<title>Reflectivity of micromachined {111}-oriented silicon mirrors for optical input/output couplers</title>

Abstract: In this work, bulk-micromachined { 1 1 1}-oriented silicon mirrors at 54.7° have been fabricated in 20 wt% KOH solution at various temperatures and characterized with single mode fibers (10/125 and 51125). In fabricating the mirrors, the etch rate of the (100) silicon surface was widely changed from 5.3 tm/hr to 73 jim/hr as the processing temperatures were varied from 40 °C to 80 °C. In spite of the tremendous variation of etch rate, the measured reflectivities of the mirrors showed fairly stable values of 63… Show more

“…A major component of the OEMCM, and the focus of this paper, is the micromachined silicon mirror or optical I-O coupler which can be fabricated using standard silicon micromachining techniques such as wet anisotropic etching in KOH [3][4][5][6]. The micromachined mirror should have the capability of reflecting the input optical beam to a photodetector positioned vertically from the incident direction, thus allowing for the realization of an integrated optical I-O coupler [7]. In addition to their importance in OEMCMs, optical I-O couplers will also find applications in optical communications and signal processing.…”

“…Standard anisotropic etching techniques can be used to expose {111} planes since they etch so much more slowly than any other crystal plane in etchants such as KOH. For this reason, {111} planes have been widely investigated as reflecting surfaces [7][8][9][10]. Although a 45 • mirror would seem the logical choice for an optical I-O coupler, a nonstandard wafer whose polished surface is 9.7 • out of the (100) plane is required as the substrate if one wishes to use {111} planes as the 45 • reflecting surfaces.…”

Optical reflectivity of micromachined {111}-oriented silicon mirrors for optical input - output couplers

“…A major component of the OEMCM, and the focus of this paper, is the micromachined silicon mirror or optical I-O coupler which can be fabricated using standard silicon micromachining techniques such as wet anisotropic etching in KOH [3][4][5][6]. The micromachined mirror should have the capability of reflecting the input optical beam to a photodetector positioned vertically from the incident direction, thus allowing for the realization of an integrated optical I-O coupler [7]. In addition to their importance in OEMCMs, optical I-O couplers will also find applications in optical communications and signal processing.…”

“…Standard anisotropic etching techniques can be used to expose {111} planes since they etch so much more slowly than any other crystal plane in etchants such as KOH. For this reason, {111} planes have been widely investigated as reflecting surfaces [7][8][9][10]. Although a 45 • mirror would seem the logical choice for an optical I-O coupler, a nonstandard wafer whose polished surface is 9.7 • out of the (100) plane is required as the substrate if one wishes to use {111} planes as the 45 • reflecting surfaces.…”

Optical reflectivity of micromachined {111}-oriented silicon mirrors for optical input - output couplers