Simultaneous dual-wavelength off-axis flipping digital holography
We develop a two-wavelength off-axis digital holography for quantitative phase imaging using flipping in a single interferogram shot. The interference is performed by flipping the relative position of a sample and reference beam, and the two-wavelength information is spatially multiplexed onto a mon...
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Veröffentlicht in: | Optics letters 2017-11, Vol.42 (21), p.4331-4334 |
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container_title | Optics letters |
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creator | Liu, Lei Shan, Mingguang Zhong, Zhi Liu, Bin Luan, Gunagyu Diao, Ming Zhang, Yabin |
description | We develop a two-wavelength off-axis digital holography for quantitative phase imaging using flipping in a single interferogram shot. The interference is performed by flipping the relative position of a sample and reference beam, and the two-wavelength information is spatially multiplexed onto a monochromatic charge-coupled device camera simultaneously using polarization modulation. Due to the interferogram containing two-wavelength information with orthogonal interference fringes, the two-wavelength unwrapped information on the phase and thickness for the sample is extracted from a single shot. Our setup requires no pinholes, gratings, or dichroic mirrors with straightforward alignment. We demonstrate the operation of the setup with a step target and circular pillar. |
doi_str_mv | 10.1364/OL.42.004331 |
format | Article |
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title | Simultaneous dual-wavelength off-axis flipping digital holography |
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