2002
DOI: 10.1007/s11664-002-0115-6
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Photo-ionization spectroscopy of traps in AlGaN/GaN high-electron mobility transistors

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Cited by 10 publications
(13 citation statements)
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“…Wolter et al [51] have also reported an interesting investigation of the effect on the photoionization spectra of gate bias and of the spatial separation between the 2DEG and the surface [50]. They observe that: (i) for devices where the 2DEG is closer to the AlGaN surface, the drain current is lower and the response function S(hν) in the photoionization spectrum is raised, suggesting a higher trap concentration, and (ii) as the gate bias is reduced (i.e.…”
Section: Photoionization Measurementsmentioning
confidence: 99%
“…Wolter et al [51] have also reported an interesting investigation of the effect on the photoionization spectra of gate bias and of the spatial separation between the 2DEG and the surface [50]. They observe that: (i) for devices where the 2DEG is closer to the AlGaN surface, the drain current is lower and the response function S(hν) in the photoionization spectrum is raised, suggesting a higher trap concentration, and (ii) as the gate bias is reduced (i.e.…”
Section: Photoionization Measurementsmentioning
confidence: 99%
“…Power amplifiers based on AlGaN / GaN heterojunction field effect transistors ͑HFETs͒ are hampered by defects attributed to the AlGaN surface [1][2][3] and the GaN buffer [4][5][6] that exert detrimental influence upon device performance. Thus, quantitative observation of band gap states in AlGaN / GaN heterostructures provides an important metric for optimizing material growth and minimizing the impact of defects.…”
mentioning
confidence: 99%
“…Previous investigations pragmatically used HFETs themselves as a vehicle to study deep levels in AlGaN / GaN heterostructures, primarily focusing on the influence that pulsing of the gate-source bias or drain-source bias has on deep level activity and consequent degradation of pulsed versus dc I-V characteristics due to diminished two-dimensional electron gas ͑2DEG͒ sheet charge n s . Beyond those deep levels made apparent with bias modulation, additional band gap states can exist that affect n s and thereby device performance equally for both steady-state, pulsed, and rf operation and thus might not be observed using pulsing-based spectroscopy techniques such as drain current deep level transient spectroscopy 2,3 ͑I-DLTS͒ or photoionization induced current transient spectroscopy [4][5][6] ͑PICTS͒. Moreover, current-based techniques offer limited direct information regarding the location of defects within the heterostructure.…”
mentioning
confidence: 99%
“…However, from the different cross-section values one can expect that the occupation of states is different from sample to sample. We assume that the current collapse is an effect related to surface states of the AlGaN, as already shown by photoionization spectroscopy measurements where the distance between the 2DEG channel and the AlGaN surface was varied [5].…”
mentioning
confidence: 99%