Title :
Novel Free-Carrier Pump-Probe Analysis of Carrier Transport in Semiconductors
Author :
Ahrenkiel, R.K. ; Feldman, A. ; Lehman, J. ; Johnston, S.W.
Author_Institution :
Colorado Sch. of Mines, Golden, CO, USA
Abstract :
We have developed a pump-probe configuration to measure the carrier lifetime using the transient free-carrier density. The free-carrier absorption varies as λ2 Δn/μ, where λ is 10.6 μm in this paper. We measure the transient photoconductive decay that is proportional to Δn * μ. The data product gives Δα * Δσ~ λ2 Δn(t)2. The mobility variation is nullified by multiplying the data from the two parallel measurements. From the product data, both Δn(t) and μ(Δn) can be determined. A large increase in Δα and decrease in μ are observed and caused by space-charge effects in regions of high injection. These data show the unexpected and remarkable result that the lifetime is relatively constant up to an injection level of about three times the doping level. However, the mobility decreases by about a factor of six over the same injection range.
Keywords :
carrier density; carrier lifetime; doping profiles; photoconductivity; semiconductors; space charge; carrier lifetime; carrier transport; data product; doping level; free-carrier absorption; free-carrier pump-probe analysis; high injection regions; injection level; mobility variation; parallel measurements; pump-probe configuration; semiconductors; space-charge effects; transient free-carrier density; transient photoconductive decay; Absorption; Laser excitation; Materials; Photoconductivity; Probes; Semiconductor device measurement; Transient analysis; Charge-carrier lifetime; free carrier absorption; photoconductive decay;
Journal_Title :
Photovoltaics, IEEE Journal of
DOI :
10.1109/JPHOTOV.2012.2215581
