Publications

Kaplar, Robert K.; Allerman, A.A.; Armstrong, Andrew A.; Crawford, Mary H.; Pickrell, Gregory P.; Dickerson, Jeramy R.; Flicker, Jack D.; Neely, Jason C.; King, Michael P.; Cross, Karen C.; Glaser, Caleb E.; Van Heukelom, Michael V.; Baca, A.G.; Reza, Shahed R.; Klein, Brianna A.; Douglas, Erica A.

Abstract not provided.

Brumbach, Michael T.; Smith, Sean S.; Dickerson, Jeramy R.; Henry, Michael D.; Ihlefeld, Jon F.

Abstract not provided.

Kaplar, Robert K.; Allerman, A.A.; Crawford, Mary H.; Pickrell, Gregory P.; Dickerson, Jeramy R.; Armstrong, Andrew A.; King, Michael P.; Baca, A.G.; Klein, Brianna A.; Douglas, Erica A.; Flicker, Jack D.; Neely, Jason C.

Abstract not provided.

Allerman, A.A.; Crawford, Mary H.; Pickrell, Gregory P.; Armstrong, Andrew A.; Baca, A.G.; Kaplar, Robert K.; Dickerson, Jeramy R.; Klein, Brianna A.; Douglas, Erica A.; King, Michael P.; Van Heukelom, Michael V.

Abstract not provided.

Allerman, A.A.; Crawford, Mary H.; Pickrell, Gregory P.; Kaplar, Robert K.; Armstrong, Andrew A.; Dickerson, Jeramy R.; Klein, Brianna A.; King, Michael P.; Van Heukelom, Michael V.

Abstract not provided.

Allerman, A.A.; Baca, A.G.; Armstrong, Andrew A.; Dickerson, Jeramy R.; King, Michael P.; Kaplar, Robert K.; Douglas, Erica A.; Klein, Brianna A.; Sanchez, Carlos A.

Abstract not provided.

Allerman, A.A.; Crawford, Mary H.; Pickrell, Gregory P.; Kaplar, Robert K.; Armstrong, Andrew A.; Dickerson, Jeramy R.; Klein, Brianna A.; King, Michael P.; Van Heukelom, Michael V.

Abstract not provided.

IEEE Electron Device Letters

Collins, K.C.; King, M.P.; Dickerson, Jeramy R.; Vizkelethy, Gyorgy V.; Armstrong, Andrew A.; Fischer, Arthur J.; Allerman, A.A.; Kaplar, Robert K.; Aktas, O.; Kizilyalli, I.C.; Talin, A.A.; Léonard, F.

Devices based on GaN have shown great promise for high power electronics, including their potential use as radiation tolerant components. An important step to realizing high power diodes is the design and implementation of an edge termination tomitigate field crowding, which can lead to premature breakdown. However, little is known about the effects of radiation on edge termination functionality. We experimentally examine the effects of proton irradiation on multiple field ring edge terminations in high power vertical GaN PIN diodes using in operando imaging with electron beam induced current (EBIC). We find that exposure to proton irradiation influences field spreading in the edge termination as well as carrier transport near the anode. By using depth-dependent EBIC measurements of hole diffusion length in homoepitaxial n-GaN we demonstrate that the carrier transport effect is due to a reduction in hole diffusion length following proton irradiation.

Celio, Kimberlee C.; Leonard, Francois L.; Dickerson, Jeramy R.; King, Michael P.; Crawford, Mary H.; Armstrong, Andrew A.; Allerman, A.A.; Aktas, Ozgur A.; Kizilyalli, Isik C.; Talin, A.A.

Abstract not provided.

Pickrell, Gregory P.; Allerman, A.A.; Crawford, Mary H.; Armstrong, Andrew A.; Dickerson, Jeramy R.; King, Michael P.; Cross, Karen C.; Glaser, Caleb E.; Van Heukelom, Michael V.; Kaplar, Robert K.

Abstract not provided.

Kaplar, Robert K.; Allerman, A.A.; Armstrong, Andrew A.; Crawford, Mary H.; Baca, A.G.; Flicker, Jack D.; Pickrell, Gregory P.; Dickerson, Jeramy R.; Klein, Brianna A.; Douglas, Erica A.; Miller, Mary A.; Leonard, Francois L.; Talin, A.A.; Celio, Kimberlee C.; Reza, Shahed R.; King, Michael P.; Vizkelethy, Gyorgy V.; Coltrin, Michael E.

Abstract not provided.

ECS Journal of Solid State Science and Technology

Kaplar, Robert K.; Allerman, A.A.; Armstrong, Andrew A.; Crawford, Mary H.; Dickerson, Jeramy R.; Fischer, Arthur J.; Baca, A.G.; Douglas, Erica A.

"Ultra" wide-bandgap semiconductors are an emerging class of materials with bandgaps greater than that of gallium nitride (EG >3.4 eV) that may ultimately benefit a wide range of applications, including switching power conversion, pulsed power, RF electronics, UV optoelectronics, and quantum information. This paper describes the progress made to date at Sandia National Laboratories to develop one of these materials, aluminum gallium nitride, targeted toward high-power devices. The advantageous material properties of AlGaN are reviewed, questions concerning epitaxial growth and defect physics are covered, and the processing and performance of vertical- and lateral-geometry devices are described. The paper concludes with an assessment of the outlook for AlGaN, including outstanding research opportunities and a brief discussion of other potential applications.

WiPDA 2016 - 4th IEEE Workshop on Wide Bandgap Power Devices and Applications

Flicker, Jack D.; Brocato, Robert W.; Delhotal, Jarod J.; Neely, Jason; Sumner, Bjorn; Dickerson, Jeramy R.; Kaplar, Robert K.

The effects of paralleling low-current vertical Gallium Nitride (v-GaN) diodes in a custom power module are reported. Four paralleled v-GaN diodes were demonstrated to operate in a buck converter at 1.3 Apeak (792 mArms) at 240 V and 15 kHz switching frequency. Additionally, high-fidelity SPICE simulations demonstrate the effects of device parameter variation on power sharing in a power module. The device parameters studied were found to have a sub-linear relationship with power sharing, indicating a relaxed need to bin parts for paralleling. This result is very encouraging for power electronics based on low-current v-GaN and demonstrates its potential for use in high-power systems.

Applied Physics Letters

King, M.P.; Kaplar, Robert K.; Dickerson, Jeramy R.; Lee, Stephen R.; Allerman, A.A.; Crawford, Mary H.; Fischer, A.J.; Marinella, M.J.; Flicker, Jack D.; Fleming, Robert M.; Kizilyalli, I.C.; Aktas, O.; Armstrong, Andrew A.

Electrical performance and characterization of deep levels in vertical GaN P-i-N diodes grown on low threading dislocation density (∼104 - 106cm-2) bulk GaN substrates are investigated. The lightly doped n drift region of these devices is observed to be highly compensated by several prominent deep levels detected using deep level optical spectroscopy at Ec-2.13, 2.92, and 3.2 eV. A combination of steady-state photocapacitance and lighted capacitance-voltage profiling indicates the concentrations of these deep levels to be Nt = 3 × 1012, 2 × 1015, and 5 × 1014cm-3, respectively. The Ec-2.92 eV level is observed to be the primary compensating defect in as-grown n-type metal-organic chemical vapor deposition GaN, indicating this level acts as a limiting factor for achieving controllably low doping. The device blocking voltage should increase if compensating defects reduce the free carrier concentration of the n drift region. Understanding the incorporation of as-grown and native defects in thick n-GaN is essential for enabling large VBD in the next-generation wide-bandgap power semiconductor devices. Thus, controlling the as-grown defects induced by epitaxial growth conditions is critical to achieve blocking voltage capability above 5 kV.

Dickerson, Jeramy R.; Crawford, Mary H.; Allerman, A.A.; King, Michael P.; Kaplar, Robert K.

Abstract not provided.

Tierney, Brian D.; DasGupta, Sandeepan D.; Choi, Sukwon C.; Dickerson, Jeramy R.; Reza, Shahed R.; Agarwal, Sapan A.; Baca, A.G.; Kaplar, Robert K.; Marinella, Matthew J.

Abstract not provided.

Armstrong, Andrew A.; Allerman, A.A.; Fischer, Arthur J.; King, Michael P.; Van Heukelom, Michael V.; Moseley, Michael; Kaplar, Robert K.; Wierer, J.Jr.; Crawford, Mary H.; Dickerson, Jeramy R.; Jayawardena, A.J.; Ahyi, A.A.; Dhar, S.D.

Abstract not provided.

Kaplar, Robert K.; Allerman, A.A.; Armstrong, Andrew A.; Crawford, Mary H.; Dickerson, Jeramy R.; Fischer, Arthur J.; Leonard, Francois L.; Talin, A.A.; King, Michael P.; Baca, A.G.; Douglas, Erica A.

Abstract not provided.

Kaplar, Robert K.; Allerman, A.A.; Armstrong, Andrew A.; Crawford, Mary H.; Dickerson, Jeramy R.; Fischer, Arthur J.; Leonard, Francois L.; Talin, A.A.; King, Michael P.; Baca, A.G.; Douglas, Erica A.

Abstract not provided.

Allerman, A.A.; Armstrong, Andrew A.; Baca, A.G.; Crawford, Mary H.; Dickerson, Jeramy R.; King, Michael P.; Fischer, Arthur J.; Kaplar, Robert K.; Douglas, Erica A.

Abstract not provided.

Allerman, A.A.; Crawford, Mary H.; Armstrong, Andrew A.; Baca, A.G.; Dickerson, Jeramy R.; King, Michael P.; Kaplar, Robert K.; Lee, Stephen R.

Abstract not provided.

Device Research Conference - Conference Digest, DRC

Agarwal, Sapan A.; Dickerson, Jeramy R.; Tsao, Jeffrey Y.

Wide band gap semiconductors like AlN typically cannot be efficiently p-doped: acceptor levels are far from the valence band-edge, preventing holes from activating. This means that pn-junctions cannot be created, and the semiconductor is less useful, a particular problem for deep Ultraviolet (UV) optoelectronics.

Electronics Letters

Allerman, A.A.; Armstrong, Andrew A.; Fischer, Arthur J.; Dickerson, Jeramy R.; Crawford, Mary H.; King, Michael P.; Moseley, Michael; Wierer, J.Jr.; Kaplar, Robert K.

Demonstration of Al0_0.3Ga_0.7N PN diodes grown with breakdown voltages in excess of 1600 V is reported. The total epilayer thickness is 9.1 μm and was grown by metal-organic vapour-phase epitaxy on 1.3-mm-thick sapphire in order to achieve crack-free structures. A junction termination edge structure was employed to control the lateral electric fields. A current density of 3.5 kA/cm² was achieved under DC forward bias and a reverse leakage current <3 nA was measured for voltages <1200 V. The differential on-resistance of 16 mΩ cm² is limited by the lateral conductivity of the n-type contact layer required by the front-surface contact geometry of the device. An effective critical electric field of 5.9 MV/cm was determined from the epilayer properties and the reverse current–voltage characteristics. To our knowledge, this is the first aluminium gallium nitride (AlGaN)-based PN diode exhibiting a breakdown voltage in excess of 1 kV. Finally, we note that a Baliga figure of merit (V_br²/R_spec,on) of 150 MW/cm² found is the highest reported for an AlGaN PN diode and illustrates the potential of larger-bandgap AlGaN alloys for high-voltage devices.

Agarwal, Sapan A.; Dickerson, Jeramy R.; Tsao, Jeffrey Y.

Abstract not provided.

Electronics Letters

Armstrong, Andrew A.; Allerman, A.A.; Fischer, Arthur J.; King, M.P.; Van Heukelom, Michael V.; Moseley, M.W.; Kaplar, Robert K.; Wierer, J.J.; Crawford, Mary H.; Dickerson, Jeramy R.

The realisation of a GaN high voltage vertical p-n diode operating at >3.9 kV breakdown with a specific on-resistance <0.9 mΩ cm2 is reported. Diodes achieved a forward current of 1 A for on-wafer, DC measurements, corresponding to a current density >1.4 kA/cm2. An effective critical electric field of 3.9 MV/cm was estimated for the devices from analysis of the forward and reverse current-voltage characteristics. This suggests that the fundamental limit to the GaN critical electric field is significantly greater than previously believed.