Chaoray Hsieh scite author profile

Chaoray Hsieh

5Publications

70Citation Statements Received

59Citation Statements Given

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Affiliations

Georgia Institute of Technology, National Yang Ming Chiao Tung University, GTx (United States)

Publications

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Spherical beam volume holograms for spectroscopic applications: modeling and implementation

et al. 2004

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The spherical beam volume hologram, recorded by a plane wave and a spherical beam, is investigated for spectroscopic applications in detail. It is shown that both the diffracted and the transmitted beam can be used for spectroscopy when the hologram is read with a collimated beam. A new method is introduced and used for analysis of the spherical beam volume hologram that can be extended for analysis of arbitrary holograms. Experimental results are consistent with the theoretical study. It is shown that the spherical beam volume hologram can be used in a compact spectroscopic configuration when the transmitted beam is monitored. Also, on the basis of the properties of the spherical beam hologram, the response of a hologram recorded by a plane wave and an arbitrary pattern is predicted. The information can be used to optimize holographic spectrometer design.

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Compact Fourier-transform volume holographic spectrometer for diffuse source spectroscopy

et al. 2005

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We present a new idea for diffuse source spectroscopy using a Fourier-transform volume holographic spectrometer formed by a Fourier-transform lens, a volume hologram, and a CCD. We show that this spectrometer can operate well under spatially incoherent light illumination. Furthermore, this spectrometer is less bulky, less sensitive to input alignment, and potentially more appropriate for implementation of highly sensitive spectrometers than conventional spectrometers.

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Qualitative demonstration of spectral diversity filtering using spherical beam volume holograms

Karbaschi¹,

Hsieh²,

Momtahan³

et al. 2004

Opt. Express

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We investigate the feasibility of designing spectral diversity filters using spherical beam volume holograms. Our experimental results qualitatively show the separation of the information of different incident wavelength channels using spherical beam volume holograms. The major trade-off in using these holograms is between the degree of spatial spectral diversity and the number of allowed spatial modes (or the divergence angle) of the incident beam.

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Dispersion multiplexing with broadband filtering for miniature spectrometers

et al. 2007

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We replace the traditional grating used in a dispersive spectrometer with a multiplex holographic grating to increase the spectral range sensed by the instrument. The multiplexed grating allows us to measure three different, overlapping spectral bands on a color digital focal plane. The detector's broadband color filters, along with a computational inversion algorithm, let us disambiguate measurements made from the three bands. The overlapping spectral bands allow us to measure a greater spectral bandwidth than a traditional spectrometer with the same sized detector. Additionally, our spectrometer uses a static coded aperture mask in the place of a slit. The aperture mask allows increased light throughput, offsetting the photon loss at the broadband filters. We present our proof-of-concept dispersion multiplexing spectrometer design with experimental measurements to verify its operation.

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Role of recording geometry in the performance of spectral diversity filters with spherical beam volume holograms

et al. 2005

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We present experimental demonstrations of spectral diversity filters with spherical beam volume holograms for multimodal multiplex spectroscopy. Major properties of filters under diffuse-light illumination are discussed. The comparisons of spectral diversity between the transmission geometry holograms and the reflection geometry holograms are also studied. The results show that there is a trade-off between the degree of the spatial coherence of the source and the spectral diversity of the filter. We also conclude that the reflection geometry holograms have better spectral diversity and less sensitivity to the spatial coherence of the source.

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Chaoray Hsieh

Spherical beam volume holograms for spectroscopic applications: modeling and implementation

Compact Fourier-transform volume holographic spectrometer for diffuse source spectroscopy

Qualitative demonstration of spectral diversity filtering using spherical beam volume holograms

Dispersion multiplexing with broadband filtering for miniature spectrometers

Role of recording geometry in the performance of spectral diversity filters with spherical beam volume holograms

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