The effects of Bi flux and pressure of AsH3 on Bi incorporation,surface morphology and optical properties of InGa As Bi grown by gas source molecular beam epitaxy are studied.It is found that using relatively low pres...The effects of Bi flux and pressure of AsH3 on Bi incorporation,surface morphology and optical properties of InGa As Bi grown by gas source molecular beam epitaxy are studied.It is found that using relatively low pressure of AsH3 and high Bi flux can strengthen the effect on the incorporation of Bi and increase its content linearly with Bi flux until it nearly reaches a saturation value.The result from Rutherford backscattering spectroscopy(RBS) confirms that the Bi incorporation can increase up to 1.13%.By adjusting Bi and As flux,we could improve the surface morphology of In Ga As Bi sample.Room temperature photoluminescence shows strong and broad light emission at energy levels much smaller than the In Ga As bandgap.展开更多
Linearly graded In_xGa_(1-x)As metamorphic buffers with different mismatch grading rates were grown on InP substrate by gas source molecular beam epitaxy.Room temperature photoluminescence spectra show that the samp...Linearly graded In_xGa_(1-x)As metamorphic buffers with different mismatch grading rates were grown on InP substrate by gas source molecular beam epitaxy.Room temperature photoluminescence spectra show that the sample with lower mismatch grading rate in the buffer has stronger photoluminescence signal,indicating the improved optical property.Atomic force microscope images show that the lower mismatch grading rate in the buffer leads to a slightly rougher surface.The relaxation procedure with two steps in the buffer layers has been observed by X-ray diffraction reciprocal space mapping.The measurements of X-ray diffraction also reveal that the lower mismatch grading rate in the buffer is beneficial for the lattice relaxation and release of residual strain.To further increase the relaxation degree,a lower mismatch grading rate and composition "overshoot" are suggested.展开更多
基金Project supported by the National Natural Science Foundation of China(Grant No.61434006)the National Basic Research Program of China(Grant No.2014CB643902)
文摘The effects of Bi flux and pressure of AsH3 on Bi incorporation,surface morphology and optical properties of InGa As Bi grown by gas source molecular beam epitaxy are studied.It is found that using relatively low pressure of AsH3 and high Bi flux can strengthen the effect on the incorporation of Bi and increase its content linearly with Bi flux until it nearly reaches a saturation value.The result from Rutherford backscattering spectroscopy(RBS) confirms that the Bi incorporation can increase up to 1.13%.By adjusting Bi and As flux,we could improve the surface morphology of In Ga As Bi sample.Room temperature photoluminescence shows strong and broad light emission at energy levels much smaller than the In Ga As bandgap.
基金Project supported by the National Basic Research Program of China(No.2012CB619202)the National Natural Science Foundation of China(Nos.61275113,61204133)the Founding of CAS Key Laboratory of Infrared Imaging Materials and Detectors
文摘Linearly graded In_xGa_(1-x)As metamorphic buffers with different mismatch grading rates were grown on InP substrate by gas source molecular beam epitaxy.Room temperature photoluminescence spectra show that the sample with lower mismatch grading rate in the buffer has stronger photoluminescence signal,indicating the improved optical property.Atomic force microscope images show that the lower mismatch grading rate in the buffer leads to a slightly rougher surface.The relaxation procedure with two steps in the buffer layers has been observed by X-ray diffraction reciprocal space mapping.The measurements of X-ray diffraction also reveal that the lower mismatch grading rate in the buffer is beneficial for the lattice relaxation and release of residual strain.To further increase the relaxation degree,a lower mismatch grading rate and composition "overshoot" are suggested.