Creating unconventional geometric beams with large depth of field using double freeform-surface optics

Zexin Feng; Brittany D. Froese; Chih Yu Huang; Donglin Ma; Rongguang Liang

doi:10.1364/AO.54.006277

Creating unconventional geometric beams with large depth of field using double freeform-surface optics

Zexin Feng, Brittany D. Froese, Chih Yu Huang, Donglin Ma, Rongguang Liang^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

31 Citations (Scopus)

Abstract

We consider here creation of an unconventional flattop beam with a large depth of field by employing double freeform optical surfaces. The output beam is designed with continuous variations from the flattop to almost zero near the edges to resist the influence of diffraction on its propagation. We solve this challenging problem by naturally incorporating an optimal transport map computation scheme for unconventional boundary conditions with a simultaneous point-by-point double surface construction procedure. We demonstrate experimentally the generation of a long-range propagated triangular beam through a plano-freeform lens pair fabricated by a diamond-tuning machine.

Original language	English
Pages (from-to)	6277-6281
Number of pages	5
Journal	Applied Optics
Volume	54
Issue number	20
DOIs	https://doi.org/10.1364/AO.54.006277
Publication status	Published - 10 Jul 2015
Externally published	Yes

Keywords

Computation methods
Geometric optical design
Laser beam shaping
Nonimaging optics
Nonspherical lens design

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10.1364/AO.54.006277

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title = "Creating unconventional geometric beams with large depth of field using double freeform-surface optics",

abstract = "We consider here creation of an unconventional flattop beam with a large depth of field by employing double freeform optical surfaces. The output beam is designed with continuous variations from the flattop to almost zero near the edges to resist the influence of diffraction on its propagation. We solve this challenging problem by naturally incorporating an optimal transport map computation scheme for unconventional boundary conditions with a simultaneous point-by-point double surface construction procedure. We demonstrate experimentally the generation of a long-range propagated triangular beam through a plano-freeform lens pair fabricated by a diamond-tuning machine.",

keywords = "Computation methods, Geometric optical design, Laser beam shaping, Nonimaging optics, Nonspherical lens design",

author = "Zexin Feng and Froese, {Brittany D.} and Huang, {Chih Yu} and Donglin Ma and Rongguang Liang",

note = "Publisher Copyright: {\textcopyright} 2015 Optical Society of America.",

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AU - Feng, Zexin

AU - Froese, Brittany D.

AU - Huang, Chih Yu

AU - Ma, Donglin

AU - Liang, Rongguang

PY - 2015/7/10

Y1 - 2015/7/10

N2 - We consider here creation of an unconventional flattop beam with a large depth of field by employing double freeform optical surfaces. The output beam is designed with continuous variations from the flattop to almost zero near the edges to resist the influence of diffraction on its propagation. We solve this challenging problem by naturally incorporating an optimal transport map computation scheme for unconventional boundary conditions with a simultaneous point-by-point double surface construction procedure. We demonstrate experimentally the generation of a long-range propagated triangular beam through a plano-freeform lens pair fabricated by a diamond-tuning machine.

AB - We consider here creation of an unconventional flattop beam with a large depth of field by employing double freeform optical surfaces. The output beam is designed with continuous variations from the flattop to almost zero near the edges to resist the influence of diffraction on its propagation. We solve this challenging problem by naturally incorporating an optimal transport map computation scheme for unconventional boundary conditions with a simultaneous point-by-point double surface construction procedure. We demonstrate experimentally the generation of a long-range propagated triangular beam through a plano-freeform lens pair fabricated by a diamond-tuning machine.

KW - Computation methods

KW - Geometric optical design

KW - Laser beam shaping

KW - Nonimaging optics

KW - Nonspherical lens design

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JO - Applied Optics

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ER -

Creating unconventional geometric beams with large depth of field using double freeform-surface optics

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Keywords

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