Exact(1)
It is shown that the reflection sideband can be reduced by placing an AR layer on the bottom of the homogeneous layer, and the well-shaped reflection spectrum with near-zero sideband reflection can be achieved by using the double-faced AR design.
Similar(59)
The angular control in the reflection domain can be achieved by adding a meta-surface at the boundary of the PnC.
Minimal reflection conditions can be achieved by considering these restrictions.
It is found that a good anti-reflection characteristic can be achieved by using Si nano-patterned structures even if they have the low aspect ratio which can be attributed to the graded-index as well as the strong scattering effect.
Because expert ophthalmological examination of severe malaria in the field setting is unlikely, the results in this study are a realistic reflection of what can be achieved in a real world setting.
By adopting a twisted nematic liquid crystal (TNLC) cell structure with metasurface as one of windows of TNLC cell, electro-optic control of transmission or reflection resonances of metamaterial can be achieved for a normally incident light [10 12].
Integrating reflection into any course can be achieved by a relatively simple tweaking of existing course assignments.
After surface modification on silicon wafer, efficient suppression of reflection in a broad visible spectral range can be achieved through multiple reflection and absorption.
A maximum reflection loss of −65.3 dB can be achieved at 6.8 GHz with a matching thickness of 3.4 mm for the hybrids with 20 mg original graphene oxide, and the effective absorption bandwidth with reflection loss values less than −10 dB covers 12 16 GHz with the absorber thickness of only 2.0 mm.
When the thickness is just 1.25 mm, the reflection loss values below −10 dB can be achieved from 13.8 to 18 GHz, with a maximum reflection loss of −25.9 at 16.1 GHz.
However, this is constant work and requires a lot of self-reflection and internal awareness that can be achieved through therapeutic modalities.
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Justyna Jupowicz-Kozak
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