Laser induced electro-optical characterization of anthraquinone dye and fullerene C60 doped guest-host liquid crystal systems

Akkurt, Fatih

doi:10.1016/j.molliq.2014.02.040

Cited by 6 publications

(2 citation statements)

References 26 publications

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“…For the past decade, the chemical and physical properties of fullerenes have been a hot topic in the field of research and development, and are likely to continue to be for a long time [14,15,16,17]. Recently, fullerenes-60 (C60) have attracted much scientific attention due to their novel optical and electrical properties and potential applications such as alkali metal-doped fullerenes become superconductor, while doped thin films act as a conductor [18,19,20]. The structural modification of C60 fullerenes is very easy which causes the simplicity of the technological treatment.…”

Section: Introductionmentioning

confidence: 99%

Investigation of mode localization in hybrid periodic/quasiperiodic heterostructures containing nano-scale fullerene layers

Rahimi

2015

Optik

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Section: Introductionmentioning

confidence: 99%

Investigation of mode localization in hybrid periodic/quasiperiodic heterostructures containing nano-scale fullerene layers

Rahimi

2015

Optik

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“…For the past decade, the chemical and physical properties of fullerenes have been a hot topic in the field of research and development, and are likely to continue to be for a long [14][15][16][17]. Recently, fullerenes-60 (C60) have attracted much scientific attention due to their novel optical and electrical properties and potential applications such as alkali metal-doped fullerenes become superconductor, while doped thin films act as a conductor [18][19][20]. The structural modification of C60 fullerenes is very easy which causes the simplicity of the technological treatment.…”

Section: Introductionmentioning

confidence: 99%

Photonic Analysis of Semiconductor Fibonacci Superlattices: Properties and Applications

Rahimi¹

2014

PIER M

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Abstract-In this paper, we theoretically study the phase treatment of reflected waves in onedimensional Fibonacci photonic quasicrystals composed of nano-scale fullerene and semiconductor layers. The dependence of the phase shift of reflected waves for TE mode and TM mode on the wavelength and incident angle is calculated by using the theoretical model based on the transfer matrix method in the infrared wavelength region. In the band gaps of supposed structures, it is found that the phase shift of reflected wave changes more slowly than within the transmission band gaps. Furthermore, the phase shift decreases with the incident angle increasing for TE mode, and increases with the incident angle increasing for TM mode. Also, for the supposed structures it is found that there is a band gap which is insensitive to the order of the Fibonacci sequence. These structures open a promising way to fabricate subwavelength tunable phase compensators, very compact wave plates and phase-sensitive interferometry for TE and TM waves.

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Near infrared ultra compact phase retarders based on photonic superlattices containing fullerene layers

Rahimi

2015

Opt Quant Electron

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Laser induced electro-optical characterization of anthraquinone dye and fullerene C60 doped guest-host liquid crystal systems

Cited by 6 publications

References 26 publications

Investigation of mode localization in hybrid periodic/quasiperiodic heterostructures containing nano-scale fullerene layers

Investigation of mode localization in hybrid periodic/quasiperiodic heterostructures containing nano-scale fullerene layers

Photonic Analysis of Semiconductor Fibonacci Superlattices: Properties and Applications

Near infrared ultra compact phase retarders based on photonic superlattices containing fullerene layers

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