Spectroscopic ellipsometry of materials for infrared micro‐device fabrication

Folks, William R.; Ginn, James; Shelton, David; Tharp, Jeffrey S.; Boreman, Glenn D.

doi:10.1002/pssc.200777748

Cited by 20 publications

(12 citation statements)

References 16 publications

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“…The bottom graph in Fig. 13,14 The need for scaling the particle reflectivity measurement is primarily a result of the lack of particles filling the FTIR measurement area. (1) to the spectral shape of the FSS particle reflectivity.…”

Section: Resultsmentioning

confidence: 99%

Large area infrared frequency selective surface with dimensions reproducible by optical lithography

D’Archangel

Shelton

Hudgins

et al. 2014

Journal of Vacuum Science &Amp; Technology B, Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phen

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Electrotunable in-plane one-dimensional photonic structure based on silicon and liquid crystal Appl. Phys. Lett. 90, 011908 (2007); 10.1063/1.2430626In situ real-time monitoring of profile evolution during plasma etching of mesoporous low-dielectric-constant SiO 2An infrared frequency selective surface (FSS) with absorptive resonance near 6.5 lm was fabricated by electron-beam lithography using a patch design with dimensions reproducible by optical-projection lithography. By selective wet etching along with reactive-ion etching, the sample was divided into miniature FSS particles, which were released from the substrate. A large number of such particles could be implemented as a large area, conformal coating. Spectral reflectivity of the full FSS array as well as the FSS particles was measured and compared to electromagnetic simulations. To show the feasibility of this approach, the full array FSS design was fabricated using a g-line (k ¼ 436 nm) 5Â projection lithography stepper and compared to the array fabricated by electron-beam lithography using scanning electron microscopy and Fourier transform infrared spectroscopy. Even though the resolution of the g-line stepper led to a poor fabrication output, the optical resonance was found to be robust, with only slight detuning attributed to the changes in unit cell geometry. This work highlights the utility of optical-projection lithography, coupled with the releasable particle fabrication procedure, to create a large area, conformal coating with specific infrared spectral properties.

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Section: Resultsmentioning

confidence: 99%

Large area infrared frequency selective surface with dimensions reproducible by optical lithography

D’Archangel

Shelton

Hudgins

et al. 2014

Journal of Vacuum Science &Amp; Technology B, Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phen

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“…Secondly, the phase shift of the meanderline QWP exhibits two noticeable dips in its spectrum that signify further departure from ideal behavior. These spectral minima correspond to the phonon modes of benzocyclobutene (BCB), the dielectric layer that was used in the construction of the multilayer component [21]. However, as shown in Fig.…”

Section: A Polarimetric Datamentioning

confidence: 99%

Comparison of quarter-wave retarders over finite spectral and angular bandwidths for infrared polarimetric-imaging applications

Wadsworth

Boreman

2011

Appl. Opt.

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We compare three technological approaches for quarter-wave retarders within the context of polarimetric-imaging applications in the long-wave infrared (LWIR) spectrum. Performance of a commercial cadmium sulfide (CdS) crystalline waveplate, a multilayer meanderline structure, and a silicon (Si) form-birefringent retarder are evaluated under conditions of 8-12 μm broadband radiation emerging from an F/1 focusing objective. Metrics used for this comparison are the spectrally dependent axial ratio, retardance, and polarization-averaged power transmittance, which are averaged over the angular range of interest. These parameters correspond to the characteristics that would be observed at the focal-plane array (FPA) detector of an LWIR imaging polarimeter.

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“…Other resonances appear at lower wavelengths between 500 nm and 700 nm. The small peak at λ = 3.4 µm is due to a vibrational absorption of BCB that is enhanced by the Helmholtz resonator 21 . For the sake of comparison, the absorption spectra are also plotted under the same illumination conditions for an array of slits (height 4h s , width w s ) and for an array of cavity filled with BCB (width w b , height h b ) that also exhibit resonant absorption, but at lower wavelengths.…”

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confidence: 98%

“…with γ = 0.055 and λ p = 159 nm. The BCB was described by a Lorentz model fitting experimental data 21 . The computed absorption spectrum, for a transverse magnetic (TM) polarized and normally incident light, is plotted in Fig.…”

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confidence: 99%

Experimental demonstration of the optical Helmholtz resonance

Chevalier

Bouchon

Verdun

et al. 2018

Applied Physics Letters

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Optical nanoantennas are studied to manipulate light and enhance light matter interactions. Here, we experimentally demonstrate the optical Helmholtz resonance in a metallic slit-box structure, which is predicted to be harmonic and to enhance the electric field intensity by several orders of magnitude. It is fabricated thanks to a two step electron beam lithography process, between which the box was filled with benzocyclobutene (BCB). Up to 80% of the light is absorbed at a λ = 2.84 μm wavelength under a beam focused by a Cassegrain objective (NA = 0.4), even if the dimensions of this resonator are deeply subwavelength for both the slit (width λ/55 and height λ/77) and the box (width λ/7 and height λ/37). As expected from the inductance nature of the box, the optical properties of the BCB filling the box have no influence on the resonance behavior.

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Spectroscopic ellipsometry of materials for infrared micro‐device fabrication

Cited by 20 publications

References 16 publications

Large area infrared frequency selective surface with dimensions reproducible by optical lithography

Large area infrared frequency selective surface with dimensions reproducible by optical lithography

Comparison of quarter-wave retarders over finite spectral and angular bandwidths for infrared polarimetric-imaging applications

Experimental demonstration of the optical Helmholtz resonance

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