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Ion Beam Shepherd

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Title: Ion Beam Shepherd  
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Ion Beam Shepherd

Ion-beam shepherd (IBS) deorbiting a space debris

An Ion-beam shepherd (IBS) is a concept in which the orbit and/or attitude of a spacecraft or a generic orbiting body is modified by having a beam of quasi-neutral plasma impinging against its surface to create a force and/or a torque on the target. Ion and plasma thrusters commonly used to propel spacecraft can be employed to produce a collimated plasma/ion beam and point it towards the body. The fact that the beam can be generated on a "shepherd" spacecraft placed in proximity of the target without physical attachment with the latter provides an interesting solution for space applications such as space debris removal, asteroid deflection and space transportation in general. The Technical University of Madrid (UPM) is exploring this concept[1] by developing analytical and numerical control models in collaboration with the Advanced Concepts Team of the European Space Agency. The concept has also been proposed independently by JAXA and CNES.


  • How it works 1
  • Applications 2
  • Control 3
  • References 4
  • External links 5

How it works

The force and torque transmitted to the target originate from the momentum carried out by the plasma ions (typically xenon) which are accelerated to a few tens of kilometer per second by an ion or plasma thruster. The ions that reach the target surface lose their energy following nuclear collision in the substrate of the target material. In order to keep a constant distance between the target and the shepherd spacecraft the latter must carry a secondary propulsion system (e.g. another ion or plasma thruster) compensating for the reaction force created by the targeted ion beam.


The concept has been suggested as a possible solution for active space debris removal,[2][3][4] as well as for accurate deflection of earth threatening asteroids.[5] Further in the future the concept could play an important role in areas such as space mobility, transportation, assembly of large orbital infrastructures and small asteroid capturing in Earth orbit.


Beam divergence angles of ion and plasma thrusters, typically greater than 10 degrees make it necessary to have the shepherd flying not more than a few target diameters away if efficient beam overlap is to be reached. Proximity formation flying guidance and control as well as collision avoidance are among the most critical technological challenges of the concept.


  1. ^ C. Bombardelli and J. Peláez, «Sistema de modificación de la posición y actitud de cuerpos en órbita por medio de satélites guía», Patent number P201030354. Presented at the Spanish Patent Office on March 11, 2010. PCT Patent Application PCT/ES2011/000011
  2. ^ C. Bombardelli and J. Peláez, «Ion Beam Shepherd for Contactless Space Debris Removal », Journal of Guidance, Control, and Dynamics, Vol. 34, No. 3, May–June 2011, pp 916–920.
  3. ^ S. Kitamura «Large Space Debris Reorbiter using Ion Beam Irradiation », 61 st International Astronautical Congress, Prague, Czech Republic, Paper IAC-10.A6.4.8, September 2010).
  4. ^ C. Bonnal, J.M. Ruault, P. Bultel, and M.C. Desjean, «High Level Requirements for an Operational Space Debris Deorbiter», 61 st International Astronautical Congress, Prague, Czech Republic, Paper IAC-10.A6.4.5, September 2010).
  5. ^ C. Bombardelli and J. Peláez, «Ion Beam Shepherd for Asteroid Deflection », Journal of Guidance, Control, and Dynamics, Vol. 34, No. 4, July–August 2011, pp. 1270–1272,

External links

  • Universidad Politécnica de Madrid (UPM)
  • Space Dynamics Group at UPM
  • Equipo de Propulsión Espacial y Plasmas (UPM)
  • ESA Advanced Concepts Team
  • LEOSWEEP project

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