Three-dimensional characterization of debris clouds under hypervelocity impact with pulsed digital inline holography

Abstract: The increasing space debris poses a great threat to in-orbit spacecraft and satellites, because its hypervelocity impact can bring about fatal mechanical and electrical damage to them. This work applies pulsed digital inline holography (DIH) to measure three-dimensional (3D) positions and shapes of the debris clouds generated by the hypervelocity impact in the Whipple shield. Detailed operation procedures of synchronizing the pulse DIH system with the impact event and removing the strong plasma radiation are p… Show more

“…This system captured a pair of 2048 × 2048 pixel holograms with an interframe time of 200 ns (5 million fps) at each imaging sensor. Another study [30] performed 3D particle field measurements in debris clouds created by hypervelocity projectile impacts in a two-stage light gas gun. Here an 8 ns pulse width laser and a CMOS camera sensor were synchronized to capture a single 4872 × 3248 pixel resolution hologram of a debris cloud travelling at 2.5 km/s.…”

100 megahertz-rate ultrahigh-speed digital holography instrument

“…This system captured a pair of 2048 × 2048 pixel holograms with an interframe time of 200 ns (5 million fps) at each imaging sensor. Another study [30] performed 3D particle field measurements in debris clouds created by hypervelocity projectile impacts in a two-stage light gas gun. Here an 8 ns pulse width laser and a CMOS camera sensor were synchronized to capture a single 4872 × 3248 pixel resolution hologram of a debris cloud travelling at 2.5 km/s.…”

100 megahertz-rate ultrahigh-speed digital holography instrument

A series of microscope objective lenses combined with an interferometer for individual nanoparticles detection

3D characterisation of debris clouds under hypervelocity impact with large-field pulsed digital in-line holography