which will be useful to understand the origin of negative differential resistance and guide the device design. Different from the traditional opinion, the maximum current do not appear at the same time when electron accumulation domain arrives at device anode. The reason is that when electron accumulation domain comes into heavily doped anode, the velocity will be decelerated a lot for highly ionized impurity scattering, and the electrons in the domain will be used to neutralize positive ion region which provides the electrons during formation of the domain. Some researchers believe that the electrons in the domain come from heavily doped cathode region, but our simulation shows clearly that the electrons come from heavily doped anode side. Finally, the AC simulation shows the possibility of negative differential résistance in GaN diode under THz frequency. What is more, AC simulation result has the same tendency with DC simulation.

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“…In this case the resonator can be substituted by an equivalent lumped LRC circuit, which is characterized by frequency, f Q , and by quality factor, Q. Such a single-mode approximation, which allows us to significantly simplify analysis and simulation of extended electrodynamic systems, is often used in a wide spectrum of problems, examples of which include helix structures in TWT amplifiers [53,54], klystrons [55], and Gunn diodes coupled to an external resonator [56,57]. The current I (t) generated by the SL depends on voltage V sl applied to the device.…”

Section: Mathematical Modelmentioning

confidence: 99%

Intermittency route to chaos and broadband high-frequency generation in semiconductor superlattice coupled to external resonator

et al. 2015

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Numerical study of sub-millimeter Gunn oscillations in InP and GaN vertical diodes: Dependence on bias, doping, and length

Cited by 19 publications

References 31 publications

The enhancement of the output characteristics in the GaN based multiple‐channel planar Gunn diode

The enhancement of the output characteristics in the GaN based multiple‐channel planar Gunn diode

Research on the origin of negative effect in uniform doping GaN-based Gunn diode under THz frequency

Intermittency route to chaos and broadband high-frequency generation in semiconductor superlattice coupled to external resonator

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