Realization of metamaterial structures by non-lithographic processes

Piqué, Alberto; Charipar, Nicholas A.; Kim, Heung Soo; Kirleis, Matthew A.; Auyeung, R. C. Y.; Smith, Andrew T.; Metkus, Kristin M.; Mathews, Scott A.

doi:10.1117/12.932649

Cited by 3 publications

(1 citation statement)

References 17 publications

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“…The aim of this work was to investigate whether laser-graphitized surface structures on diamond are suitable for fabrication of THz metamaterials. Metamaterial structures have been demonstrated by laser direct-write techniques by either removing or adding metal to a surface in order to generate the required metamaterial patterns [9]; however, this work shows that laser direct-write techniques can also be used to selectively graphitize the diamond surface to generate conductive patterns. Note that such a composite material consists of only one element-carbon, representing different types of bonding (sp 3 and sp 2 ), determined by laser direct-write.…”

Section: Introductionmentioning

confidence: 99%

Fabrication and electrodynamic properties of all-carbon terahertz planar metamaterials by laser direct-write

Комленок¹,

Лебедев²,

Komandin³

et al. 2018

Laser Phys. Lett.

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A new approach to THz metamaterial structures is proposed and experimentally realized. It is based on metal-less conductive subwavelength structures on diamond surfaces generated by laser direct-write. 200 nm thick graphitized layers with DC conductivity of 730 Ω−1 cm−1 are formed on a chemical vapour deposited polycrystalline diamond surface after irradiation with an excimer KrF laser (τl = 20 ns, λ = 248 nm). The optical properties of such layers are determined and simulated according to the Drude model. A polarizer with a graphitized subwavelength grating is fabricated and tested in the THz range (0.9–1.2 THz), and shows different transmission losses for orthogonal polarizations.

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Section: Introductionmentioning

confidence: 99%

Fabrication and electrodynamic properties of all-carbon terahertz planar metamaterials by laser direct-write

Комленок¹,

Лебедев²,

Komandin³

et al. 2018

Laser Phys. Lett.

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CongruentLIFTwith High‐Viscosity Nanopastes

Auyeung

Kim

Piqué

2018

Laser Printing of Functional Materials

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High-speed video study of laser-induced forward transfer of silver nano-suspensions

Mathews

Auyeung

Kim

et al. 2013

Journal of Applied Physics

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High-speed video (100 000 fps) is used to examine the behavior of silver nanoparticle suspensions ejected from a donor substrate during laser-induced forward transfer (LIFT) as a function of viscosity, donor film thickness, and voxel area. Both high-speed video and inspection of the post-transferred material indicate dramatic changes in the behavior of the fluid as the viscosity of the nano-suspensions increases from that of inks (∼0.01 Pa·s) to pastes (>100 Pa·s). Over a specific range of viscosities (90–150 Pa·s) and laser fluences (35–65 mJ/cm2), the ejected voxels precisely reproduce the size and shape of the laser spot. This LIFT regime is known as laser decal transfer or LDT. Analysis of the high-speed video indicates that the speeds of the voxels released by the LDT process do not exceed 1 m/s. Such transfer speeds are at least an order of magnitude lower than those associated with other LIFT processes, thus minimizing voxel deformation during flight and upon impact with the receiving substrate. Variation in the threshold fluence for initiating the LDT process is measured as a function of donor film thickness and transfer spot size. Overall, the congruent nature of the silver nanopaste voxels deposited by LDT is unique among non-contact digital printing techniques given its control of the voxel's size and shape, thus allowing partial parallelization of the direct-write process.

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Realization of metamaterial structures by non-lithographic processes

Cited by 3 publications

References 17 publications

Fabrication and electrodynamic properties of all-carbon terahertz planar metamaterials by laser direct-write

Fabrication and electrodynamic properties of all-carbon terahertz planar metamaterials by laser direct-write

CongruentLIFTwith High‐Viscosity Nanopastes

High-speed video study of laser-induced forward transfer of silver nano-suspensions

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