Title :
Bandwidth enhancement in silicon metal-semiconductor-metal photodetector by trench formation
Author :
Ho, J.Y.L. ; Wong, K.S.
Author_Institution :
Dept. of Phys., Hong Kong Univ. of Sci. & Technol., Kowloon, Hong Kong
Abstract :
We report on fabrication and characterization of a high-speed silicon metal-semiconductor-metal photodetector with novel structure. Metal contacts on the sidewalls of the interdigitated trenches are used to generate a highly uniform electric field well below the detector surface so that carriers deep within the semiconductor bulk can easily attain their saturation velocities. The detector, with 9-μm-deep interdigitated trenches and a trench spacing of 1 μm, has a pulse width of 28.2 ps and a -3-dB bandwidth of 2.2 GHz at 5 V. The responsivity measured at 790 nm is 0.14 A/W, corresponding to an external quantum efficiency of 22.1%. Our results also show that a bias as low as 2 V is sufficient for this diode to operate at high-speed without reducing responsivity.
Keywords :
electrical contacts; elemental semiconductors; high-speed optical techniques; metal-semiconductor-metal structures; optical fabrication; photodetectors; silicon; /spl mu/m-deep interdigitated trenches; 1 mum; 2 V; 2.2 GHz; 22.1 percent; 28.2 ps; 5 V; 790 nm; 9 mum; Si; bandwidth enhancement; detector; detector surface; external quantum efficiency; high-speed; high-speed silicon metal-semiconductor-metal photodetector; highly uniform electric field; interdigitated trenches; metal contacts; metal-semiconductor-metal photodetector; pulse width; responsivity; saturation velocities; semiconductor bulk; sidewalls; silicon metal-semiconductor-metal photodetector; trench formation; trench spacing; Absorption; Bandwidth; Biomembranes; Detectors; Electrodes; Etching; Fabrication; Photodetectors; Semiconductor diodes; Silicon;
Journal_Title :
Photonics Technology Letters, IEEE
