Electrical and optical characterization of metastable deep-level defects in GaAs
Document Type
Article
Publication Date
1-1-1989
Abstract
Two metastable defect configurations, here designated M3 and M4, are observed in n-type GaAs grown by metal organic chemical-vapor deposition. The configurations are comprehensively characterized by deep-level transient spectroscopy and have enthalpies for thermal emission of electrons of 0.6 and 0.3 eV, respectively. The metastable transformation between these two centers is found to be temperature induced and bias controlled. The capture cross sections for both defect configurations are found to be temperature independent with values of 5.1×10-18 and 1.8×10-18 cm2 for the M3 and M4 configurations, respectively. Defect depth profiling shows defect densities that decrease monotonically from approximately 1×1013 cm-3 at 0.2 m below the surface to approximately 1×1011 cm-3 at 0.6 m below the surface for both defect configurations. Photocapacitance measurements give photoionization threshold energies consistent with the electrical measurements and photoionization cross sections of about 2×10-19 cm2 at a photon energy of 0.75 eV. The complete metastable reaction kinetics are also reported, as well as the electric field dependence of the emission rate for each configuration. © 1989 The American Physical Society.
Publication Title
Physical Review B
Recommended Citation
Buchwald, W.,
Gerardi, G.,
Poindexter, E.,
Johnson, N.,
Grimmeiss, H.,
&
Keeble, D.
(1989).
Electrical and optical characterization of metastable deep-level defects in GaAs.
Physical Review B,
40(5), 2940-2945.
http://doi.org/10.1103/PhysRevB.40.2940
Retrieved from: https://digitalcommons.mtu.edu/michigantech-p/10009