2014
DOI: 10.1063/1.4890230
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Examining the temporal evolution of hypervelocity impact phenomena via high-speed imaging and ultraviolet-visible emission spectroscopy

Abstract: A model for debris clouds produced by impact of hypervelocity projectiles on multiplate structures Appl. Phys. Lett. 93, 211905 (2008) Examining the temporal evolution of hypervelocity impact phenomena via high-speed imaging and ultraviolet-visible emission spectroscopy The temporal evolution of a previously observed hypervelocity impact-induced vapor cloud [Mihaly et al., Int. J. Impact Eng. 62, 13 (2013)] was measured by simultaneously recording several full-field, near-IR images of the resulting emission us… Show more

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Cited by 15 publications
(17 citation statements)
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“…The majority of the observed IR-emission is likely produced by a relatively diffuse vapor/plasma cloud [1,15], similar to that observed by Sugita and Schultz [7,9,16]. They describe an impact-induced vapor cloud as a chemically and thermally heterogeneous entity with components each having different mass, momentum, and energy [9].…”
Section: Discussion On the Rapidly Expanding Ir Phenomenasupporting
confidence: 58%
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“…The majority of the observed IR-emission is likely produced by a relatively diffuse vapor/plasma cloud [1,15], similar to that observed by Sugita and Schultz [7,9,16]. They describe an impact-induced vapor cloud as a chemically and thermally heterogeneous entity with components each having different mass, momentum, and energy [9].…”
Section: Discussion On the Rapidly Expanding Ir Phenomenasupporting
confidence: 58%
“…Analysis of concurrently measured UV-Vis spectra indicates strong emission in the regions of observed debris from species originating from the nylon impactor [1,15]. Such results may provide insight into the origin and composition of the observed IR-emitting phenomena.…”
Section: Discussion On the Rapidly Expanding Ir Phenomenamentioning
confidence: 96%
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“…Additional molecular bands are observed between 450 nm and 570 nm, which coincide with the Swan band system; these bands are due to vibrational transitions in the A 3 g -X 3 u electronic states of the C 2 molecule [12]. These Swan bands have also been observed by others during impacts [13,14], and also during laser ablation of graphitic targets in vacuum, oxygen, and argon [15]. Sources for C 2 in this experiment are the nylon projectile, the carbon fiber composite in the face panels of the satellite, and the polymers present in multilayer insulation on the exterior of the satellite.…”
Section: Resultsmentioning
confidence: 72%
“…The temporal evolution of impact flashes is typically monitored in the laboratory using photodetectors (Eichhorn 1976;Burchell et al 1996;Ernst and Schultz 2003Bergeron et al 2006;Lawrence et al 2006;Tsembelis et al 2008;Ernst et al 2011;Goel et al 2015;Yafei et al 2019) or high-speed cameras (Kondo and Ahrens 1983;Schultz 1996;Ernst and Schultz 2007;Schultz et al 2007;Mihaly et al 2013Mihaly et al , 2015Tandy et al 2014;Schultz and Eberhardy 2015), revealing multiple phases of the radiating impact ejecta. These phases primarily comprise a rapid jet or plasma phase; a slower, expanding vapor cloud; and molten or high temperature ejecta that are dependent on specific impact parameters (Ang 1990;Yang et al 1992; Kadono and Fujiwara 1996;Schultz 1996;Sugita et al 1998;Sugita and Schultz 1999;Schultz 2004, 2007;Schultz et al 2006;Tsembelis et al 2008;Ernst et al 2011;Bruck Syal et al 2012).…”
Section: Introductionmentioning
confidence: 99%