Your search keyword '"Butt, Haider"' showing total 12 results

1. Multiwall carbon nanotube microcavity arrays.

Author

Ahmed, Rajib, Rifat, Ahmmed A., Yetisen, Ali K., Qing Dai, Seok Hyun Yun, and Butt, Haider

Subjects

MULTIWALLED carbon nanotubes, CARBON nanotubes, PHOTONICS research, LASER cavity resonators, PHYSICS research

Abstract

Periodic highly dense multi-wall carbon nanotube (MWCNT) arrays can act as photonic materials exhibiting band gaps in the visible regime and beyond terahertz range. MWCNT arrays in square arrangement for nanoscale lattice constants can be configured as a microcavity with predictable resonance frequencies. Here, computational analyses of compact square microcavities (≈0.8x0.8 µm²) in MWCNT arrays were demonstrated to obtain enhanced quality factors (≈170-180) and narrow-band resonance peaks. Cavity resonances were rationally designed and optimized (nanotube geometry and cavity size) with finite element method. Series (1x2 and 1x3) and parallel (2x1 and 3x1) combinations of microcavities were modeled and resonance modes were analyzed. Higher order MWCNT microcavities showed enhanced resonance modes, which were red shifted with increasing Q-factors. Parallel microcavity geometries were also optimized to obtain narrow-band tunable filtering in low-loss communication windows (810, 1336, and 1558 nm). Compact series and parallel MWCNT microcavity arrays may have applications in optical filters and miniaturized optical communication devices. [ABSTRACT FROM AUTHOR]

Published

2016

2. Nanosecond pulsed laser texturing of optical diffusers.

Author

Sabouri, Aydin, Butt, Haider, Alqurashi, Tawfiq, and Yetisen, Ali K.

Subjects

*OPTICAL glass, *PULSED lasers, *AEROSPACE engineering

Abstract

High-quality optical glass diffusers have applications in aerospace, displays, imaging systems, medical devices, and optical sensors. The development of rapid and accurate fabrication techniques is highly desirable for their production. Here, a micropatterning method for the fast fabrication of optical diffusers by means of nanosecond pulsed laser ablation is demonstrated (λ=1064 nm, power=7.02, 9.36 and 11.7 W and scanning speed=200 and 800 mm s-1). The experiments were carried out by point-to-point texturing of a glass surface in spiral shape. The laser machining parameters, the number of pulses and their power had significant effect on surface features. The optical characteristics of the diffusers were characterized at different scattering angles. The features of the microscale structures influenced average roughness from 0.8 μm to 1.97 μm. The glass diffusers scattered light at angles up to 20° and their transmission efficiency were measured up to ∼97% across the visible spectrum. The produced optical devices diffuse light less but do so with less scattering and energy losses as compared to opal diffusing glass. The presented fabrication method can be applied to any other transparent material to create optical diffusers. It is anticipated that the optical diffusers presented in this work will have applications in the production of LED spotlights and imaging devices. [ABSTRACT FROM AUTHOR]

Published

2017

3. Rewritable three-dimensional holographic data storage via optical forces.

Author

Yetisen, Ali K., Montelongo, Yunuen, and Butt, Haider

Subjects

HOLOGRAPHIC storage devices (Computer science), PHOTOREFRACTIVE effect, METHACRYLIC acid, HOLOGRAPHY, PHOTONIC crystals

Abstract

The development of nanostructures that can be reversibly arranged and assembled into 3D patterns may enable optical tunability. However, current dynamic recording materials such as photorefractive polymers cannot be used to store information permanently while also retaining configurability. Here, we describe the synthesis and optimization of a silver nanoparticle doped poly(2-hydroxyethyl methacrylate-co-methacrylic acid) recording medium for reversibly recording 3D holograms. We theoretically and experimentally demonstrate organizing nanoparticles into 3D assemblies in the recording medium using optical forces produced by the gradients of standing waves. The nanoparticles in the recording medium are organized by multiple nanosecond laser pulses to produce reconfigurable slanted multilayer structures. We demonstrate the capability of producing rewritable optical elements such as multilayer Bragg diffraction gratings, 1D photonic crystals, and 3D multiplexed optical gratings. We also show that 3D virtual holograms can be reversibly recorded. This recording strategy may have applications in reconfigurable optical elements, data storage devices, and dynamic holographic displays. [ABSTRACT FROM AUTHOR]

Published

2016

4. Carbon nanotube biconvex microcavities.

Author

Butt, Haider, Yetisen, Ali K., Ahmed, Rajib, Seok Hyun Yun, and Qing Dai

Subjects

*MULTIWALLED carbon nanotubes, *PHOTONICS, *METAMATERIAL antennas, *FINITE element method, *ELECTRIC circuits, *OPTICAL antennas

Abstract

Developing highly efficient microcavities with predictive narrow-band resonance frequencies using the least amount of material will allow the applications in nonlinear photonic devices. We have developed a microcavity array that comprised multi-walled carbon nanotubes (MWCNT) organized in a biconvex pattern. The finite element model allowed designing microcavity arrays with predictive transmission properties and assessing the effects of the microarray geometry. The microcavity array demonstrated negative index and produced high Q factors. 2-3 im tall MWCNTs were patterned as biconvex microcavities, which were separated by 10 im in an array. The microcavity was iridescent and had optical control over the diffracted elliptical patterns with a far-field pattern, whose properties were predicted by the model. It is anticipated that the MWCNT biconvex microcavities will have implications for the development of highly efficient lenses, metamaterial antennas, and photonic circuits. [ABSTRACT FROM AUTHOR]

Published

2015

5. Enhanced reflection from inverse tapered nanocone arrays.

Author

Xiang-Tian Kong, Butt, Haider, Yetisen, Ali K., Kangwanwatana, Chuan, Yunuen Montelongo, Sunan Deng, da Cruz Vasconcellos, Fernando, Qasim, Malik M., Wilkinson, Timothy D., and Qing Dai

Subjects

*OPTICAL reflection, *SILICON surfaces, *OPTICAL devices, *FINITE element method, *ELECTRON beam lithography, *OPTICAL polarization, *ENERGY conservation

Abstract

We computationally and experimentally demonstrate enhanced reflection effects displayed by silicon-based inverted nanocone arrays. A 3D finite element model is used to characterize the optical properties of the nanocone arrays with respect to the change in polarization and incident angles. The nanocone arrays are fabricated by e-beam lithography in hexagonal and triangular geometries with a lattice constant of 300 nm. The fabricated devices show a two-fold increase in reflection compared with bare silicon surface, as well as a strong diffraction within the visible and nearinfrared spectra. The nanocone arrays may find a variety of applications from optical devices to energy conservation technologies. [ABSTRACT FROM AUTHOR]

Published

2014

6. High contrast holograms using nanotube forest.

Author

Montelongo, Yunuen, Chen, Bingan, Butt, Haider, Robertson, John, and Wilkinson, Timothy D.

Subjects

NANOTUBES, WAVELENGTHS, HOLOGRAPHY, VISIBLE spectra, DIFFRACTIVE optical elements

Abstract

Nanotube forest behaves as highly absorbent material when they are randomly placed in sub-wavelength scales. Furthermore, it is possible to create diffractive structures when these bulks are patterned in a substrate. Here, we introduce an alternative to fabricate intensity holograms by patterning fringes of nanotube forest on a substrate. The result is an efficient intensity hologram that is not restricted to sub-wavelength patterning. Both the theoretical and experimental analysis was performed with good agreement. The produced holograms show a uniform behaviour throughout the visible spectra. [ABSTRACT FROM AUTHOR]

Published

2013

7. A nano-patterned photonic crystal laser with a dye-doped liquid crystal.

Author

Ko, Doo-Hyun, Morris, Stephen M., Lorenz, Alexander, Castles, Flynn, Butt, Haider, Gardiner, Damian J., Qasim, Malik M., Wallikewitz, Bodo, Hands, Philip J. W., Wilkinson, Timothy D., Amaratunga, Gehan A. J., Coles, Harry J., and Friend, Richard H.

Subjects

PHOTONIC crystals, SOLID-state lasers, LIQUID crystals, TITANIUM dioxide crystals, ELECTRIC fields, WAVELENGTHS

Abstract

Covering a nano-patterned titanium dioxide photonic crystal (PC) within a well-oriented film of dye-doped liquid crystal (LC), a distributed feedback laser is constructed whereby the emission characteristics can be manipulated in-situ using an electric field. This hybrid organic-inorganic structure permits simultaneous selectivity of both the beam pattern and laser wavelength by electrical addressing of the LC director. In addition, laser emission is obtained both in the plane and normal to the PC. Along with experimental data, a theoretical model is presented that is based upon an approximate calculation of the band structure of this birefringent, tuneable laser device. [ABSTRACT FROM AUTHOR]

Published

2013

8. Continuous diffraction patterns from circular arrays of carbon nanotubes.

Author

Butt, Haider, Butler, Tim, Montelongo, Yunuen, Rajesekharan, Ranjith, Wilkinson, Timothy D., and Amaratunga, Gehan A. J.

Subjects

*CARBON nanotubes, *MULTIWALLED carbon nanotubes, *COMPACT discs, *DIFFRACTION patterns, *HOLOGRAPHY

Abstract

We report the remarkable diffraction effects produced from circular patterned arrays of multiwalled carbon nanotubes (MWCNTs). Highly ordered circular arrays of multiwalled carbon nanotubes (with inter-nanotube spacings of 633 nm) display optical dispersion effects similar to compact discs. These arrays display remarkable diffraction patterns in the far field which are spatially continuous. High quality diffraction patterns were obtained experimentally which are in excellent agreement with the theoretical calculations. The achieved continuous diffraction patterns pave the way towards the utilization of engineered carbon nanotube arrays in applications like three dimensional holograms. [ABSTRACT FROM AUTHOR]

Published

2012

9. Cylindrical Fresnel lenses based on carbon nanotube forests.

Author

Butt, Haider, Rajesekharan, Ranjith, Dai, Qing, Sarfraz, Sohab, Vasant Kumar, R., Amaratunga, Gehan A. J., and Wilkinson, Timothy D.

Subjects

*FRESNEL lenses, *CARBON nanotubes spectra, *LIGHT absorption, *NANOSTRUCTURED materials, *NANOSTRUCTURED materials synthesis, *NANOTUBES, *SURFACES (Technology), *PHOTOVOLTAIC cells

Abstract

The forests of carbon nanotubes have been termed as the darkest man-made materials. Such materials exhibit near-perfect optical absorption (reflectance ∼ 0.045%) due to low reflectance and nanoscale surface roughness. We have demonstrated the utilization of these perfectly absorbing forests to produce binary amplitude cylindrical Fresnel lenses. The opaque Fresnel zones are defined by the dark nanotube forests and these lenses display efficient focusing performance at optical wavelengths. Lensing performance was analyzed both computationally and experimentally with good agreement. Such nanostructure based lenses have many potential applications in devices like photovoltaic solar cells. [ABSTRACT FROM AUTHOR]

Published

2012

10. Metamaterial filter for the near-visible spectrum.

Author

Butt, Haider, Dai, Qing, Lal, Niraj N., Wilkinson, Timothy D., Baumberg, Jeremy J., and Amaratunga, Gehan A. J.

Subjects

*METAMATERIALS, *FILTERS & filtration, *SILICON, *PLASMA gases, *NUMERICAL analysis, *SPECTRUM allocation

Abstract

We demonstrate metamaterials operating in the near-visible regime based on two-dimensional arrays of gold-coated silicon nanopillars. The nanopillar arrays demonstrate a cutoff response at the metamaterial plasma frequency in accordance with theory and can be utilized for filtering applications. A plasma frequency in the near visible region of λ = 1 μm is calculated numerically for an array with a lattice constant of 300 nm and wire radius of 50 nm, with reflection measurements in agreement with numerical calculations. Such structures can be utilized for achieving negative-index based metamaterials for the visible spectrum. [ABSTRACT FROM AUTHOR]

Published

2012

11. Enhanced reflection from arrays of silicon based inverted nanocones.

Author

Butt, Haider, Dai, Qing, Rajasekharan, Ranjith, Wilkinson, Timothy D., and Amaratunga, Gehan A. J.

Subjects

*SILICON, *NONMETALS, *NANOSILICON, *PHOTONICS, *OPTICS, *FIBER optics

Abstract

We report enhanced reflection displayed by arrays of silicon based inverted nanocones. Theoretical studies suggest that such arrays display enhanced reflection and photonic band gaps within the optical and near infrared regions. Measured results show three to four fold enhancement in reflection and agree well with calculations. Such arrays can be used to enhance infrared reflection in photovoltaic devices which mostly contribute towards heating. [ABSTRACT FROM AUTHOR]

Published

2011

12. Metamaterial high pass filter based on periodic wire arrays of multiwalled carbon nanotubes.

Author

Butt, Haider, Dai, Qing, Farah, Petros, Butler, Tim, Wilkinson, Timothy D., Baumberg, Jeremy J., and Amaratunga, Gehan A. J.

Subjects

*CARBON nanotubes, *METAMATERIALS, *ELECTROMAGNETIC waves, *OPTICAL reflection, *NANOSTRUCTURES, *PHYSICS experiments, *NUMERICAL analysis

Abstract

In this manuscript, we demonstrate metamaterials based on two-dimensional high density arrays of metallic multiwalled carbon nanotubes. They demonstrate a cutoff response toward electromagnetic waves and can be utilized for filtering applications. The plasma frequency, where the metamaterial displayed a sharp change in the reflection and transmission, depends on the geometry of their two-dimensional cubic lattice. A plasma frequency in the near infrared region of 1.5 μm was calculated numerically, for an array consisting of multiwalled nanotubes, having radius of 50 nm and lattice constant of 400 nm. Reflection experiments conducted on the nanoscale structures were in excellent agreement with numerical calculations. [ABSTRACT FROM AUTHOR]

Published

2010