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T0184-P

SPECTRE 2: Sample Pinning Experiment for Capture Technology in a Reduced-gravity Environment

PI: Laura Jones-Wilson, Joe Parrish (Co-I), NASA/Jet Propulsion Laboratory

The SPECTRE project’s main objective is to mature a space technology known as a flux-pinned interface (FPI) by demonstrating the system-level hardware in a relevant microgravity dynamics environment. FPIs leverage the physics of magnetic flux pinning to enable close-proximity spacecraft to maintain a stable relative equilibrium without mechanical contact or active control. This capability could fill a key technology gap for sample capture, manipulation, and containment assurance for a potential Mars Sample Return (MSR) mission, as well as other elements of TA4: formation flying, docking, grappling, and tunable isolated pointing platforms. Missions such as on-orbit satellite servicing, telescope assembly, and precision pointing may benefit from this work, because maturing the models for an MSR-oriented FPI also improves the system development for these other application areas.

Technology Areas (?)
  • TA04 Robotics, Tele-Robotics and Autonomous Systems
Technology Maturation

In March 2017, the JPL Mars Program Office funded two microgravity flight days for the first SPECTRE flight campaign. This campaign demonstrated the interface dynamics in microgravity with a to-scale interface, and provided significant inputs to the modeling work for a potential future Mars application. After reviewing the data from these flights, some small modifications are being made to improve the hardware (including the addition of a launching mechanism) in preparation for a second microgra

Future Customers

NASA

Technology Details

  • Selection Date
    NASA Internal (Apr 2017)
  • Program Status
    Active
  • Current TRL (?)
    Unknown
    Successful FOP Flights
  • 1 Parabolic

Development Team

Web Accessibility and Privacy Notices Curator: Alexander van Dijk Responsible NASA Official: Stephan Ord Last Update: November 16, 2018