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In-Situ Spectroscopic Europa Explorer (ISEE)

Award Information
Agency: National Aeronautics and Space Administration
Branch: N/A
Contract: NNX16CA55P
Agency Tracking Number: 150321
Amount: $120,062.00
Phase: Phase I
Program: STTR
Solicitation Topic Code: T8.03
Solicitation Number: N/A
Timeline
Solicitation Year: 2016
Award Year: 2016
Award Start Date (Proposal Award Date): 2016-06-10
Award End Date (Contract End Date): 2017-06-09
Small Business Information
Building 3, Suite 1005 63 Flushing Avenue Unit 150
Brooklyn, NY 11205-1070
United States
DUNS: 000000000
HUBZone Owned: No
Woman Owned: No
Socially and Economically Disadvantaged: No
Principal Investigator
 Pablo Sobron
 Senior Research Scientist
 (314) 695-6993
 psobron@seti.org
Business Contact
 Kris Zacny
Title: Business Official
Phone: (510) 207-4555
Email: zacny@honeybeerobotics.com
Research Institution
 SETI Institute Carl Sagan Center
 Kris Zacny
 
189 Bernardo Ave
Montain View, CA 94043-5203
United States

 (510) 207-4555
 Nonprofit college or university
Abstract

The US congress has instructed NASA to include a lander component in the next Europa mission. The mission has a target launch date of 2022, and its primary goal will be to search Europa?s icy surface for evidence of life that may persist within the ice shell or subsurface ocean. The Europa lander study specifically recommends a combination of a mass spectrometer and a Raman spectrometer to investigate Europa's habitability. Current flight prototypes, by design, existing planetary Raman instruments cannot detect organic compounds on Europa down to the required 1 ppb.

We propose to build and critically test the in-situ Spectroscopic Europa Explorer (iSEE), a next-generation prototype of a compact, arm-mounted Raman Spectrometer. iSEE utilizes an innovative combination of light source, adaptive spatial coding optics, and detector. It integrates a high-performance signal processor and data processing algorithms that enable unprecedented measurements: in-situ chemical identification and quantitation of complex organic compounds, including pre-biotic compounds; biomolecules; minerals; and volatiles. iSEE also provides sample context, including ice composition, crystallinity, and ice phase distribution. Our project is responsive to 'T8.03 Detection technologies for extant or extinct life for use on robotic missions.'

Our Phase I R&D will develop and integrate key subsystems of iSEE and evaluate its performance using standards and natural samples, particularly with respect to the detection of organic compounds and biomarkers. We will demonstrate the feasibility of iSEE to perform quantitative analysis of organic content, minerals, and volatiles at or < 1 ppb in solid matrices. The technical objectives of Phase I are: 1) Validate iSEE's optical path; 2) Build an iSEE breadboard system; 3) Determine performance parameters; 4) Demonstrate the capability to detect organic compounds and biomarkers in biologically lean natural samples.

* Information listed above is at the time of submission. *

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