Complex method for angular-spectral analysis of volume phase diffraction gratings recorded in photopolymers

Vojtíšek, Petr; Květoň, Milan; Richter, Ivan

doi:10.2971/jeos.2016.16009

Cited by 14 publications

(11 citation statements)

References 32 publications

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“…Two important facts that can be observed from Bragg’ detuning are the small deviation from the Bragg’s ideal condition and the attenuation of the grating, refractive index modulation, with depth [ 22 ]. The fact that the predicted Bragg angle coincides with the measured one means also that there is no shrinkage or swelling in this case [ 23 , 24 ].…”

Section: Resultsmentioning

confidence: 84%

Tunable Waveguides Couplers Based on HPDLC for See-Through Applications

et al. 2021

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Photopolymers have become an important recording material for many applications, mainly related to holography. Their flexibility to change the chemical composition together with the optical properties made them a versatile holographic recording material. The introduction of liquid crystal molecules in a photopolymer based on multifunctional monomer provides us the possibility to generate tunable holograms. The switchable holographic elements are a key point for see-through applications. In this work, we optimize the holographic polymer-dispersed liquid crystals composition to improve the performance of tunable waveguide couplers based on transmission gratings and specifically their response under an applied electric field. A variation around 60% in the transmission efficiency was achieved.

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Section: Resultsmentioning

confidence: 84%

Tunable Waveguides Couplers Based on HPDLC for See-Through Applications

et al. 2021

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“…Once we have recorded the grating, we measure the Bragg's angles of the orders ± 1, to obtain the value of K and to check possible variations of Kx component. In order to measure possible deviations from the sinusoidal profile of the gratings, we measured the second and third diffracted orders at second and third Bragg's angles respectively [19,25], this will be analyzed in the next section 4.4. We control the initial Bragg's angles in air for the diffracted orders ± 1, and we measured the new ones with an error of ± 0.002°, this accuracy give us an error of 0.09% in the determination of the shrinkage.…”

Section: Shrinkage In Pva/aa Materialsmentioning

confidence: 99%

“…Nevertheless, nowadays choosing a method to measure the amount of the shrinkage in holographic recording materials can still be considered a hot topic. This year it has been published an interesting work that report a complete analysis of the problem combining the Bragg's angle detuning and Bragg's wavelength detuning, using the Kogelnik's wave coupled theory, KCW, and the rigorous analysis, RCW, proposed by Moharam et al [19]. Nowadays new alternative techniques have been proposed in order to measure the shrinkage in photopolymers [20][21][22][23] and the influence of different parameters on the changes observed in the spatial period [24].…”

Section: Introductionmentioning

confidence: 99%

“…As we commented before, one of the most studied photopolymers is the one based on polyvinyl alcohol acrylamide (PVA/AA) [19][20][21]24]. Along this work, we have analysed three different types of photopolymers, firstly PVA/AA and secondly one of the greenest photopolymers whose patent belongs to the Alicante University called Biophotopol [26] and on the last place a holographic-dispersed liquid crystal photopolymer (H-PDLC) [27].…”

Section: Introductionmentioning

confidence: 99%

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Dimensional changes in slanted diffraction gratings recorded in photopolymers

Fernández¹,

Gallego²,

Navarro-Fuster³

et al. 2016

Opt. Mater. Express

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Photopolymers are appealing materials for many optical applications. For most of them, shrinkage plays an important role in the final properties of the display, especially in holographic data storage applications. In this paper, we demonstrate that to quantify correctly the shrinkage, it is mandatory to measure the angle of propagation for both diffracted orders ± 1, so that an accurate value of the grating vector can be calculated. Experimental evidence from three different photopolymers supports this affirmation. Firstly, polyvinyl alcohol acrylamide based photopolymer, which has been studied by many research groups; secondly, one environmentally compatible photopolymer developed by our group; and thirdly, a photopolymer with dispersed liquid crystal molecules. We studied the deviation from the sinusoidal profile analyzing the higher diffracted orders.

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“…Different techniques have been proposed in order to quantify the shrinkage in photopolymers [35,[46][47][48][49]. The maximum shrinkage has placed when there is no diffusion [46].…”

Section: Current and Future Challengesmentioning

confidence: 99%