Enhancing the Information Capacity With Modulated Orbital Angular Momentum Holography

Wang, Feili; Zhang, Xiangchao; He, Yuan; Xiong, Rui; Jiang, Xiangqian

doi:10.1109/jphot.2022.3146189

Cited by 8 publications

(6 citation statements)

References 27 publications

(25 reference statements)

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“…Various forms of OAM holography have emerged, such as polarization-encrypted OAM holography, ellipticity-encrypted OAM holography, ultradense perfect OAM multiplexed holography, partial OAM holography, modulated OAM holography, multiple-image and multiple-dimensional encrypted OAM multiplexed holography, and holographic strategy for OAM that incorporates complex features by employing deep-learning algorithms. [19][20][21][22][23][24][25][26][27] Despite these advancements, the capacity for encoded information in OAM multiplexed holography remains limited. Moreover, conventional OAM multiplexed holography lacks an additional degree of freedom to enhance both information security and capacity.…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Multidimensional multiplexing holography based on optical orbital angular momentum lattice multiplexing

Xia,

Xie,

Yuan

2024

Adv. Photon. Nexus

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.The use of orbital angular momentum (OAM) as an independent dimension for information encryption has garnered considerable attention. However, the multiplexing capacity of OAM is limited, and there is a need for additional dimensions to enhance storage capabilities. We propose and implement orbital angular momentum lattice (OAML) multiplexed holography. The vortex lattice (VL) beam comprises three adjustable parameters: the rotation angle of the VL, the angle between the wave normal and the z axis, which determines the VL’s dimensions, and the topological charge. Both the rotation angle and the VL’s dimensions serve as supplementary encrypted dimensions, contributing azimuthally and radially, respectively. We investigate the mode selectivity of OAML and focus on the aforementioned parameters. Through experimental validation, we demonstrate the practical feasibility of OAML multiplexed holography across multiple dimensions. This groundbreaking development reveals new possibilities for the advancement of practical information encryption systems.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Multidimensional multiplexing holography based on optical orbital angular momentum lattice multiplexing

Xia,

Xie,

Yuan

2024

Adv. Photon. Nexus

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“…Partial OAM holography was proposed in the angular space by dividing an integer OAM mode into several partial phase modes, which can enhance information capacity 20 . The modulated OAM holography was investigated based on the cosine-modulated OAM beams 21 . The multiple-image and multiple-dimensional encrypted OAM multiplexed holography based on the OAM beam with phase jump factor and the modulated chiro-optical beams were implemented 22 , 23 .…”

Section: Introductionmentioning

confidence: 99%

Multiparameter encrypted orbital angular momentum multiplexed holography based on multiramp helicoconical beams

et al. 2023

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Optical orbital angular momentum (OAM) multiplexed holography has been implemented as an effective method for information encryption and storage. Multiramp helicoconical-OAM multiplexed holography is proposed and experimentally implemented. The mode selectivity of the multiramp mixed screw-edge dislocations, constant parameter K , and normalized factor are investigated, respectively, which demonstrates that those parameters can be used as additional coding degrees of freedom for holographic multiplexing. The combination of the topological charge and the other three parameters can provide a four-dimensional multiplexed holography and can enhance information capacity.

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“…[ 39 ] The concept of modulated OAM holography utilizing cosine‐modulated OAM beams is also explored. [ 40 ] Additionally, multiple‐image and multiple‐dimensional encrypted OAM multiplexed holography are implemented based on OAM beams with phase jump factors and modulated chiro‐optical beams. [ 41,42 ] Researchers have also proposed a holographic strategy for OAM that incorporates complex features by utilizing OAM‐encrypted holograms in conjunction with deep learning algorithms.…”

Section: Introductionmentioning

confidence: 99%

Ellipse‐Like Orbital Angular Momentum Multiplexed Holography and Efficient Decryption Utilizing a Composite Ellipse‐Like Lens

Xia,

Xie,

Yuan

2023

Laser & Photonics Reviews

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The utilization of orbital angular momentum (OAM) as an independent degree of freedom for information encryption has gained significant attention. Nevertheless, the multiplexing capacity of OAM is still constrained, and there is a lack of research on accelerated decryption techniques in OAM multiplexed holography. In this study, ellipse‐like orbital angular momentum (EL‐OAM) multiplexed holography is proposed and implemented. The ellipse‐like (EL) beam incorporates three modulatable parameters: topological charge, power index, and radial shift. To achieve efficient decryption, a composite ellipse‐like lens (CELL) is introduced that generates two EL beams carrying different OAMs at distinct axial positions, resulting in two reconstruction holographic images with approximately equal intensity. The mode selectivity of EL‐OAM based on the aforementioned parameters is investigated. Experimental verification demonstrates the feasibility of EL‐OAM multiplexed holography and its potential for fast decryption in various dimensions. This breakthrough opens up new possibilities for practical information encryption and decryption systems.

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Enhancing the Information Capacity With Modulated Orbital Angular Momentum Holography

Cited by 8 publications

References 27 publications

Multidimensional multiplexing holography based on optical orbital angular momentum lattice multiplexing

Multidimensional multiplexing holography based on optical orbital angular momentum lattice multiplexing

Multiparameter encrypted orbital angular momentum multiplexed holography based on multiramp helicoconical beams

Ellipse‐Like Orbital Angular Momentum Multiplexed Holography and Efficient Decryption Utilizing a Composite Ellipse‐Like Lens

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