Polychromatic effects on incoherent imaging through anisoplanatic turbulence

Ryan J. Hall; Mark F. Spencer

doi:10.1117/12.2528502

Polychromatic effects on incoherent imaging through anisoplanatic turbulence

Ryan J. Hall
, Mark F. Spencer

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

We present a numerical simulation of incoherent imaging of an extended object through distributed-volume atmospheric turbulence. As such, we can observe and quantify the effects of anisoplanitismin in the image plane of our optical system. Along with simulating the effects of anisoplantism, we aim to quantify the effects of polychromatic blurring in the image plane of our optical system. This outcome allows us to simulate the real-world scenario of a spectral filter with an effective bandpass. Using the spectral-slicing method, we define a square-response filter and discretely sample it at multiple wavelengths to simulate the polycromatic nature of our optical system. In turn, we find that the effects of polychromatic blurring are minimal, given modern-day narrowband filters. Thus, the use of monochromatic light is sufficient in simulating incoherent imaging; however, it is important to note that our results suggest that there may be a minor sampling error that would need to be addressed if the approach used here was to be expanded to an extremely broadband case.

Original language	English (US)
Title of host publication	Unconventional and Indirect Imaging, Image Reconstruction, and Wavefront Sensing 2019
Editors	Jean J. Dolne, Mark F. Spencer, Markus E. Testorf
Publisher	SPIE
ISBN (Electronic)	9781510629639
DOIs	https://doi.org/10.1117/12.2528502
State	Published - 2019
Externally published	Yes
Event	Unconventional and Indirect Imaging, Image Reconstruction, and Wavefront Sensing 2019 - San Diego, United States Duration: Aug 14 2019 → Aug 15 2019

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	11135
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	Unconventional and Indirect Imaging, Image Reconstruction, and Wavefront Sensing 2019
Country/Territory	United States
City	San Diego
Period	8/14/19 → 8/15/19

Keywords

Anisoplanatism
Atmospheric propagation
Atmospheric turbulence
Deep turbulence
Distribute-volumed turbulence
Polychromatic

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Computer Science Applications
Applied Mathematics
Electrical and Electronic Engineering

Access to Document

10.1117/12.2528502

Cite this

Hall, R. J., & Spencer, M. F. (2019). Polychromatic effects on incoherent imaging through anisoplanatic turbulence. In J. J. Dolne, M. F. Spencer, & M. E. Testorf (Eds.), Unconventional and Indirect Imaging, Image Reconstruction, and Wavefront Sensing 2019 Article 1113506 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 11135). SPIE. https://doi.org/10.1117/12.2528502

Polychromatic effects on incoherent imaging through anisoplanatic turbulence. / Hall, Ryan J.; Spencer, Mark F.
Unconventional and Indirect Imaging, Image Reconstruction, and Wavefront Sensing 2019. ed. / Jean J. Dolne; Mark F. Spencer; Markus E. Testorf. SPIE, 2019. 1113506 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 11135).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Hall, RJ & Spencer, MF 2019, Polychromatic effects on incoherent imaging through anisoplanatic turbulence. in JJ Dolne, MF Spencer & ME Testorf (eds), Unconventional and Indirect Imaging, Image Reconstruction, and Wavefront Sensing 2019., 1113506, Proceedings of SPIE - The International Society for Optical Engineering, vol. 11135, SPIE, Unconventional and Indirect Imaging, Image Reconstruction, and Wavefront Sensing 2019, San Diego, United States, 8/14/19. https://doi.org/10.1117/12.2528502

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title = "Polychromatic effects on incoherent imaging through anisoplanatic turbulence",

abstract = "We present a numerical simulation of incoherent imaging of an extended object through distributed-volume atmospheric turbulence. As such, we can observe and quantify the effects of anisoplanitismin in the image plane of our optical system. Along with simulating the effects of anisoplantism, we aim to quantify the effects of polychromatic blurring in the image plane of our optical system. This outcome allows us to simulate the real-world scenario of a spectral filter with an effective bandpass. Using the spectral-slicing method, we define a square-response filter and discretely sample it at multiple wavelengths to simulate the polycromatic nature of our optical system. In turn, we find that the effects of polychromatic blurring are minimal, given modern-day narrowband filters. Thus, the use of monochromatic light is sufficient in simulating incoherent imaging; however, it is important to note that our results suggest that there may be a minor sampling error that would need to be addressed if the approach used here was to be expanded to an extremely broadband case.",

keywords = "Anisoplanatism, Atmospheric propagation, Atmospheric turbulence, Deep turbulence, Distribute-volumed turbulence, Polychromatic",

author = "Hall, \{Ryan J.\} and Spencer, \{Mark F.\}",

note = "Publisher Copyright: {\textcopyright} 2019 SPIE.; Unconventional and Indirect Imaging, Image Reconstruction, and Wavefront Sensing 2019 ; Conference date: 14-08-2019 Through 15-08-2019",

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AU - Spencer, Mark F.

PY - 2019

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N2 - We present a numerical simulation of incoherent imaging of an extended object through distributed-volume atmospheric turbulence. As such, we can observe and quantify the effects of anisoplanitismin in the image plane of our optical system. Along with simulating the effects of anisoplantism, we aim to quantify the effects of polychromatic blurring in the image plane of our optical system. This outcome allows us to simulate the real-world scenario of a spectral filter with an effective bandpass. Using the spectral-slicing method, we define a square-response filter and discretely sample it at multiple wavelengths to simulate the polycromatic nature of our optical system. In turn, we find that the effects of polychromatic blurring are minimal, given modern-day narrowband filters. Thus, the use of monochromatic light is sufficient in simulating incoherent imaging; however, it is important to note that our results suggest that there may be a minor sampling error that would need to be addressed if the approach used here was to be expanded to an extremely broadband case.

AB - We present a numerical simulation of incoherent imaging of an extended object through distributed-volume atmospheric turbulence. As such, we can observe and quantify the effects of anisoplanitismin in the image plane of our optical system. Along with simulating the effects of anisoplantism, we aim to quantify the effects of polychromatic blurring in the image plane of our optical system. This outcome allows us to simulate the real-world scenario of a spectral filter with an effective bandpass. Using the spectral-slicing method, we define a square-response filter and discretely sample it at multiple wavelengths to simulate the polycromatic nature of our optical system. In turn, we find that the effects of polychromatic blurring are minimal, given modern-day narrowband filters. Thus, the use of monochromatic light is sufficient in simulating incoherent imaging; however, it is important to note that our results suggest that there may be a minor sampling error that would need to be addressed if the approach used here was to be expanded to an extremely broadband case.

KW - Anisoplanatism

KW - Atmospheric propagation

KW - Atmospheric turbulence

KW - Deep turbulence

KW - Distribute-volumed turbulence

KW - Polychromatic

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ER -

Polychromatic effects on incoherent imaging through anisoplanatic turbulence

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