Title :
Digitally tunable microfluidic optical fiber devices
Author :
Cattaneo, Francesco ; Baldwin, Kirk ; Yang, Shu ; Krupenkine, Tom ; Ramachandran, Siddharth ; Rogers, John A.
Author_Institution :
Bell Labs., Murray Hill, NJ, USA
Abstract :
This communication introduces a digital design for tunable microfluidic optical fiber devices. In these systems, multiple, independently controlled microfluidic plugs are pumped into or out of overlap with a fiber structure to modulate its transmission characteristics. The devices described here use eight plugs, eight electrowetting pumps and a corresponding set of molded planar recirculating microchannels to control the depth of the narrowband loss feature associated with a long period fiber grating. Optical measurements illustrate the digital and relatively fast operation of this type of microfluidic fiber device.
Keywords :
curing; diffraction gratings; dip coating; etching; light transmission; micro-optics; microfluidics; micropumps; moulding; optical fibre fabrication; optical fibre filters; optical tuning; optical variables control; photolithography; cascaded arrays; casting; complex tunable filters; curing; digital design; digitally tunable devices; dip coating; electrowetting pumps; etching; fiber transmission characteristics; high resolution molding; independently controlled microfluidic plugs; long period fiber grating; microfluidic optical fiber devices; molded planar recirculating microchannels; optical device fabrication; photolithography; photonic component; relatively fast operation; transmission spectra; Communication system control; Control systems; Microchannel; Microfluidics; Narrowband; Optical design; Optical fiber communication; Optical fiber devices; Optical fiber losses; Plugs;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2003.820285
