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Catadioptric imaging systems are important in many computer vision and robotics applications. This work addresses the issue of optimally setting the focal distance of a lens based camera in a catadioptric imaging system in order to acquire a best focused image. To this end, understanding the spatial distribution of virtual feature formed by mirror reflection is important. It is known that the virtual...
This paper discusses micro-and nanoscale coherent light sources, with controlled emission wavelength, direction and polarization, which have important applications in chip-level optical communications, biosensing, and quantum information processing. This paper reports about free-standing microbelt-like optical cavities by embedding a ridge-waveguide in a rolled-up tube structure, formed when a coherently...
This work achieved, for the first time, lasing in rolled-up semiconductor tubes at room temperature. The devices are characterized an ultralow threshold power (~ 4 ??W), an intrinsic lasing linewidth of ~ 0.2 0.3 nm, and a linear polarization with the electric field parallel to the tube surface.
In this report we study the nanoscale coherent light sources on GaAs and Si using single rolled-up InGaAs/GaAs quantum dot microtubes. Such microtubes are formed by self-rolling of coherently strained InGaAs/GaAs quantum dot heterostructures through controlled release from their host substrates [1-3]. We have developed a substrate-on-substrate transfer process [3] and realized nearly defect-free quantum...
We have investigated the fabrication and characterization of 3-dimensionally confined optical microcavities on Si formed by self-assembled InGaAs/GaAs quantum dot microtubes. Such microcavities on Si are free of defects and exhibit a Q-factor of 3,000.
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