Optical frequency combs(OFCs)have significant impacts on science and technology since they uniquely establish coherent connections between electrical signals at radio frequencies and optical-rate signals derived from ...Optical frequency combs(OFCs)have significant impacts on science and technology since they uniquely establish coherent connections between electrical signals at radio frequencies and optical-rate signals derived from lasers and atomic transitions^([1,2]).展开更多
Lithium niobate on insulator(LNOI)has become an intriguing platform for integrated photonics for applications in communications,microwave photonics,and computing.Whereas,integrated devices including modulators,resonat...Lithium niobate on insulator(LNOI)has become an intriguing platform for integrated photonics for applications in communications,microwave photonics,and computing.Whereas,integrated devices including modulators,resonators,and lasers with high performance have been recently realized on the LNOI platform,high-speed photodetectors,an essential building block in photonic integrated circuits,have not been demonstrated on LNOI yet.Here,we demonstrate for the first time,heterogeneously integrated modified uni-traveling carrier photodiodes on LNOI with a record-high bandwidth of 80 GHz and a responsivity of 0.6 A/W at a 1550-nm wavelength.The photodiodes are based on an n-down In GaAs/InP epitaxial layer structure that was optimized for high carrier transit time-limited bandwidth.Photodiode integration was achieved using a scalable wafer die bonding approach that is fully compatible with the LNOI platform.展开更多
文摘Optical frequency combs(OFCs)have significant impacts on science and technology since they uniquely establish coherent connections between electrical signals at radio frequencies and optical-rate signals derived from lasers and atomic transitions^([1,2]).
基金National Science Foundation(2023775)Air Force Office of Scientific Research(FA 9550-17-1-0071)Defense Advanced Research Projects Agency(HR0011-20-C-0137)。
文摘Lithium niobate on insulator(LNOI)has become an intriguing platform for integrated photonics for applications in communications,microwave photonics,and computing.Whereas,integrated devices including modulators,resonators,and lasers with high performance have been recently realized on the LNOI platform,high-speed photodetectors,an essential building block in photonic integrated circuits,have not been demonstrated on LNOI yet.Here,we demonstrate for the first time,heterogeneously integrated modified uni-traveling carrier photodiodes on LNOI with a record-high bandwidth of 80 GHz and a responsivity of 0.6 A/W at a 1550-nm wavelength.The photodiodes are based on an n-down In GaAs/InP epitaxial layer structure that was optimized for high carrier transit time-limited bandwidth.Photodiode integration was achieved using a scalable wafer die bonding approach that is fully compatible with the LNOI platform.
