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- 1. Phys. Rev. B 75, 193201 (2007) , “Compensating point defects in 4He+-irradiated InN”, F. Tuomisto, A. Pelli, K. M. Yu, W. Walukiewicz, and W. J. SchaffWe use positron annihilation spectroscopy to study 2 MeV 4He+-irradiated InN grown by molecular-beam epitaxy and GaN grown by metal-organic chemical-vapor deposition. In GaN, the Ga vacancies act as important compensating centers in the irradiated material, introduced at a... (Read more)
- 2. Appl. Phys. Lett. 89, 092120 (2006) , “Defect generation at SiO2/Si interfaces by low pressure chemical vapor deposition of silicon nitride”, Hao Jin, K. J. Weber, and P. J. SmithLow pressure chemical vapor deposition of Si3N4 on oxidized Si (111) surfaces causes a change in the properties of the dominant interface defect, the Pb center, observed by electron paramagnetic resonance. The change in the signature of the... (Read more)
- 3. Appl. Phys. Lett. 88, 242110 (2006) , “Electrical characterization of defects introduced during electron beam deposition of Pd Schottky contacts on n-type Ge”, F. D. Auret, W. E. Meyer, S. Coelho, and M. HayesWe have investigated by deep level transient spectroscopy the hole and electron trap defects introduced in n-type Ge during electron beam deposition (EBD) of Pd Schottky contacts. We have also compared the properties of these defects with those introduced in the same material during... (Read more)
- 4. Appl. Phys. Lett. 88, 092108 (2006) , “Hydrogen passivation of carbon Pb like centers at the 3C- and 4H-SiC/SiO2 interfaces in oxidized porous SiC”, J. L. Cantin, H. J. von Bardeleben, Yue Ke, R. P. Devaty, W. J. ChoykeThe effect of forming gas and vacuum annealing on the concentration of carbon dangling bond (PbC) centers at 3C- and 4H-SiC/SiO2 interfaces has been studied by electron paramagnetic resonance (EPR) spectroscopy. Our results show efficient passivation at 400 °C and... (Read more)
- 5. Phys. Rev. B 74, 033309 (2006) , “Effect of the triplet state on the random telegraph signal in Si n-MOSFETs”, Enrico Prati, Marco Fanciulli, Giorgio Ferrari, and Marco SampietroWe report on the static magnetic field dependence of the random telegraph signal in a submicrometer silicon n-metal-oxide-semiconductor field-effect transistor. Using intense magnetic fields and low temperatures, we find that the characteristic time ratio changes by three orders of magnitude... (Read more)
- 6. Appl. Phys. Lett. 84, 3406-3408 (2004) , “Structure of 6H silicon carbide/silicon dioxide interface trapping defects”, David J. Meyer, Nathaniel A. Bohna, and Patrick M. LenahanWe utilize spin-dependent recombination (SDR) to observe deep level trap defects at or very near the interface of 6H silicon carbide and the SiO2 gate dielectric in SiC metal-oxide-semiconductor field effect transistors. The SDR response is strongly correlated to SiC/SiO2... (Read more)
- 7. Phys. Rev. Lett. 92, 015502 (2004) , “Identification of the Carbon Dangling Bond Center at the 4H–SiC/SiO2 Interface by an EPR Study in Oxidized Porous SiC”, J. L. Cantin, H. J. von Bardeleben, Y. Shishkin, Y. Ke, R. P. Devaty, and W. J. ChoykeWe report the observation of a paramagnetic interface defect in thermally oxidized porous n-type doped 4HSiC/SiO2. Based on its axial symmetry and resolved hyperfine interactions it is attributed to an sp3 carbon dangling bond center situated... (Read more)
- 8. Appl. Phys. Lett. 80, 1261-1263 (2002) , “Hole trapping in ultrathin Al2O3 and ZrO2 insulators on silicon”, V. V. Afanas'ev and A. StesmansOptical injection of electron-hole pairs in 35 nm thick layers of SiO2, Al2O3, ZrO2 and their stacks on (100)Si is found to result in positive oxide charging, suggesting trapping of holes. In thin layers of the high-permittivity metal oxides... (Read more)
- 9. Appl. Phys. Lett. 78, 4043 (2001) , “Response to "Comment on `Reduction of interface-state density in 4H–SiC n-type metal–oxide–semiconductor structures using high-temperature hydrogen annealing' " [Appl. Phys. Lett. 78, 4043 (2001)]”, K. Fukuda, K. Arai, S. Suzuki, T. TanakaIn our letter, we suggested that the reduction of interface state density (Dit) is caused by the termination of Si and C dangling bonds with hydrogen.1 In a comment on our letter,2 Afanas'ev et al. argue that the Dit originates from carbon clusters at the... (Read more)
- 10. Appl. Phys. Lett. 77, 866 (2000) , “Effect of oxidation method and post-oxidation annealing on interface properties of metal–oxide–semiconductor structures formed on n-type 4H-SiC C(000) face”, K. Fukuda, W. J. Cho, K. Arai, S. Suzuki, J. Senzaki, T. TanakaThe C(000) face of silicon carbide (SiC) has superior properties such as a faster oxidation ratio and a smoother surface compared with the Si(0001) face. We have investigated the oxidation and post-oxidation annealing effects on the capacitancevoltage and the interface state density... (Read more)
- 11. Appl. Phys. Lett. 76, 1585 (2000) , “Reduction of interface-state density in 4H–SiC n-type metal–oxide–semiconductor structures using high-temperature hydrogen annealing”, K. Fukuda, S. Suzuki, T. Tanaka, K. AraiThe effects of hydrogen annealing on capacitancevoltage (CV) characteristics and interface-state density (Dit) of 4HSiC metaloxidesemiconductor (MOS) structures have been investigated. The Dit was reduced to as low as... (Read more)
- 12. Appl. Phys. Lett. 69, 2252 (1996) , “Hole traps in oxide layers thermally grown on SiC”, V. V. Afanas'ev and A. StesmansHole trapping in the oxides thermally grown on different polytypes of SiC (3C, 4H, 6H) was studied using photogeneration of charge carriers in SiO2 and electron-spin-resonance spectroscopy. Oxygen vacancy defects were found to be the dominant hole traps in the oxide. Generation of... (Read more)
- 13. IEEE Trans. Nucl. Sci. 37, 1650-1657 (1990) , “Spin dependent recombination: A 29Si hyperfine study of radiation-induced Pb centers at the Si/SiO2 interface”, M. A. Jupina , P. M. Lenahan
- 14. Appl. Phys. Lett. 50, 1450 (1987) , “Paramagnetic centers at Si-SiO2 interfaces in silicon-on-insulator films”, W. E. CarlosElectron spin resonance measurements of silicon-on-insulator materials formed oxygen implantation are reported. The principal paramagnetic defect observed is a Pb center at the interface between Si and SiO2 precipitates in the Si film over the buried oxide layer.... (Read more)
- 15. Appl. Phys. Lett. 49, 348-350 (1986) , “Interface traps and Pb centers in oxidized (100) silicon wafers”, G. J. Gerardi, E. H. Poindexter, P. J. Caplan, N. M. JohnsonThe band-gap energy distribution of Pb centers on oxidized (100) Si wafers has been determined and compared with interface electrical trap density Dit. Two different Pb centers are observed on (100) Si: Pb0,... (Read more)
- 16. Solid State Commun. 57, 615-617 (1986) , “THE OPTICALLY DETECTED MAGNETIC RESONANCE OF DANGLING BONDS AT THE Si/SiO2 INTERFACE”, K. M. Lee, L. C. Kimerling, B. G. Bagley, W. E. QuinnThe optically detected magnetic resonance (ODMR) observation of dangling bonds at the Si/SiO2 interface (Pb centers) is reported in this Communication. A luminescence quenching signal is identified as arising from the Pb center through its axially symmetry g tensor along the <1 1 1#62;... (Read more)
- 17. Appl. Phys. Lett. 44, 228-230 (1984) , “Optically induced electron spin resonance and spin-dependent recombination in Si/SiO2”, B. HendersonIn state-of-the-art Si/SiO2 wafers the concentration of paramagnetic interface states (1010 cm2) is almost too low to be detected by electron spin resonance (ESR). This letter describes experiments which show that the ESR signal of singly occupied dangling bond... (Read more)
- 18. J. Appl. Phys. 56, 2844-2849 (1984) , “Electronic traps and Pb centers at the Si/SiO2 interface: Band-gap energy distribution”, E. H. Poindexter, G. J. Gerardi, M. -E. Rueckel, P. J. Caplan, N. M. Johnson, D. K. BiegelsenEnergy distribution of Pb centers (·SiSi3) and electronic traps (Dit) at the Si/SiO2 interface in metal-oxide-silicon (MOS) structures was examined by electric-field-controlled electron paramagnetic resonance (EPR)... (Read more)
- 19. Appl. Phys. Lett. 43, 563-565 (1983) , “Characteristic electronic defects at the Si-SiO2 interface”, N. M. Johnson, D. K. Biegelsen, M. D. Moyer, S. T. Chang, E. H. Poindexter, P. J. CaplanOn unannealed, thermally oxidized silicon, electron spin resonance reveals an oriented interface defect which is termed the Pb center and identified as the trivalent silicon defect. Deep level transient spectroscopy (DLTS) reveals two broad characteristic peaks in the... (Read more)
- 20. Appl. Phys. Lett. 41, 542-544 (1982) , “Effect of bias on radiation-induced paramagnetic defects at the silicon-silicon dioxide interface”, P. M. Lenahan and P. V. DressendorferElectron spin resonance measurements have been made on gamma-irradiated (111) Si/SiO2 structures as a function of bias across the oxide. We observe a large change in the density of radiation-induced paramagnetic Pb centers with bais. We conclude that... (Read more)
- 21. J. Appl. Phys. 52, 879-884 (1981) , “Interface states and electron spin resonance centers in thermally oxidized (111) and (100) silicon wafers”, E. H. Poindexter, P. J. Caplan, B. E. Deal, R. R. RazoukInterface states and electron spin resonance centers have been observed and compared in thermally oxidized (111) and (100) silicon wafers subjected to various processing treatments. The ESR Pb signal, previously assigned to interface ·SiSi3 defects on (111)... (Read more)
- 22. J. Appl. Phys. 50, 5847-5854 (1979) , “ESR centers, interface states, and oxide fixed charge in thermally oxidized silicon wafers”, P. J. Caplan, E. H. Poindexter, B. E. Deal, R. R. RazoukThe ESR Pb center has been observed in thermally oxidized single-crystal silicon wafers, and compared with oxide fixed charge Qss and oxidation-induced interface states Nst. The Pb center is found to be located... (Read more)
- 23. Jpn. J. Appl. Phys. 10, 52-62 (1971) , “Study of Silicon-Silicon Dioxide Structure by Electron Spin Resonance I”, Y. NishiThree kinds of paramagnetic centers named PA, PB and PC have been found in a silicon-silicon dioxide structure at liquid nitrogen temperature. PA (g=∼2.000, ΔH=∼4 Oe), and PB having anisotropic g-value... (Read more)
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