Rosibel Carrada scite author profile

We discuss a class of phase computer-generated holograms for the encoding of arbitrary scalar complex fields. We describe two holograms of this class that allow high quality reconstruction of the encoded field, even if they are implemented with a low-resolution pixelated phase modulator. In addition, we show that one of these holograms can be appropriately implemented with a phase modulator limited by a reduced phase depth.

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Periodic and quasi-periodic non-diffracting wave fields generated by superposition of multiple Bessel beams

Arrizón

Chávez-Cerda

Ruiz

et al. 2007

Opt. Express

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We discuss a computer generated hologram whose transmittance is defined in terms of the Jacobi-Anger identity. If the hologram is implemented with a continuous phase spatial light modulator it generates integer-order non-diffracting Bessel beams, with a common asymptotic radial frequency, at separated propagation axes. On the other hand, when the hologram is implemented with a low-resolution pixelated phase modulator, it is possible to generate multiple Bessel beams with a common propagation axis. We employ this superposition of multiple Bessel beams to generate non-diffracting periodic and quasi-periodic wave fields.

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Accurate generation of structure light fields by means of phase synthetic holograms

Carrada

Arrizón

2011

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Accurate Encoding Of Complex Optical Fields With Pixelated Phase-Only Spatial Light Modulators

Arrizón¹,

Ruiz²,

Carrada³

et al. 2007

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Phase computer generated holograms to encode structured light fields: a numerical and experimental evaluation

Carrada

Arrizón

Ruiz

2010

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Rosibel Carrada

Pixelated phase computer holograms for the accurate encoding of scalar complex fields

Periodic and quasi-periodic non-diffracting wave fields generated by superposition of multiple Bessel beams

Accurate generation of structure light fields by means of phase synthetic holograms

Accurate Encoding Of Complex Optical Fields With Pixelated Phase-Only Spatial Light Modulators

Phase computer generated holograms to encode structured light fields: a numerical and experimental evaluation

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