Five-period AlGaSb/GaSb multiple quantum wells(MQW) are grown on a GaSb buffer.Through optimizing the AlSb nucleation layer,the low threading dislocation density of the MQW is found to be(2.50±0.91)×10~8 cm~(-2) in 1-μm GaSb buffer,as determined by plan-view transmission election microscopy(TEM) images.High resolution TEM clearly shows the presence of 90°misfit dislocations with an average spacing of 5.4 nm at the AlSb/GaAs interface,which effectively relieve most of the strain energy.In the temperature range from T = 26 K to 300 K,photoluminescence of the MQW is dominated by the ground state electron to ground state heavy hole(el-hhl) transition, while a high energy shoulder clearly seen at T>76 K can be attributed to the ground state electron to ground state light hole(el-lhl) transition. Five-period AlGaSb / GaSb multiple quantum wells (MQW) are grown on a GaSb buffer. Through the optimization of the AlSb nucleation layer, the low threading dislocation density of the MQW is found to be (2.50 ± 0.91) × 10 ~ 8 cm ~ -2) in 1-μm GaSb buffer, determined by plan-view transmission election microscopy (TEM) images. High resolution TEM clearly shows the presence of 90 ° misfit dislocations with an average spacing of 5.4 nm at the AlSb / GaAs interface, which effectively relieve most of the strain energy. the temperature range from T = 26 K to 300 K, photoluminescence of the MQW is dominated by the ground state electron to ground state heavy hole (el-hhl) transition, while a high energy shoulder clearly seen at T> 76 K can be attributed to the ground state electron to ground state light hole (el-lhl) transition.