Add to ORKGWe present measurements of sub-bandgap photoconductivity and photoconductive switches using GaAs doped heavily with Er such that nanoparticles of ErAs are formed. In addition to strong resonant absorption centered around 1550 nm, the material provides strong sub-bandgap photoconductivity and \u3e\u3e μW average power levels when fabricated into an efficient (square spiral) THz antenna and driven by a 1550-nm ultrafast fiber laser. Photo-Hall measurements prove that the predominant photocarrier is the electron and the linearity of the 1550-nm photocurrent (with laser power) suggests that the photoconductivity is extrinsic , not other possible mechanisms, such as two-photon absorption. These results have immediate relevance to the use of GaA...
Superior ultrafast photoconductive properties make low temperature grown (LT) GaAs one of the best m...
We present a study of room-temperature, ultrafast photoconductivity associated with a strong, sub-ba...
Terahertz (THz) spectroscopy with high sensitivity is essential for biological application consideri...
Ultrafast photoconductive switches were fabricated from GaAs embedded with ErAs nanoparticles and te...
Since the 1990s the photoconductive material of choice for THz generation has been low-temperature g...
Since the 1990s the photoconductive material of choice for THz generation has been low-temperature g...
Since the 1990s the photoconductive material of choice for THz generation has been low-temperature g...
Since the 1990s the photoconductive material of choice for THz generation has been low-temperature g...
An Er:GaAs-based 1550-nm CW photomixer is demonstrated. The related mechanism is extrinsic photocond...
This paper summarizes research aimed at understanding the sub-bandgap ultrafast photoconductivity (~...
Ultrafast 1550-nm extrinsic photoconductivity in GaAs:Er makes it possible to fabricate THz photocon...
We present the performance of ultrafast ErAs:GaAs photoconductive-switch antennas measured with a 15...
Pulsed terahertz (THz) systems for spectroscopy and imaging are traditionally based on Ti:Sapphire f...
A model is constructed for extrinsic photoconductivity in GaAs heavily doped with Er and driven arou...
Two photoconductive emitters - one with a self-complementary square spiral antenna, and the other wi...
Superior ultrafast photoconductive properties make low temperature grown (LT) GaAs one of the best m...
We present a study of room-temperature, ultrafast photoconductivity associated with a strong, sub-ba...
Terahertz (THz) spectroscopy with high sensitivity is essential for biological application consideri...
Ultrafast photoconductive switches were fabricated from GaAs embedded with ErAs nanoparticles and te...
Since the 1990s the photoconductive material of choice for THz generation has been low-temperature g...
Since the 1990s the photoconductive material of choice for THz generation has been low-temperature g...
Since the 1990s the photoconductive material of choice for THz generation has been low-temperature g...
Since the 1990s the photoconductive material of choice for THz generation has been low-temperature g...
An Er:GaAs-based 1550-nm CW photomixer is demonstrated. The related mechanism is extrinsic photocond...
This paper summarizes research aimed at understanding the sub-bandgap ultrafast photoconductivity (~...
Ultrafast 1550-nm extrinsic photoconductivity in GaAs:Er makes it possible to fabricate THz photocon...
We present the performance of ultrafast ErAs:GaAs photoconductive-switch antennas measured with a 15...
Pulsed terahertz (THz) systems for spectroscopy and imaging are traditionally based on Ti:Sapphire f...
A model is constructed for extrinsic photoconductivity in GaAs heavily doped with Er and driven arou...
Two photoconductive emitters - one with a self-complementary square spiral antenna, and the other wi...
Superior ultrafast photoconductive properties make low temperature grown (LT) GaAs one of the best m...
We present a study of room-temperature, ultrafast photoconductivity associated with a strong, sub-ba...
Terahertz (THz) spectroscopy with high sensitivity is essential for biological application consideri...