Isothermal capacitance transient spectroscopy study of deep electron traps in low resistivity melt‐grown ZnSe single crystals

AbstractGaAs is treated with remote PH3 and N2 plasmas. Electron traps induced by plasma treatments are investigated by isothermal capacitance transient spectroscopy measurements. The EL2 trap is detected in the as-grown GaAs. The TP1 trap(Ec-0.26eV) is generated in GaAs phosphidized for 10min, while the TN1 trap(Ec-0.66eV) is induced in GaAs nitrided for 30min. It is found that the TP1 trap is changed to the another trap with an energy level as shallow as 0.16eV below the conduction band edge and a capture cross section as small as 1.8×10−21cm2 by treating with N2 plasma subsequently after PH3 plasma treatment.

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Plasma-Induced Electron Traps in n-InP

MRS Proceedings ◽

10.1557/proc-378-429 ◽

1995 ◽

Vol 378 ◽

Author(s):

Yoshifumi Sakamoto ◽

Takashi Sugino ◽

Koichiro Matsuda ◽

Junji Shirafuji

Keyword(s):

Activation Energy ◽

Electric Field ◽

Thermal Annealing ◽

Hydrogen Plasma ◽

Hydrogen Atoms ◽

Plasma Exposure ◽

Electron Traps ◽

Transient Spectroscopy ◽

Capacitance Transient ◽

Isothermal Capacitance Transient Spectroscopy

AbstractDeep electron traps in n-InP introduced during plasma exposure have been studied by means of isothermal capacitance transient spectroscopy (ICTS). Three electron traps, (Ec–0.21 eV), (Ec–0.34 eV) and (Ec–0.54 eV), which are designated E2, E3 and E4, respectively, are detected in n-InP treated with H2 plasma and by subsequent annealing. The E2 trap is induced by plasma exposure and the E3 trap is produced by thermal annealing. The E4 trap is generated by both plasma exposure and thermal annealing. These three traps are passivated with hydrogen atoms. The E2 trap density near the surface of hydrogen-plasma-treated samples is strongly enhanced by applying electric field because of dissociation of hydrogen from E2 trap. The E2 trap is annealed out with the activation energy of 1.5 eV and the attempt-to-escape frequency of 3.2 × 1014 s−1. Phosphine plasma treatment is effective in suppressing generation of these electron traps.

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Isothermal capacitance transient spectroscopy study on (Ba, Sr)TiO3-based ptcr ceramics

Ferroelectrics ◽

10.1080/00150199408016578 ◽

1994 ◽

Vol 153 (1) ◽

pp. 267-272

Author(s):

M. C. Kim ◽

S. J. Park

Keyword(s):

Spectroscopy Study ◽

Transient Spectroscopy ◽

Capacitance Transient ◽

Isothermal Capacitance Transient Spectroscopy

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Isothermal Capacitance Transient Spectroscopy for Deep Levels in Co- and Mn-doped ZnO Single Crystals

Journal of Materials Research ◽

10.1557/jmr.2002.0227 ◽

2002 ◽

Vol 17 (6) ◽

pp. 1529-1535 ◽

Cited By ~ 61

Author(s):

Naoki Ohashi ◽

Junzo Tanaka ◽

Takeshi Ohgaki ◽

Hajime Haneda ◽

Mio Ozawa ◽

...

Keyword(s):

Single Crystals ◽

Leakage Current ◽

Deep Donor ◽

Doped Zno ◽

Transient Spectroscopy ◽

Capacitance Transient ◽

Mn Doped ◽

Deep Donor Level ◽

Isothermal Capacitance Transient Spectroscopy ◽

Co Doped

Deep donor levels in ZnO single crystals doped with transition metal (TM; Co or Mn) were characterized by isothermal capacitance transient spectroscopy (ICTS) applied to ZnO-based Schottky junctions, Au/ZnO (0001) or Ag/ZnO (0001). The barrier height at the junction and donor concentration was not influenced by TM. A deep donor level at 0.28 eV was detected by ICTS; however, its energy dispersion and concentration was composition independent. The effect of doping with TM was found in the magnitude of leakage current; in other words, the leakage current at the Au/ZnO:Mn junction was lower than the other junctions on undoped or Co-doped crystals.

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