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Academic literature on the topic 'Optical wavefronts'

Author: Grafiati
Published: 4 June 2021
Last updated: 8 February 2022

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Journal articles on the topic "Optical wavefronts"

1

Malek, Stephanie C., Adam C. Overvig, Sajan Shrestha, and Nanfang Yu. "Active nonlocal metasurfaces." Nanophotonics 10, no. 1 (2020): 655–65. http://dx.doi.org/10.1515/nanoph-2020-0375.

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AbstractActively tunable and reconfigurable wavefront shaping by optical metasurfaces poses a significant technical challenge often requiring unconventional materials engineering and nanofabrication. Most wavefront-shaping metasurfaces can be considered “local” in that their operation depends on the responses of individual meta-units. In contrast, “nonlocal” metasurfaces function based on the modes supported by many adjacent meta-units, resulting in sharp spectral features but typically no spatial control of the outgoing wavefront. Recently, nonlocal metasurfaces based on quasi-bound states in the continuum have been shown to produce designer wavefronts only across the narrow bandwidth of the supported Fano resonance. Here, we leverage the enhanced light-matter interactions associated with sharp Fano resonances to explore the active modulation of optical spectra and wavefronts by refractive-index tuning and mechanical stretching. We experimentally demonstrate proof-of-principle thermo-optically tuned nonlocal metasurfaces made of silicon and numerically demonstrate nonlocal metasurfaces that thermo-optically switch between distinct wavefront shapes. This meta-optics platform for thermally reconfigurable wavefront shaping requires neither unusual materials and fabrication nor active control of individual meta-units.
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2

Khonina, Svetlana N., Sergey V. Karpeev, and Alexey P. Porfirev. "Wavefront Aberration Sensor Based on a Multichannel Diffractive Optical Element." Sensors 20, no. 14 (2020): 3850. http://dx.doi.org/10.3390/s20143850.

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We propose a new type of a wavefront aberration sensor, that is, a Zernike matched multichannel diffractive optical filter, which performs consistent filtering of phase distributions corresponding to Zernike polynomials. The sensitivity of the new sensor is theoretically estimated. Based on the theory, we develop recommendations for its application. Test wavefronts formed using a spatial light modulator are experimentally investigated. The applicability of the new sensor for the fine-tuning of a laser collimator is assessed.
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3

Trolinger, James D., Amit Lal, Joshua Jo, and Stephen Kupiec. "Programmable Holographic Optical Elements as Adaptive Optics in Optical Diagnostics Devices." Key Engineering Materials 437 (May 2010): 108–12. http://dx.doi.org/10.4028/www.scientific.net/kem.437.108.

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This paper reports a combined, Hartmann/Digital Holographic interferometry inspection system for inspecting optical components that do not easily lend themselves to conventional interferometric or Hartmann inspection. A programmable holographic optical element (HOE) preconditions wavefronts to extend the dynamic range of interferometry measurements and also transforms the same system into a scanning Hartmann operation, which has lower resolution but higher dynamic range. Inspecting aspherical surfaces with existing interferometers requires special, computer generated holographic optical elements to transform the wavefront to within the dynamic range of the interferometer. The Hartmann measurement provides the information required to precondition a reference wave that avails the measurement process to the more precise phase shifting interferometry. The SLM offers yet other benefits including a method for minimizing the effects of speckle on the measurement. The paper provides example measurements, discusses the limitations, and suggests other potential applications.
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4

Singh, Brijesh Kumar, G. Singh, P. Senthilkumaran, and D. S. Mehta. "Generation of Optical Vortex Arrays Using Single-Element Reversed-Wavefront Folding Interferometer." International Journal of Optics 2012 (2012): 1–7. http://dx.doi.org/10.1155/2012/689612.

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Optical vortex arrays have been generated using simple, novel, and stable reversed-wavefront folding interferometer. Two new interferometric configurations were used for generating a variety of optical vortex lattices. In the first interferometric configuration one cube beam splitter (CBS) was used in one arm of Mach-Zehnder interferometer for splitting and combining the collimated beam, and one mirror of another arm is replaced by second CBS. At the output of interferometer, three-beam interference gives rise to optical vortex arrays. In second interferometric configuration, a divergent wavefront was made incident on a single CBS which splits and combines wavefronts leading to the generation of vortex arrays due to four-beam interference. It was found that the orientation and structure of the optical vortices can be stably controlled by means of changing the rotation angle of CBS.
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5

Li, Shiqing, Zhuo Wang, Shaohua Dong, et al. "Helicity-delinked manipulations on surface waves and propagating waves by metasurfaces." Nanophotonics 9, no. 10 (2020): 3473–81. http://dx.doi.org/10.1515/nanoph-2020-0200.

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AbstractAlthough many approaches have been proposed to manipulate propagating waves (PWs) and surface waves (SWs), usually each operation needs a separate meta-device, being unfavorable for optical integrations. Here, we propose a scheme to design a single meta-device that can efficiently generate SWs and/or PWs with pre-designed wavefronts, under the excitations of circularly polarized (CP) PWs with different helicity. As a proof of concept, we design and fabricate a microwave meta-device and experimentally demonstrate that it can convert incident CP waves of opposite helicity to SWs possessing different wavefronts and traveling to opposite directions, both exhibiting very high efficiencies. We further generalize our scheme to design a meta-device and numerically demonstrate that it can either excite a SW beam with tailored wavefront or generate a far-field PW with pre-designed wavefront, as shined by CP waves with different helicity. Our work opens the door to achieving simultaneous controls on far- and near-field electromagnetic environments based on a single ultra-compact platform.
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6

Balakshy, Vladimir I. "Acousto-optic visualization of optical wavefronts [Invited]." Applied Optics 57, no. 10 (2018): C56. http://dx.doi.org/10.1364/ao.57.000c56.

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7

Ding, Guowen, Ke Chen, Xinyao Luo, et al. "Direct routing of intensity-editable multi-beams by dual geometric phase interference in metasurface." Nanophotonics 9, no. 9 (2020): 2977–87. http://dx.doi.org/10.1515/nanoph-2020-0203.

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AbstractControlling spin electromagnetic waves by ultra-thin Pancharatnam-Berry (PB) metasurfaces show promising prospects in the optical and wireless communications. One of the major challenge is to precisely control over the complex wavefronts and spatial power intensity characteristics without relying on massive algorithm optimizations, which requires independent amplitude and phase tuning. However, traditional PB phase can only provide phase control. Here, by introducing the interference of dual geometric phases, we propose a metasurface that can provide arbitrary amplitude and phase manipulations on meta-atom level for spin waves, achieving direct routing of multi-beams with desired intensity distribution. As the experimental demonstration, we design two microwave metasurfaces for respectively controlling the far-field and near-field multi-beam generations with desired spatial scatterings and power allocations, achieving full control of both sophisticated wavefronts and their energy distribution. This approach to directly generate editable spatial beam intensity with tailored wavefront may pave a way to design advanced meta-devices that can be potentially used in many real-world applications, such as multifunctional, multiple-input multiple-output and high-quality imaging devices.
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8

Tesch, Jonathan, and Steve Gibson. "Optimal and adaptive control of aero-optical wavefronts for adaptive optics." Journal of the Optical Society of America A 29, no. 8 (2012): 1625. http://dx.doi.org/10.1364/josaa.29.001625.

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9

Jefferys, W. H., G. F. Benedict, R. L. Duncombe, et al. "Current Status of the Astrometric Capabilities of the Hubble Space Telescope Fine Guidance Sensors." International Astronomical Union Colloquium 127 (1991): 68–76. http://dx.doi.org/10.1017/s0252921100063582.

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AbstractThe Fine Guidance Sensors (FGSs) are the instrument of choice for most astrometric measurements with the Hubble Space Telescope (HST). The observed amount of spherical aberration in the Ritchey Chretien optical system does not affect positional measurements with perfectly aligned FGSs because they are interferometers. The FGSs combine wavefronts from points in the exit pupil with other points which are at the same radial distance from the optical axis. Asymmetric aberrations such as coma and astigmatism do affect the measured positions. The current knowledge of the HST wavefront error, the FGS operation and the implications for milliarcsecond relative astrometry are discussed. It is still planned to use the HST to tie the HIPPARCOS and VLBI Reference Frames together at the few milliarcsecond level.
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10

Yang, Jinsheng, Ling Wei, Hongli Chen, Xuejun Rao, and Changhui Rao. "Absolute calibration of Hartmann-Shack wavefront sensor by spherical wavefronts." Optics Communications 283, no. 6 (2010): 910–16. http://dx.doi.org/10.1016/j.optcom.2009.11.022.

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