Title :
Tunable surface-normal modulators operating near 1550 nm with a high-extinction ratio at high temperatures
Author :
Mohseni, H. ; Chan, W.K. ; An, H. ; Ulmer, A. ; Capewell, D.
Author_Institution :
Dept. of Electr. & Comput. Eng., Northwestern Univ., Evanston, IL, USA
Abstract :
We present high-performance surface-normal modulators based on unique properties of stepped quantum wells at an eye-safe wavelength of 1550 nm. Fabricated devices show higher efficiency and a 7-dB higher extinction ratio compared with devices with coupled quantum-well active layers. Moreover, the energy band edge of the device can be tuned over 70 nm while maintaining a 3-dB modulation depth. Such a wide tuning range eliminates the need for a thermoelectric cooler and is a critical advantage for many applications such as unmanned aerial vehicles and dynamic optical tags. The devices show good performance up to the maximum measured temperature of 70°C.
Keywords :
electro-optical modulation; integrated optics; optical tuning; quantum well devices; 1550 nm; 70 degC; coupled quantum-well active layers; dynamic optical tags; energy band edge; extinction ratio; eye-safe wavelength; stepped quantum wells; surface-normal modulators; tunable modulators; unmanned aerial vehicles; Extinction ratio; Optical modulation; Optical surface waves; Optical tuning; Quantum well devices; Surface waves; Temperature measurement; Thermoelectricity; Unmanned aerial vehicles; Vehicle dynamics; Modulator; optical tag; quantum well; stepped quantum well; surface-normal; tunable modulator;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2005.861629
