Multidiameter optical ring and Hermite–Gaussian vortices for wavelength division multiplexing–mode division multiplexing

Amphawan, Angela; Fazea, Yousef

doi:10.1117/1.oe.55.10.106109

Cited by 18 publications

(5 citation statements)

References 28 publications

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“…MDM is based on maintaining the orthogonality of optical modes when passing through optical media and systems [ 33 , 34 , 35 , 36 , 37 , 38 , 39 ], which provides a simple way to demultiplex information that corresponds to different mode channels based on matched filters [ 16 , 28 , 40 , 41 ]. MDM-based information encoding in a physical medium is easily accomplished using diffractive optics.…”

Section: Development Of Multichannel Filters and Modelling Of The Sorting Processmentioning

confidence: 99%

Spatial-Light-Modulator-Based Multichannel Data Transmission by Vortex Beams of Various Orders

Хонина

Карпеев

Butt

2021

Sensors

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We report an atmospheric multichannel data transmission system with channel separation by vortex beams of various orders, including half-integer values. For the demultiplexing of the communication channels, a multichannel diffractive optical element (DOE) is proposed, being matched with the used vortex beams. The considered approach may be realized without digital processing of the output images, but only based on the numbers of informative diffraction orders, similar to sorting. The system is implemented based on two spatial light modulators (SLMs), one of which forms a multiplexed signal on the transmitting side, and the other implements a multichannel DOE for separating the vortex beams on the receiving side. The stability of the communication channel to atmospheric interference and the crosstalk between the channels are investigated.

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Section: Development Of Multichannel Filters and Modelling Of The Sorting Processmentioning

confidence: 99%

Spatial-Light-Modulator-Based Multichannel Data Transmission by Vortex Beams of Various Orders

Хонина

Карпеев

Butt

2021

Sensors

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“…(5) described, i.e., calculating the intensities of the two modes and summing them pixel by pixel. The basis of this operation is an assumption that the OAM modes are mutually incoherent for the OAM multiplexing and should be applied in combination with other multiplexing technologies, [2][3][4][5] which proves an absence of interface among OAM modes.…”

Section: Oam Broad Field Modulation Multiplexingmentioning

confidence: 99%

“…1 Because the mode index l can be an unlimited integer value in theory and a beam carrying an OAM mode cannot be created from a linear combination of beams carrying other OAM modes, OAM affords a new physical dimension or a new degree of freedom for data transfer. [2][3][4][5] For example, an enormous information channel capacity can be achieved via OAM encoding, OAM modulation, and OAM division multiplexing. In these applications, OAM beams are generated by techniques that use a spiral phase plate, phase hologram, fiber-based devices, photonic integrated devices, and metamaterials.…”

Section: Introductionmentioning

confidence: 99%

“…The mutual incoherence means distinct modes will be preserved and no crosstalk occurs between them when they travel mixed. It can be guaranteed by polarization multiplexing, 2 optical fiber guided mode multiplexing, 3,4 wavelength division multiplexing, 5 or time-division multiplexing. 25 When this beam irradiates an object, the object responds to individual OAM beams uniformly at the same time since a single wavelength is used.…”

Section: Introductionmentioning

confidence: 99%

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Detection of double orbital angular momentum modes in monochromic dynamic bi-orbital angular momentum multiplexing by ptychography

Liu

2020

Opt. Eng.

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Coherent diffractive ptychographic imaging via a modified multi-state ptychographic algorithm can be used to simultaneously detect double orbital angular momentum (OAM) modes in monochromatic bi-OAM-mode multiplexing. The wavefronts for individual vortex beams modulated by two-dimensional amplitude and temporal pulses and mixed together can be reconstructed independently. In contrast to most other OAM detection methods, this approach solves for the OAM detection in a monochromatic dynamic multi-OAM beam and can be applied as an early step in OAM mode demultiplexing. © The Authors. Published by SPIE under a Creative Commons Attribution 4.0 Unported License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI.

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“…Furthermore, the FSO guarantees increasing the capacity by using mode division multiplexing (MDM) technology. MDM is a promising technology [9][10][11] used to transmit the optical signal or light beams in form of modes such as Laguerre-Gaussian mode [12,13], Hermite-Gaussian (HG) mode [14,15], helical-phase mode [16,1718], spot mode, and donut mode [14,16,19] through the transmission channel that leads to expand the capacity . This technology has been used over optical fibre and FSO, where it successfully achieved increasing the data capacity.…”

Section: Introductionmentioning

confidence: 99%

Mitigation of Atmospheric Turbulences Using Mode Division Multiplexing based on Decision Feedback Equalizer for Free Space Optics

Almogahed

Amphawan

Fazea

2020

Journal of Optical Communications

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In mode division multiplexing (MDM) free space optical (FSO) communication system, the atmospheric turbulences such as fog, rain, and haze cause adverse effects on system performance. This paper investigates the mitigation of atmospheric turbulences of FSO using MDM and decision feedback equalizer (DFE) with minimum mean square error (MMSE) algorithm. The implementation of the MMSE algorithm is used to optimize both the feedforward and the feedback filter coefficients of DFE. The proposed system comprises three parallel 2.5Gbit/s channels using Hermite–Gaussian modes. A data rate of 7.5Gbit/s over 40 m, 800 m, 1400 m, and 2km under medium fog, rain, haze, and clear weather, respectively, has been achieved. In addition, it is noticed that the link distance is reduced while increasing the attenuation. The simulation results revealed that a DFE improves the performance MDM FSO system while maintaining high throughput and desired low bit error rate.

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Multidiameter optical ring and Hermite–Gaussian vortices for wavelength division multiplexing–mode division multiplexing

Cited by 18 publications

References 28 publications

Spatial-Light-Modulator-Based Multichannel Data Transmission by Vortex Beams of Various Orders

Spatial-Light-Modulator-Based Multichannel Data Transmission by Vortex Beams of Various Orders

Detection of double orbital angular momentum modes in monochromic dynamic bi-orbital angular momentum multiplexing by ptychography

Mitigation of Atmospheric Turbulences Using Mode Division Multiplexing based on Decision Feedback Equalizer for Free Space Optics

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