Submicron-scale surface acoustic wave resonators fabricated by high aspect ratio X-ray lithography and aluminum lift-off

Achenbach, Sven; Klymyshyn, David M.; Mappes, Timo; Kachayev, Anton; Subramanian, Venkat R.; Wells, Garth; Mohr, Jürgen

doi:10.1007/s00542-007-0498-7

Cited by 6 publications

(4 citation statements)

References 6 publications

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“…This continuous variation is promising, although smaller λ dom values would be required to demonstrate potential as DOEs. Existing standard lithography procedures allow SAW devices to be fabricated with submicron feature sizes [47]. If the relation given in equation ( 7) continued into this regime, λ dom below 1 µm would be achievable.…”

Section: Device Potentialmentioning

confidence: 99%

Inducing variable pitch gratings in nematic liquid crystals using chirped surface acoustic wave transducers

Morris

Jones

Nagaraj

2022

J. Phys. D: Appl. Phys.

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Inducing hydrodynamic flow in nematic liquid crystals (NLCs) reorients the symmetry axis of the material- the director, causing changes in the optical properties. The resulting optical gratings have potential use as switchable diffractive optical elements (DOEs). In this study, surface acoustic waves (SAWs) are applied to an NLC device to induce periodic vortices through hydrodynamic instabilities. We show a linear relationship between the wavelength of the applied SAW and induced grating period, where the coefficient is determined by the ratio of the speed of sound in the substrate to that in the nematic liquid crystal. This relationship is further used to design a novel device, where the period of the hydrodynamic grating can be continuously varied from 90 μm to 260 μm by utilising a broadband (chirped) SAW transducer. These devices present great potential for creating a new class of continuously variable DOEs, overcoming current technological limitations.

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Section: Device Potentialmentioning

confidence: 99%

Inducing variable pitch gratings in nematic liquid crystals using chirped surface acoustic wave transducers

Morris

Jones

Nagaraj

2022

J. Phys. D: Appl. Phys.

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“…With a look toward the feasibility of fabrication techniques such as XRL [4] for producing precise high aspect ratio structures, simulations were performed with MR of 0.3 and varying the electrode metal height in an attempt to find an optimal h/ to support LLSAW. Figure 9 shows the magnitude of the admittance response with MR of 0.3 and h/ varied from 6.75 to 8%.…”

Section: Llsaw Mass Loading Effects: Metallization Ratio and Electrodmentioning

confidence: 99%

“…Certainly, the metal thickness in this case is not negligible, and even small irregularities in electrode thickness and sidewall geometry due to lithography and lift-off errors and also metal thickness deposition inhomogeneity can cause significant variation in electrode mass. As a result, new precision high-aspect ratio microfabrication techniques for realizing thick metal electrode SAW devices, such as deep X-ray lithography (XRL) as demonstrated recently by Achenbach et al [4], could become increasingly important.…”

Section: Introductionmentioning

confidence: 99%

Finite element modeling of electrode mass loading effects in longitudinal leaky SAW resonators

Klymyshyn

Kannan

Kachayev³

2008

Micro & Optical Tech Letters

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broadside direction on the radiation pattern, especially at the higher frequency band. However, the overall antenna pattern shows the unidirectional radiation to the desired target direction, which is useful for the high-directive radar imaging applications. It is observed from the simulation results that the gain of the bowtie antenna with a reflector increases from 6.5 to 8.5 dBi, almost double the case without a reflector, which gives more high directional gain to the target direction. CONCLUSIONA novel unidirectional horn-shaped tapered bowtie slot antenna with a pyramidal reflector has been designed and fabricated for ultra high-resolution radar imaging applications. The implemented antenna performance shows very low return loss less than Ϫ10 dB over 3.0 -11.7 GHz and a quasi-unidirectional radiation that shows a high front-to-back ratio over the whole UWB frequency band. This result shows enhanced new performance compared with the previously available antenna design, which will be useful for ultra high-resolution UWB radarimaging applications.

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“…X-ray lithography (XRL) is being used to fabricate other high-aspect-ratio RF devices [10][11][12] with novel geometries and high performance, but to date has received limited application for SAW devices. In [13], the feasibility of pattering thick (up to 2 μm) polymethylmethacrylate (PMMA) templates using XRL on silicon wafers representing line-andspace IDT structures for SAW applications at >1 GHz was demonstrated. The line-to-space pitch of the IDT patterns was 1590 nm, and the vertical to lateral aspect ratio of the freestanding 2 μm tall polymer structures was on the order of 2.5:1.…”

Section: Introductionmentioning

confidence: 99%

X-ray fabrication of SAW resonators with narrow electrodes in thick high-aspect-ratio polymer templates

Klymyshyn

Mappes²,

Achenbach

et al. 2010

J. Micromech. Microeng.

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X-ray lithography shadow projection using silicon nitride-based x-ray masks is used to fabricate sub-micron scale, high-aspect-ratio structures in thick polymer templates for surface acoustic wave (SAW) applications. Interdigital electrode patterns with 380 nm wide, free-standing polymer features are fabricated in 2 μm thick templates, representing an aspect ratio of 5.26:1. The tall and narrow polymer 'ribbons' run laterally in a serpentine arrangement of 114 electrodes over a large area of approximately 30 μm × 250 μm. Aluminum deposition and lift-off using the polymer templates are performed to construct metal electrodes for the verification of SAW resonator performance above 2.5 GHz. Environmental scanning electron microscopy and atomic force microscopy are used to inspect the metal electrode edge and surface topology, and demonstrate the feasibility of metal lift-off with highly vertical sidewall polymer templates for SAW applications. Such precise polymer templates could offer interesting possibilities for acoustic applications requiring thick and/or narrow electrodes and reflectors not only through more traditional metal deposition approaches but also as thick etch masks for metal removal.

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Submicron-scale surface acoustic wave resonators fabricated by high aspect ratio X-ray lithography and aluminum lift-off

Cited by 6 publications

References 6 publications

Inducing variable pitch gratings in nematic liquid crystals using chirped surface acoustic wave transducers

Inducing variable pitch gratings in nematic liquid crystals using chirped surface acoustic wave transducers

Finite element modeling of electrode mass loading effects in longitudinal leaky SAW resonators

X-ray fabrication of SAW resonators with narrow electrodes in thick high-aspect-ratio polymer templates

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