论文信息 - Microjet printing of micro-optical interconnects and sensors

Microjet printing of micro-optical interconnects and sensors

The microjet printing method is being used to fabricate microlens arrays for use in massively parallel, VCSEL-based datacom switches and to deposit lenslets of various configurations onto the tips of single-mode telecom fibers. Applications in the latter case include collimation of the output beams for free space optical interconnection and increasing the fiber numerical aperture for collection of light from edge-emitting diode lasers. Additional applications of this technology include point of arrays of active sensor elements onto the tips of imaging fiber bundles and fabrication of microlenses with axial index of refraction gradients to reduce focal spot size, utilizing multiple print heads with differing fluids. This low-cost, data-driven process, based on 'drop-on-demand' inkjet technology, involves the dispensing the placing of precisely sized microdroplets of optical material onto optical substrates. The micro-optical elements are printed with 100 percent solid, UV-curing optical epoxies, utilizing printing devices that can dispense picoliter-volume droplets at temperatures up to 300 degrees C.

[1] R. J. Pagano,et al. Axial gradient-index lenses come of age , 1995 .

[2] Jeff Hecht. Fiberoptic communications : an optoelectronics driver , 1999 .

[3] Paul K. Manhart,et al. Fundamentals of macro axial gradient index optical design and engineering , 1997 .

[4] J N McMullin,et al. Single-step fabrication of refractive microlens arrays. , 1997, Applied optics.

[5] Somenath Sarkar,et al. Misalignment Considerations in Laser Diode to Single-mode Fiber Excitation via Hemispherical Lens on the Fiber Tip , 1998 .

[6] Daisuke Kato,et al. Light coupling from a stripe‐geometry GaAs diode laser into an optical fiber with spherical end , 1973 .

[7] Duncan L. MacFarlane,et al. Fabrication of micro-optics by microjet printing , 1995, Photonics West.

[8] M. Hutley,et al. The manufacture of microlenses by melting photoresist , 1990 .

[9] W. T. Pimbley. Drop formation from a liquid jet: a linear one-dimensional analysis considered as a boundary value problem , 1976 .

[10] Emmanuil M. Rabinovich,et al. Microjet printing of anamorphic microlens arrays , 1996, Photonics West.

[11] Duncan L. MacFarlane,et al. Low cost optical interconnects by microjet printing , 1997 .

[12] Kevin C. Langry,et al. Intraoral fiber-optic-based diagnostic for periodontal disease , 2000, Photonics West - Biomedical Optics.

[13] T. Towe,et al. Gradient-index lenses make light work of beam directing , 1999 .