Effect of a Subwavelength Layer on All Optical-Diode Action in 1d Photonic Crystal

Jamshidi‐Ghaleh, Kazem; Safari, Zeinab

doi:10.1142/s2010194512006940

Cited by 3 publications

(3 citation statements)

References 17 publications

(16 reference statements)

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“…The realization of nonreciprocal or symmetry breaking in light transmission is an essential property for communication and information processing in an all-optical domain. Various efforts have been made for achieving asymmetrical light propagation in the past. − Most of these structures are complex and requires high electric/magnetic fields to achieve nonreciprocal transmission, questioning the feasibility of their on-chip integration. However, the nonreciprocity in light propagation in the nonlinear regime can be attained by cascading materials with dissimilar nonlinear absorption coefficients.…”

Section: Resultsmentioning

confidence: 99%

All-Optical Diode Action through Enhanced Nonlinear Response from Polymeric Photonic Crystal Microcavity

Purayil

Kakekochi

Dalimba

et al. 2021

ACS Appl. Electron. Mater.

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The search for materials for nanophotonic devices needs a way to overcome the limitations of weak nonlinear optical response due to reduced size. The requirement of a high-power excitation source for inducing nonlinear effects in the active medium poses a hurdle in realizing all-optical and integrated optoelectronic systems. Nanosized optical materials can be embedded in photonic cavities to enhance its optical nonlinear responses through confinement effects. This report systematically investigates the linear and nonlinear optical properties of polymeric 1D-photonic crystals (PhC) with a defect layer incorporated with an imidazo-thiadiazole derivative small molecule. The nonlinear optical studies were carried out by means of a z-scan technique under nanosecond pulse using a Q-switched Nd:YAG laser operating at 532 nm. The resonant excitation creates strong confinement of light in the photonic microcavity and facilitates strong light–matter interaction that induces nonlinear response at low input intensities. A giant enhancement in the nonlinear absorption and optical limiting action was observed for PhC comparing to the bare sample. The significant enhancement in the absorptive nonlinearity is utilized for realizing a practical, on-chip, passive, all-optical diode with a PhC/Au hybrid structure. The asymmetrical nonlinear absorption of the hybrid structure exhibits non-reciprocal light transmission in the nonlinear regime. The high transmittance contrast ratio for forward/reverse bias operation and cost-effective fabrication methods makes our system a potential candidate toward the realization of compact photonic integrated devices.

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Section: Resultsmentioning

confidence: 99%

All-Optical Diode Action through Enhanced Nonlinear Response from Polymeric Photonic Crystal Microcavity

Purayil

Kakekochi

Dalimba

et al. 2021

ACS Appl. Electron. Mater.

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“…Photonic crystals have paved the way for a new field of research and application possibilities. These crystals could for example improve the performance of lasers and lightemitting diodes or allow the manufacture of new types of antennas and amplifiers [5][6][7].…”

Section: Introductionmentioning

confidence: 99%

Enhancement of Light Localization in Hybrid Thue-Morse/Periodic Photonic Crystals

Asmi

Ali

Kanzari

2016

Journal of Materials

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The electric field intensity in one-dimensional (1D) quasiperiodic and hybrid photonics band-gap structures is studied in the present paper. The photonic structures are ordered according to Fibonacci, Thue-Morse, Cantor, Rudin-Shapiro, Period-Doubling, Paper-Folding, and Baum-Sweet sequences. The study shows that the electric field intensity is higher for the Thue-Morse multilayer systems. After that the Thue-Morse structure will be combined with a periodic structure to form a hybrid photonic structure. It is shown that this hybrid system is the best for a strong localization of light. The proposed structures have been modeled using the Transfer Matrix Method.

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“…In the normal incident case, the characteristics of the PBGs and defect modes, closely depend on the optical properties of the constituted layers and defect layer. The existence of the PBG and defect modes in the optical spectrum (Reflectance, Absorptance or Transmittance) of the PC have leaded to many interesting phenomena and numerous applications of PCs in improving the performance of optoelectronic and microwave devices such as high-efficiency semiconductor lasers, light emitting diodes, wave guides, high-Q resonators, antennas, all-optical diodes and filters, frequency selective surface, optical limiters and amplifiers [13][14][15][16].…”

Section: Introductionmentioning

confidence: 99%

Designing Plane Wave Modulators Using 1dpc Nanostructure With R-Grin Defect Layer

Jamshidi‐Ghaleh¹,

Bayat²

2014

PIER M

Self Cite

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Abstract-In this paper, we introduce plane wave modulators that are designed using one-dimensional photonic crystals (1DPC) containing radial gradient refractive index (r-GRIN) defect layers. Three kinds of r-GRIN materials with different refractive index distribution functions are applied in numerical analysis. The properties of the phase and intensity of the transmitted plane wave beam through proposed structures are studied using the transfer matrix method. Radially-dependent defect modes, modulated phase and intensity are obtained according to the refractive index distribution functions. The results are predictable by regarding the Bragg condition and destructive interference, which are the origins of the photonic band gap (PBG). Due to the radial-dependency of the defect layer's refractive index, the rays passing through different transverse positions experience different optical pathways. Therefore, the defect modes and transmitted spectrum (phase and amplitude) vary transversely. This study demonstrates another ability of the artificial PC structures to design plane wave modulators and manipulate its phase and intensity.

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Effect of a Subwavelength Layer on All Optical-Diode Action in 1d Photonic Crystal

Cited by 3 publications

References 17 publications

All-Optical Diode Action through Enhanced Nonlinear Response from Polymeric Photonic Crystal Microcavity

All-Optical Diode Action through Enhanced Nonlinear Response from Polymeric Photonic Crystal Microcavity

Enhancement of Light Localization in Hybrid Thue-Morse/Periodic Photonic Crystals

Designing Plane Wave Modulators Using 1dpc Nanostructure With R-Grin Defect Layer

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