Title :
Minority-carrier transport parameters in heavily doped p-type silicon at 296 and 77 K
Author :
Leu, I. -Yun ; Neugroschel, Amost
Author_Institution :
Dept. of Electr. Eng., Florida Univ., Gainesville, FL, USA
fDate :
10/1/1993 12:00:00 AM
Abstract :
Minority-carrier electron lifetime, mobility and diffusion length in heavily doped p-type Si were measured at 296 and 77 K. It was found that a 296 K μn (pSi)≈μn (nSi) for N AA≲5×1018 cm-3, while μn (pSi)/μn (nSi)≈1 to 2.7 for higher dopings. The results also show that for NAA≲3×1019 cm-3, D (pSi) at 77 K is smaller than that at 296 K, while for higher dopings Dn (pSi) is larger at 77 K than at 296 K. μn (pSi) at 77 K increases with the increasing doping above NAA>3×1018 cm-3, in contrast to the opposite dependence for μn (nSi) in n+ Si
Keywords :
boron; carrier lifetime; carrier mobility; electrical conductivity of crystalline semiconductors and insulators; elemental semiconductors; heavily doped semiconductors; minority carriers; silicon; 77 to 296 K; Si:B; diffusion length; electron lifetime; heavily doped; minority carrier transport parameters; mobility; semiconductors; Capacitance; Data mining; Design methodology; Doping; EPROM; Electrons; Nonvolatile memory; Silicon; Threshold voltage; Transconductance;
Journal_Title :
Electron Devices, IEEE Transactions on
