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    • 1. 发明授权
    • Semiconductor laser device and optical disc drive
    • 半导体激光器件和光盘驱动器
    • US07197056B2
    • 2007-03-27
    • US10494946
    • 2002-11-13
    • Yoshie FujishiroKen OhbayashiKei Yamamoto
    • Yoshie FujishiroKen OhbayashiKei Yamamoto
    • H01S5/34H01S5/00
    • B82Y20/00H01S5/2231H01S5/3434H01S5/34373H01S2301/00H01S2302/00
    • A 780 nm band semiconductor laser device has an InGaAsP well layer, phosphorous composition of which is 0.51 smaller than 0.55 to prevent spinodal decomposition in growing InGaAsP. A compressive strain of 0.65% less than 1% and more than 0.25% is introduced into the well layer to reduce threshold current thereof. Thus, the 0.78-μm band semiconductor laser device having the InGaAsP well layer stably operates for a long time even in outputting a high optical power of 100 mW or more. A tensile strain of 1.2% is also introduced into barrier layers within the active region so as to compensate the stress due to the compressive strain of the well layer. As a result, the reliability of the semiconductor laser device is further increased during a high output operation.
    • 780nm波段半导体激光器件具有InGaAsP阱层,其磷组合物为小于0.55的0.51以防止生长的InGaAsP中的亚稳态分解。 向阱层中引入小于1%且大于0.25%的0.65%的压缩应变以降低其阈值电流。 因此,即使在输出100mW以上的高光功率的情况下,具有InGaAsP阱层的0.78-微波带半导体激光器件也能够长时间稳定地工作。 1.2%的拉伸应变也被引入有源区域内的阻挡层,以补偿由于阱层的压缩应变引起的应力。 结果,在高输出操作期间,半导体激光器件的可靠性进一步提高。