2009
DOI: 10.1088/0960-1317/19/7/074014
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Vertically tapered layers for optical applications fabricated using resist reflow

Abstract: This paper reports on the IC-compatible fabrication of vertically tapered optical layers for use in linear variable optical filters (LVOF). The taper angle is fully defined by a mask design. Only one masked lithography step is required for defining strips in a photoresist with trenches etched therein of a density varying along the length of the strip. In a subsequent reflow, this patterned photoresist is planarized, resulting in a strip with a local thickness defined by the initial layer thickness and the tren… Show more

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Cited by 56 publications
(44 citation statements)
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“…The incident light spot should be imaged over the entire detector array, resulting is a poor optical throughput in general purpose, wideband applications, as compared to gratingbased microspectrometer systems. However, many promising application involve spectral analysis in a narrow band (Emadi et al 2009) around an absorption line or luminescence line, which would favor the LVOF concept with typically 40-80 channels within this band. Particularly promising are applications in which several absorption lines need to be analyzed simultaneously, since multiple LVOFs can be fabricated simultaneously on a chip using a specially designed mask and reflow to result in tapered layers with different taper angles.…”
Section: Cmos-compatible Mems-based Microspectrometersmentioning
confidence: 99%
See 1 more Smart Citation
“…The incident light spot should be imaged over the entire detector array, resulting is a poor optical throughput in general purpose, wideband applications, as compared to gratingbased microspectrometer systems. However, many promising application involve spectral analysis in a narrow band (Emadi et al 2009) around an absorption line or luminescence line, which would favor the LVOF concept with typically 40-80 channels within this band. Particularly promising are applications in which several absorption lines need to be analyzed simultaneously, since multiple LVOFs can be fabricated simultaneously on a chip using a specially designed mask and reflow to result in tapered layers with different taper angles.…”
Section: Cmos-compatible Mems-based Microspectrometersmentioning
confidence: 99%
“…CMOS-compatible LVOF fabrication is based on the reflow of a specially patterned layer of resist (Emadi et al 2009). Figure 2 shows the basic process sequence for fabrication.…”
Section: Cmos-compatible Mems-based Microspectrometersmentioning
confidence: 99%
“…The process starts by deposition of the lower dielectric mirror stack and the oxide layer that results in the cavity layer (layers 1-8 in Table 1). Photoresist is spin coated as the next step and lithography is applied to define the strip-like structure in the resist layer to be reflowed [8,10]. A series of trenches of constant width and with variable spatial frequency or trenches of variable width and constant pitch are etched over the length of the strip of resist to vary the effective amount of resist per unit area.…”
Section: Lvof Fabricationmentioning
confidence: 99%
“…This is the main technological challenge in the fabrication of an ICcompatible LVOF. A process based on reflow of a patterned layer of photoresist has been developed for the fabrication of such tapered layers and is presented in [10].…”
Section: Introductionmentioning
confidence: 99%
“…The thickness profile of the tapered resist structures were characterized by a stylus profilometer [19]. The tapered resist pattern was transferred into a SiO 2 cavity layer by a dry-etching process that was optimized for minimum surface roughness.…”
Section: Design and Fabrication Of A Uv Lvofmentioning
confidence: 99%