Peer-Reviewed Journal Details
Mandatory Fields
Reza, Syed Azer,Riza, Nabeel A.
2009
July
IEEE Photonics Technology Letters
High Dynamic Range Variable Fiber-Optical Attenuator Using Digital Micromirrors and Opto-Fluidics
Validated
()
Optional Fields
21
1313
845
847845
To the best of the authors knowledge, proposed is the first variable fiber-optical attenuator (VFOA) using a digital micromirror device (DMD) and an opto-fluidic electronically controlled variable focus lens (ECVFL). The hybrid VFOA uses individually controllable two-state micromirrors of the DMD and the variable focal length capability of the ECVFL to control the amount of light coupled between two fiber ports leading to a high dynamic range VFOA. The demonstrated VFOA at 1545 nm has a 63.5-dB dynamic range, <0.1-dB resolution, 0.2-dB polarization-dependent loss, 4.9-dB optical loss, and <100-ms switching time. Applications for the proposed VFOA include use in test and measurement systems.To the best of the authors knowledge, proposed is the first variable fiber-optical attenuator (VFOA) using a digital micromirror device (DMD) and an opto-fluidic electronically controlled variable focus lens (ECVFL). The hybrid VFOA uses individually controllable two-state micromirrors of the DMD and the variable focal length capability of the ECVFL to control the amount of light coupled between two fiber ports leading to a high dynamic range VFOA. The demonstrated VFOA at 1545 nm has a 63.5-dB dynamic range, <0.1-dB resolution, 0.2-dB polarization-dependent loss, 4.9-dB optical loss, and <100-ms switching time. Applications for the proposed VFOA include use in test and measurement systems.
1041-11351041-1135
://WOS:000267943900007://WOS:000267943900007
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