Diamond RF FETs and other approaches to electronics

Kasu, Makoto; Ueda, Ken–ichi; Kageshima, Hiroyuki; Taniyasu, Yoshitaka

doi:10.1002/pssc.200779313

Cited by 11 publications

(2 citation statements)

References 13 publications

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“…Just to mention a few of them, diamond detectors for ionizing radiation and particles represent a well‐established technology in the world of experimental high‐energy physics, due to extremely high resistance to radiation damage. Moreover, diamond‐based electronic devices show outstanding performance for high‐power and high‐frequency applications, due to the high breakdown field, the low dielectric constant, and the high carrier mobility . Finally, the possibility of achieving negative electron affinity (NEA) by surface hydrogenation makes diamond unique among the materials suitable for the fabrication of efficient thermionic converters …”

Section: Introductionmentioning

confidence: 99%

Impact of Laser Wavelength on the Optical and Electronic Properties of Black Diamond

Girolami

Bellucci

Mastellone

et al. 2017

Physica Status Solidi (a)

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Black diamond, obtained by femtosecond laser treatment of natively transparent diamond, is a promising material for solar applications. The enhancement of the interaction between the active material and the solar spectrum is obtained by a controlled texturing of the diamond surface at the nanoscale, the impact of which on the optical and electronic properties of the bulk material is strongly influenced by the laser parameters. In this work, the properties of black diamond samples obtained by using two different laser wavelengths (400 and 800 nm) are compared, showing that texturing periodicity (80 and 170 nm, respectively) is strictly related to the laser wavelength used. Conversely, a unique optimal accumulated absorbed laser fluence (2.10 kJ/cm²) demonstrated to return the best results in terms of responsivity in the solar spectrum, regardless of the wavelength used for laser treatment

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Section: Introductionmentioning

confidence: 99%

Impact of Laser Wavelength on the Optical and Electronic Properties of Black Diamond

Girolami

Bellucci

Mastellone

et al. 2017

Physica Status Solidi (a)

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“…Diamond MESFET and MOSFET devices are suitable for high-power and high-speed applications (1,2), because of the wide band gap, high electron and hole mobility, and high breakdown field (3). However, the regular in-situ doped diamond has its limits.…”

Section: Introductionmentioning

confidence: 99%

Simulation of Thermal Effects on Hydrogen-Terminated Diamond MOSFETs

et al. 2013

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The DC characteristics of hydrogen-terminated diamond (HTD) MOSFETs are simulated in the temperature range from 140 to 500K. The temperature-dependent parameters, such as band gap width, intrinsic/extrinsic carrier density, hole mobility and hole saturation velocity, are calculated and compared with measured data. The simulated output/transfer characteristics show good agreement with experiments, and the maximum drain current shows smaller thermal variation than the low-field mobility does, which is due to the existence of transverse field during device operation. In addition, the pinch-off voltage is found to change linearly with temperature and the temperature coefficient is as small as 0.26mV/K. The thermodynamic simulation reveals that for HTD MOSFETs, the lattice temperature will increase only 30K when the device is operated at a current density as high as 1A/mm.

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New Materials Used in IC

Fu,

Duan,

2023

Handbook of Integrated Circuit Industry

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Diamond RF FETs and other approaches to electronics

Cited by 11 publications

References 13 publications

Impact of Laser Wavelength on the Optical and Electronic Properties of Black Diamond

Impact of Laser Wavelength on the Optical and Electronic Properties of Black Diamond

Simulation of Thermal Effects on Hydrogen-Terminated Diamond MOSFETs

New Materials Used in IC

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