A snapshot full-Stokes spectropolarimeter for detecting life on Earth

Frans Snik; Christoph Keller; David S. Doelman; Jonas Kuhn; C. H. Lucas Patty; H. Jens Hoeijmakers; Vidhya Pallichadath; Daphne Stam; Antoine Pommerol; null More Authors

doi:10.1117/12.2529548

A snapshot full-Stokes spectropolarimeter for detecting life on Earth

Frans Snik, Christoph Keller, David S. Doelman, Jonas Kuhn, C. H. Lucas Patty, H. Jens Hoeijmakers, Vidhya Pallichadath, Daphne Stam, Antoine Pommerol, More Authors

Astrodynamics & Space Missions

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

9 Citations (Scopus)

Abstract

We present the design of a point-and-shoot non-imaging full-Stokes spectropolarimeter dedicated to detecting life on Earth from an orbiting platform like the ISS. We specifically aim to map circular polarization in the spectral features of chorophyll and other biopigments for our planet as a whole. These non-zero circular polarization signatures are caused by homochirality of the molecular and supramolecular configurations of organic matter, and are considered the most unambiguous biomarker. To achieve a fully solid-state snapshot design, we implement a novel spatial modulation that completely separates the circular and linear polarization channels. The polarization modulator consists of a patterned liquid-crystal quarter-wave plate inside the spectrograph slit, which also constitutes the first optical element of the instrument. This configuration eliminates cross-talk between linear and circular polarization, which is crucial because linear polarization signals are generally much stronger than the circular polarization signals. This leads to a quite unorthodox optical concept for the spectrograph, in which the object and the pupil are switched. We discuss the general design requirements and trade-offs of LSDpol (Life Signature Detection polarimeter), a prototype instrument that is currently under development.

Original language	English
Title of host publication	Polarization Science and Remote Sensing IX
Editors	Julia M. Craven, Joseph A. Shaw, Frans Snik
Publisher	SPIE
Number of pages	11
Volume	11132
Edition	111320A
ISBN (Electronic)	9781510629578
DOIs	https://doi.org/10.1117/12.2529548
Publication status	Published - 2019
Event	SPIE Optical Engineering + Applications - San Diego, United States Duration: 11 Aug 2019 → 15 Aug 2019

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	11132
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	SPIE Optical Engineering + Applications
Country/Territory	United States
City	San Diego
Period	11/08/19 → 15/08/19

Keywords

Biomarkers
Polarimetry
Space Instrumentation

Access to Document

10.1117/12.2529548

Cite this

Snik, F., Keller, C., Doelman, D. S., Kuhn, J., Patty, C. H. L., Hoeijmakers, H. J., Pallichadath, V., Stam, D., Pommerol, A., & More Authors (2019). A snapshot full-Stokes spectropolarimeter for detecting life on Earth. In J. M. Craven, J. A. Shaw, & F. Snik (Eds.), Polarization Science and Remote Sensing IX (111320A ed., Vol. 11132). Article 111320A (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 11132). SPIE. https://doi.org/10.1117/12.2529548

@inproceedings{b7a350f8074b4ea8a3b098a9cc265151,

title = "A snapshot full-Stokes spectropolarimeter for detecting life on Earth",

abstract = "We present the design of a point-and-shoot non-imaging full-Stokes spectropolarimeter dedicated to detecting life on Earth from an orbiting platform like the ISS. We specifically aim to map circular polarization in the spectral features of chorophyll and other biopigments for our planet as a whole. These non-zero circular polarization signatures are caused by homochirality of the molecular and supramolecular configurations of organic matter, and are considered the most unambiguous biomarker. To achieve a fully solid-state snapshot design, we implement a novel spatial modulation that completely separates the circular and linear polarization channels. The polarization modulator consists of a patterned liquid-crystal quarter-wave plate inside the spectrograph slit, which also constitutes the first optical element of the instrument. This configuration eliminates cross-talk between linear and circular polarization, which is crucial because linear polarization signals are generally much stronger than the circular polarization signals. This leads to a quite unorthodox optical concept for the spectrograph, in which the object and the pupil are switched. We discuss the general design requirements and trade-offs of LSDpol (Life Signature Detection polarimeter), a prototype instrument that is currently under development.",

keywords = "Biomarkers, Polarimetry, Space Instrumentation",

author = "Frans Snik and Christoph Keller and Doelman, {David S.} and Jonas Kuhn and Patty, {C. H. Lucas} and Hoeijmakers, {H. Jens} and Vidhya Pallichadath and Daphne Stam and Antoine Pommerol and {More Authors}",

year = "2019",

doi = "10.1117/12.2529548",

language = "English",

volume = "11132",

series = "Proceedings of SPIE - The International Society for Optical Engineering",

publisher = "SPIE",

editor = "Craven, {Julia M.} and Shaw, {Joseph A.} and Frans Snik",

booktitle = "Polarization Science and Remote Sensing IX",

address = "United States",

edition = "111320A",

note = "SPIE Optical Engineering + Applications ; Conference date: 11-08-2019 Through 15-08-2019",

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Snik, F, Keller, C, Doelman, DS, Kuhn, J, Patty, CHL, Hoeijmakers, HJ, Pallichadath, V , Stam, D, Pommerol, A & More Authors 2019, A snapshot full-Stokes spectropolarimeter for detecting life on Earth. in JM Craven, JA Shaw & F Snik (eds), Polarization Science and Remote Sensing IX. 111320A edn, vol. 11132, 111320A, Proceedings of SPIE - The International Society for Optical Engineering, vol. 11132, SPIE, SPIE Optical Engineering + Applications, San Diego, United States, 11/08/19. https://doi.org/10.1117/12.2529548

A snapshot full-Stokes spectropolarimeter for detecting life on Earth. / Snik, Frans; Keller, Christoph; Doelman, David S. et al.
Polarization Science and Remote Sensing IX. ed. / Julia M. Craven; Joseph A. Shaw; Frans Snik. Vol. 11132 111320A. ed. SPIE, 2019. 111320A (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 11132).

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

TY - GEN

T1 - A snapshot full-Stokes spectropolarimeter for detecting life on Earth

AU - Snik, Frans

AU - Keller, Christoph

AU - Doelman, David S.

AU - Kuhn, Jonas

AU - Patty, C. H. Lucas

AU - Hoeijmakers, H. Jens

AU - Pallichadath, Vidhya

AU - Stam, Daphne

AU - Pommerol, Antoine

AU - More Authors, null

PY - 2019

Y1 - 2019

N2 - We present the design of a point-and-shoot non-imaging full-Stokes spectropolarimeter dedicated to detecting life on Earth from an orbiting platform like the ISS. We specifically aim to map circular polarization in the spectral features of chorophyll and other biopigments for our planet as a whole. These non-zero circular polarization signatures are caused by homochirality of the molecular and supramolecular configurations of organic matter, and are considered the most unambiguous biomarker. To achieve a fully solid-state snapshot design, we implement a novel spatial modulation that completely separates the circular and linear polarization channels. The polarization modulator consists of a patterned liquid-crystal quarter-wave plate inside the spectrograph slit, which also constitutes the first optical element of the instrument. This configuration eliminates cross-talk between linear and circular polarization, which is crucial because linear polarization signals are generally much stronger than the circular polarization signals. This leads to a quite unorthodox optical concept for the spectrograph, in which the object and the pupil are switched. We discuss the general design requirements and trade-offs of LSDpol (Life Signature Detection polarimeter), a prototype instrument that is currently under development.

AB - We present the design of a point-and-shoot non-imaging full-Stokes spectropolarimeter dedicated to detecting life on Earth from an orbiting platform like the ISS. We specifically aim to map circular polarization in the spectral features of chorophyll and other biopigments for our planet as a whole. These non-zero circular polarization signatures are caused by homochirality of the molecular and supramolecular configurations of organic matter, and are considered the most unambiguous biomarker. To achieve a fully solid-state snapshot design, we implement a novel spatial modulation that completely separates the circular and linear polarization channels. The polarization modulator consists of a patterned liquid-crystal quarter-wave plate inside the spectrograph slit, which also constitutes the first optical element of the instrument. This configuration eliminates cross-talk between linear and circular polarization, which is crucial because linear polarization signals are generally much stronger than the circular polarization signals. This leads to a quite unorthodox optical concept for the spectrograph, in which the object and the pupil are switched. We discuss the general design requirements and trade-offs of LSDpol (Life Signature Detection polarimeter), a prototype instrument that is currently under development.

KW - Biomarkers

KW - Polarimetry

KW - Space Instrumentation

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U2 - 10.1117/12.2529548

DO - 10.1117/12.2529548

M3 - Conference contribution

VL - 11132

T3 - Proceedings of SPIE - The International Society for Optical Engineering

BT - Polarization Science and Remote Sensing IX

A2 - Craven, Julia M.

A2 - Shaw, Joseph A.

A2 - Snik, Frans

PB - SPIE

T2 - SPIE Optical Engineering + Applications

Y2 - 11 August 2019 through 15 August 2019

ER -

A snapshot full-Stokes spectropolarimeter for detecting life on Earth

Abstract

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Keywords

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