摘要
Submicron-meter size GaAsBi disk resonators were fabricated with the GaAsBi/GaAs single-quantum-well(QW)-structure grown by molecular beam epitaxy. The GaAsBi/GaAs QW revealed very broad photoluminescence signals in the wavelength range of 1100–1400 nm at 300 K. The 750 nm diameter and 220 nm thick disk resonators were optically pumped and exhibited lasing characteristics with continuous wave operation at room temperature.To our knowledge, it is the first demonstration of a lasing wavelength longer than 1.3 μm with a maximum value of 1.4 μm in a GaAsBi/GaAs material system. The lasing wavelength spans about 130 nm by adjusting the disk diameter, covering almost the entire O band. The ultrasmall GaAsBi disk lasers may have great potential for highly dense on-chip integration with large tunability in the O band.
Submicron-meter size GaAsBi disk resonators were fabricated with the GaAsBi/GaAs single-quantum-well(QW)-structure grown by molecular beam epitaxy. The GaAsBi/GaAs QW revealed very broad photoluminescence signals in the wavelength range of 1100–1400 nm at 300 K. The 750 nm diameter and 220 nm thick disk resonators were optically pumped and exhibited lasing characteristics with continuous wave operation at room temperature.To our knowledge, it is the first demonstration of a lasing wavelength longer than 1.3 μm with a maximum value of 1.4 μm in a GaAsBi/GaAs material system. The lasing wavelength spans about 130 nm by adjusting the disk diameter, covering almost the entire O band. The ultrasmall GaAsBi disk lasers may have great potential for highly dense on-chip integration with large tunability in the O band.
基金
Shenzhen Key Laboratory Project Grant(ZDSYS201603311644527)
Shenzhen Fundamental Research Fund(JCYJ20150611092848134,JCYJ20150929170644623)
Shenzhen Science and Technology Innovation Commission(KQCX20140522143114399)
President’s Fund(PF01000154)
Foundation NANO X(18JG01)
National Natural Science Foundation of China(NSFC)(11474365,61334004,61404152)
National Basic Research Program of China(973Project)(2014CB643902)
Vetenskapsradet(VR)
Robotic Discipline Development Fund from Shenzhen Gov.(2016-1418)
Open Project Program of Key Laboratory for Photonic and Electric Bandgap Materials,Ministry of Education,Harbin Normal University,China(PEBM201902)
