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Demonstration of >6.0-kV Breakdown Voltage in Large Area Vertical GaN p-n Diodes With Step-Etched Junction Termination Extensions

IEEE Transactions on Electron Devices

Yates, Luke Y.; Gunning, Brendan P.; Crawford, Mary H.; Steinfeldt, Jeffrey A.; Smith, Michael; Abate, Vincent M.; Dickerson, Jeramy R.; Armstrong, Andrew A.; Binder, Andrew B.; Allerman, A.A.; Kaplar, Robert K.

Vertical gallium nitride (GaN) p-n diodes have garnered significant interest for use in power electronics where high-voltage blocking and high-power efficiency are of concern. In this article, we detail the growth and fabrication methods used to develop a large area (1 mm2) vertical GaN p-n diode capable of a 6.0-kV breakdown. We also demonstrate a large area diode with a forward pulsed current of 3.5 A, an 8.3-mΩ$\cdot$cm2 differential specific ON-resistance, and a 5.3-kV reverse breakdown. In addition, we report on a smaller area diode (0.063 mm2) that is capable of 6.4-kV breakdown with a differential specific ON-resistance of 10.2 mΩ$\cdot$cm2, when accounting for current spreading through the drift region at a 45° angle. Finally, the demonstration of avalanche breakdown is shown for a 0.063-mm2 diode with a room temperature breakdown of 5.6 kV. In this work, these results were achieved via epitaxial growth of a 50-μm drift region with a very low carrier concentration of <1×1015 cm–3 and a carefully designed four-zone junction termination extension.

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Recent Progress in Vertical Gallium Nitride Power Devices

Kaplar, Robert K.; Allerman, A.A.; Crawford, Mary H.; Gunning, Brendan P.; Flicker, Jack D.; Armstrong, Andrew A.; Yates, Luke Y.; Dickerson, Jeramy R.; Binder, Andrew B.; Abate, Vincent M.; Smith, Michael; Pickrell, Gregory P.; Sharps, Paul; Neely, Jason C.; Rashkin, Lee; Gill, Lee G.; Goodrick, Kyle J.; Anderson, T.J.; Gallagher, J.C.; Jacobs, A.G.; Koehler, A.D.; Tadjer, M.J.; Hobart, K.D.; Hite, J H.; Ebrish, M.E.; Porter, M.A.; Zeng, K.Z.; Chowdhury, S.C.; Ji, D.J.; Aktas, O.A.; Cooper, J.A.

Abstract not provided.

High-Brightness Ultraviolet Lasers for Leap-Ahead National Security Applications

Skogen, Erik J.; Fortuna, S.A.; Allerman, A.A.; Smith, Michael; Alford, Charles A.; Crawford, Mary H.

In this project we endeavored to improve the state-of-the-art in UV lasers diodes. We made important advancements in several fronts from modeling, to epitaxial growth, to fabrication, and testing. Throughout the project it became clear that polarization doping would be able to help advance the state of laser diode design in terms of electrical performance, but the optical design would need to be investigated to ensure that a 2D guided mode would be supported. New capability in optical modeling using commercial software demonstrated that the new polarization doped structures would be viable. New capability in pulsed testing was established to reach the current and voltage required. Our fabricated devices had some parasitic electrical paths which hindered performance that we were ultimately unable to overcome in the project timeframe. We do believe that future projects will be able to leverage the advancements made under this project.

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Development of Vertical GaN Power Devices for Use in Electric Vehicle Drivetrains (invited)

Kaplar, Robert K.; Binder, Andrew B.; Yates, Luke Y.; Allerman, A.A.; Crawford, Mary H.; Dickerson, Jeramy R.; Armstrong, Andrew A.; Glaser, Caleb E.; Steinfeldt, Bradley A.; Abate, Vincent M.; Pickrell, Gregory P.; Sharps, Paul; Flicker, Jack D.; Neely, Jason C.; Rashkin, Lee; Gill, Lee G.; Goodrick, Kyle J.; Monson, Todd M.; Bock, Jonathan A.; Subramania, Ganapathi S.; Scott, Ethan A.; Cooper, James A.

Abstract not provided.

Vertical GaN PN Diodes for Grid Resiliency and Medium-Voltage Power Electronics

Kaplar, Robert K.; Allerman, A.A.; Crawford, Mary H.; Gunning, Brendan P.; Flicker, Jack D.; Armstrong, Andrew A.; Yates, Luke Y.; Dickerson, Jeramy R.; Binder, Andrew B.; Abate, Vincent M.; Smith, Michael L.; Pickrell, Gregory P.; Sharps, Paul; Anderson, T.J.; Gallagher, J.C.; Jacobs, A.G.J.; Koehler, A.D.; Tadjer, M.J.; Hobart, K.D.; Hite, J.H.; Ebrish, M.E.; Porter, M.A.; Zeng, K.Z.; Chowdhury, S.C.; Ji, D.J.; Aktas, O.A.; Cooper, J.A.

Abstract not provided.

Vertical GaN Devices for Medium-Voltage Power Electronics

Kaplar, Robert K.; Allerman, A.A.; Crawford, Mary H.; Gunning, Brendan P.; Flicker, Jack D.; Armstrong, Andrew A.; Yates, Luke Y.; Dickerson, Jeramy R.; Binder, Andrew B.; Abate, Vincent M.; Smith, Michael L.; Pickrell, Gregory P.; Sharps, Paul; Anderson, T.J.; Gallagher, J.C.; Jacobs, A.G.J.; Koehler, A.D.; Tadjer, M.J.; Hobart, K.D.; Hite, J.H.; Ebrish, M.E.; Porter, M.A.; Zeng, K.Z.; Chowdhury, S.C.; Ji, D.J.; Aktas, O.A.; Cooper, J.A.

Abstract not provided.

Ultra-Wide-Bandgap Semiconductors: Challenges and Opportunities (invited)

Kaplar, Robert K.; Allerman, A.A.; Armstrong, Andrew A.; Crawford, Mary H.; Pickrell, Gregory P.; Dickerson, Jeramy R.; Flicker, Jack D.; Neely, Jason C.; Paisley, Elizabeth A.; Baca, Albert G.; Klein, Brianna A.; Douglas, Erica A.; Reza, Shahed R.; Binder, Andrew B.; Yates, Luke Y.; Slobodyan, Oleksiy S.; Sharps, Paul; Simmons, Jerry S.; Tsao, Jeffrey Y.; Hollis, Mark A.; Johnson, Noble J.; Jones, Ken J.; Pavlidis, Dimitris P.; Goretta, Ken G.; Nemanich, Bob N.; Goodnick, Steve G.; Chowdhury, Srabanti C.

Abstract not provided.

Carrier Diffusion Lengths in Continuously Grown and Etched-and-Regrown GaN Pin Diodes

IEEE Electron Device Letters

Celio, K.C.; Armstrong, Andrew A.; Talin, A.A.; Allerman, A.A.; Crawford, Mary H.; Pickrell, Gregory P.; Leonard, Francois L.

Advanced GaN power devices are promising for many applications in high power electronics but performance limitations due to material quality in etched-and-regrown junctions prevent their widespread use. Carrier diffusion length is a critical parameter that not only determines device performance but is also a diagnostic of material quality. Here we present the use of electron-beam induced current to measure carrier diffusion lengths in continuously grown and etched-and-regrown GaN pin diodes as models for interfaces in more complex devices. Variations in the quality of the etched-and-regrown junctions are observed and shown to be due to the degradation of the n-type material. We observe an etched-and-regrown junction with properties comparable to a continuously grown junction.

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All-MOCVD-grown gallium nitride diodes with ultra-low resistance tunnel junctions

Journal of Physics D: Applied Physics

Hasan, Syed M.N.; Gunning, Brendan P.; Eddine, Zane J.; Chandrasekar, Hareesh; Crawford, Mary H.; Armstrong, Andrew A.; Rajan, Siddharth; Arafin, Shamsul

We carefully investigate three important effects including postgrowth activation annealing, delta (δ) dose and magnesium (Mg) buildup delay as well as experimentally demonstrate their influence on the electrical properties of GaN homojunction p–n diodes with a tunnel junction (TJ). The diodes were monolithically grown by metalorganic chemical vapor deposition (MOCVD) in a single growth step. By optimizing the annealing parameters for Mg activation, δ-dose for both donors and acceptors at TJ interfaces, and p+-GaN layer thickness, a significant improvement in tunneling properties is achieved. For the TJs embedded within the continuously-grown, all-MOCVD GaN diode structures, ultra-low voltage penalties of 158 mV and 490 mV are obtained at current densities of 20 A cm−2 and 100 A cm−2, respectively. The diodes with the engineered TJs show a record-low differential resistivity of 1.6 × 10−4 Ω cm2 at 5 kA cm−2.

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Vertical GaN Power Electronics - Opportunities and Challenges (invited)

Kaplar, Robert K.; Allerman, A.A.; Crawford, Mary H.; Gunning, Brendan P.; Flicker, Jack D.; Armstrong, Andrew A.; Yates, Luke Y.; Dickerson, Jeramy R.; Binder, Andrew B.; Pickrell, Gregory P.; Sharps, Paul; Neely, Jason C.; Rashkin, Lee; Gill, L.G.; Anderson, T.J.; Gallagher, J.C.; Jacobs, A.G.; Koehler, A.D.; Tadjer, M.J.; Hobart, K.D.; Ebrish, M.E.; M., Porter M.; Martinez, R.M.; Zeng, K.Z.; Ji, D.J.; Chowdhury, S.C.; Aktas, O.A.; Cooper, J.A.

Abstract not provided.

High-Al-content heterostructures and devices

Semiconductors and Semimetals

Kaplar, Robert K.; Baca, A.G.; Douglas, Erica A.; Klein, Brianna A.; Allerman, A.A.; Crawford, Mary H.; Reza, Shahed R.

Ultra-wide-bandgap aluminum gallium nitride (AlGaN) possesses several material properties that make it attractive for use in a variety of applications. This chapter focuses on power switching and radio-frequency (RF) devices based on Al-rich AlGaN heterostructures. The relevant figures of merit for both power switching and RF devices are discussed as motivation for the use of AlGaN heterostructures in such applications. The key physical parameters impacting these figures of merit include critical electric field, channel mobility, channel carrier density, and carrier saturation velocity, and the factors influencing these and the trade-offs between them are discussed. Surveys of both power switching and RF devices are given and their performance is described including in special operating regimes such as at high temperatures. Challenges to be overcome, such as the formation of low-resistivity Ohmic contacts, are presented. Finally, an overview of processing-related challenges, especially related to surfaces and interfaces, concludes the chapter.

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Etched and Regrown Vertical GaN Junction Barrier Schottky Diodes

2021 IEEE 8th Workshop on Wide Bandgap Power Devices and Applications, WiPDA 2021 - Proceedings

Binder, Andrew B.; Pickrell, Gregory P.; Allerman, A.A.; Dickerson, Jeramy R.; Yates, Luke Y.; Steinfeldt, Jeffrey A.; Glaser, Caleb E.; Crawford, Mary H.; Armstrong, Andrew A.; Sharps, Paul; Kaplar, Robert K.

This work provides the first demonstration of vertical GaN Junction Barrier Schottky (JBS) rectifiers fabricated by etch and regrowth of p-GaN. A reverse blocking voltage near 1500 V was achieved at 1 mA reverse leakage, with a sub 1 V turn-on and a specific on-resistance of 10 mΩ-cm2. This result is compared to other reported JBS devices in the literature and our device demonstrates the lowest leakage slope at high reverse bias. A large initial leakage current is present near zero-bias which is attributed to a combination of inadequate etch-damage removal and passivation induced leakage current.

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Etched-and-Regrown GaN pn-Diodes with 1600 v Blocking Voltage

IEEE Journal of the Electron Devices Society

Armstrong, Andrew A.; Allerman, A.A.; Pickrell, Gregory P.; Crawford, Mary H.; Glaser, Caleb E.; Smith, Trevor S.

Etched-and-regrown GaN pn-diodes capable of high breakdown voltage (1610 V), low reverse current leakage (1 nA = 6 μ A /cm2 at 1250 V), excellent forward characteristics (ideality factor 1.6), and low specific on-resistance (1.1 m Ω.cm2) were realized by mitigating plasma etch-related defects at the regrown interface. Epitaxial n -GaN layers grown by metal-organic chemical vapor deposition on free-standing GaN substrates were etched using inductively coupled plasma etching (ICP), and we demonstrate that a slow reactive ion etch (RIE) prior to p -GaN regrowth dramatically increases diode electrical performance compared to wet chemical surface treatments. Etched-and-regrown diodes without a junction termination extension (JTE) were characterized to compare diode performance using the post-ICP RIE method with prior studies of other post-ICP treatments. Then, etched-and-regrown diodes using the post-ICP RIE etch steps prior to regrowth were fabricated with a multi-step JTE to demonstrate kV-class operation.

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Development of High-Voltage Vertical GaN PN Diodes (invited)

Kaplar, Robert K.; Gunning, Brendan P.; Allerman, A.A.; Crawford, Mary H.; Flicker, Jack D.; Armstrong, Andrew A.; Yates, Luke Y.; Binder, Andrew B.; Dickerson, Jeramy R.; Sharps, Paul; Anderson, T.J.; Gallagher, J.C.; Jacobs, A.G.; Koehler, A.D.; Tadjer, M.J.; Hobart, K.D.; Ebrish, M.E.; Parter, M.P.; Zeng, K.Z.; Chowdhury, S.C.; Aktas, O.A.; Cooper, J.A.

Abstract not provided.

Development of High-Voltage Vertical GaN PN Diodes (invited)

Kaplar, Robert K.; Gunning, Brendan P.; Allerman, A.A.; Crawford, Mary H.; Flicker, Jack D.; Armstrong, Andrew A.; Yates, Luke Y.; Binder, Andrew B.; Dickerson, Jeramy R.; Pickrell, Gregory P.; Sharps, Paul; Anderson, T.J.; Gallagher, J.C.; Jacobs, A.G.; Koehler, A.D.; Tadjer, M.J.; Hobart, K.D.; Ebrish, M.E.; Porter, M.A.; Martinez, R.M.; Zeng, K.Z.; Ji, D.J.; Chowdhury, S.C.; Aktas, O.A.; Cooper, J.A.

Abstract not provided.

Defect suppression in wet-treated etched-and-regrown nonpolar m -plane GaN vertical Schottky diodes: A deep-level optical spectroscopy analysis

Journal of Applied Physics

Aragon, Andrew; Monavarian, Morteza; Pickrell, Gregory P.; Crawford, Mary H.; Allerman, A.A.; Feezell, Daniel; Armstrong, Andrew A.

Steady-state photocapacitance (SSPC) was conducted on nonpolar m-plane GaN n-type Schottky diodes to evaluate the defects induced by inductively coupled plasma (ICP) dry etching in etched-and-regrown unipolar structures. An ∼10× increase in the near-midgap Ec - 1.9 eV level compared to an as-grown material was observed. Defect levels associated with regrowth without an etch were also investigated. The defects in the regrown structure (without an etch) are highly spatially localized to the regrowth interface. Subsequently, by depth profiling an etched-and-regrown sample, we show that the intensities of the defect-related SSPC features associated with dry etching depend strongly on the depth away from the regrowth interface, which is also reported previously [Nedy et al., Semicond. Sci. Technol. 30, 085019 (2015); Fang et al., Jpn. J. Appl. Phys. 42, 4207-4212 (2003); and Cao et al., IEEE Trans. Electron Devices 47, 1320-1324 (2000)]. A photoelectrochemical etching (PEC) method and a wet AZ400K treatment are also introduced to reduce the etch-induced deep levels. A significant reduction in the density of deep levels is observed in the sample that was treated with PEC etching after dry etching and prior to regrowth. An ∼2× reduction in the density of Ec - 1.9 eV level compared to a reference etched-and-regrown structure was observed upon the application of PEC etching treatment prior to the regrowth. The PEC etching method is promising for reducing defects in selective-area doping for vertical power switching structures with complex geometries [Meyers et al., J. Electron. Mater. 49, 3481-3489 (2020)].

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Development of High-Voltage Vertical GaN PN Diodes (invited)

Kaplar, Robert K.; Allerman, A.A.; Crawford, Mary H.; Gunning, Brendan P.; Flicker, Jack D.; Armstrong, Andrew A.; Yates, Luke Y.; Binder, Andrew B.; Dickerson, Jeramy R.; Pickrell, Gregory P.; Sharps, Paul; Anderson, T.J.; Gallagher, J.C.; Jacobs, A.G.; Koehler, A.D.; Tadjer, M.J.; Hobart, K.D.; Ebrish, M.E.; Porter, M.A.; Martinez, R.M.; Zeng, K.Z.; Ji, D.J.; Chowdhury, S.C.; Aktas, O.A.; Cooper, J.A.

Abstract not provided.

Development of High-Voltage Vertical GaN PN Diodes (invited)

Kaplar, Robert K.; Allerman, A.A.; Crawford, Mary H.; Gunning, Brendan P.; Flicker, Jack D.; Armstrong, Andrew A.; Yates, Luke Y.; Binder, Andrew B.; Dickerson, Jeramy R.; Pickrell, Gregory P.; Anderson, T.J.; Gallagher, J.C.; Jacobs, A.G.; Koehler, A.D.; Tadjer, M.J.; Hobart, K.D.; Ebrish, M.E.; Porter, M.A.; Martinez, R.M.; Zeng, K.Z.; Ji, D.J.; Chowdhury, S.C.; Aktas, O.A.; Cooper, J.A.

Abstract not provided.

Results 1–25 of 251
Results 1–25 of 251