Inspection of n-type InP crystals by scanning photoluminescence measurements

Abstract: Room temperature scanning photoluminescence (SPL) measurements were performed on n-type (Sn-doped, S-doped and undoped) InP crystals provided by various suppliers. It was found that defects and non-uniformities such as doping striations, dislocations and subsurface defects are associated with specific 'signatures' in SPL images, regardless of the type of doping and the origin of the samples. SPL measurements appear to be useful for routine inspection of this material because they are fast and non-destructive.

“…The optical and electrical homogeneities across whole substrates are very important to obtain a high yield in manufacturing III-V compound semiconductor devices. Scanning photoluminescence (sPL) measurements have been widely used to assess the homogeneity of substrates, because PL of band to band and/or donor acceptor pair recombination is connected with doping homogeneity or charge carrier lifetime [1,2]. However, only few reports were given with a quantitative analysis of the PL data.…”

Homogeneity assessment of large‐diameter III‐V compound semiconductor substrates by near‐infrared transmittance measurement

“…The optical and electrical homogeneities across whole substrates are very important to obtain a high yield in manufacturing III-V compound semiconductor devices. Scanning photoluminescence (sPL) measurements have been widely used to assess the homogeneity of substrates, because PL of band to band and/or donor acceptor pair recombination is connected with doping homogeneity or charge carrier lifetime [1,2]. However, only few reports were given with a quantitative analysis of the PL data.…”

Homogeneity assessment of large‐diameter III‐V compound semiconductor substrates by near‐infrared transmittance measurement

Some new results in porous silicon

Recent advances in the assessment of GaAs substrate quality by scanning photoluminescence