Patent ID: 7151004

Claim:
A semiconductor laser device fabricating method including: forming a first cladding layer of a first conductivity type, an active layer having a quantum well structure, and a first second cladding layer of a second conductivity type successively on a semiconductor substrate of the first conductivity type; forming on the first second cladding layer a mask pattern for impurity implantation, having an opening in a region where a resonator facet of a semiconductor laser device is to be formed; disordering a region of the active layer near the resonator facet by introducing impurities using the mask pattern as a mask; applying pump light to the disordered region and to a non-disordered region of the active layer to generate photoluminescence therefrom, measuring wavelengths of the photoluminescence from the disordered region and from the non-disordered region, and predicting a catastrophic optical damage (COD) power level that the laser device, when completed, can withstand based on a blue shift between the wavelengths of the photoluminescence from the disordered region and the non-disordered region; forming a second second cladding layer of the second conductivity type on said first second cladding layer, after removing the mask pattern; forming on said second second cladding layer a stripe-shaped mask pattern, opposed to the disordered region of the active layer, and extending across the first and second second cladding layers, the stripe-shaped mask pattern extending in a resonator lengthwise direction; and forming an optical waveguide including the second second cladding layer with the stripe-shaped mask pattern used as a mask, wherein the semiconductor laser device produces light having a wavelength in the range of 770 to 810 nm, λ dpl denotes, in nm, the wavelength of photoluminescence generated by application of pump light to the disordered region of the active layer, λ apl represents, in nm, the wavelength of photoluminescence generated by application of pump light to the non-disordered region of the active layer, and λ bl, in nm, is equal to λ apl−λ dpl, including determining that the COD power level that the laser device, when completed, can withstand has been increased when λ bl>20.