Liquid explosions induced by X-ray laser pulses

Claudiu A. Stan; Despina Milathianaki; Hartawan Laksmono; Raymond G. Sierra; Trevor A. McQueen; Marc Messerschmidt; Garth J. Williams; Jason E. Koglin; Thomas J. Lane; Matt J. Hayes; Serge A.H. Guillet; Mengning Liang; Andrew L. Aquila; Philip R. Willmott; Joseph S. Robinson; Karl L. Gumerlock; Sabine Botha; Karol Nass; Ilme Schlichting; Robert L. Shoeman; Howard A. Stone; Sébastien Boutet

doi:10.1038/nphys3779

Liquid explosions induced by X-ray laser pulses

Claudiu A. Stan, Despina Milathianaki, Hartawan Laksmono, Raymond G. Sierra, Trevor A. McQueen, Marc Messerschmidt, Garth J. Williams, Jason E. Koglin, Thomas J. Lane, Matt J. Hayes, Serge A.H. Guillet, Mengning Liang, Andrew L. Aquila, Philip R. Willmott, Joseph S. Robinson, Karl L. Gumerlock, Sabine Botha, Karol Nass, Ilme Schlichting, Robert L. ShoemanHoward A. Stone, Sébastien Boutet

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131 Scopus citations

Abstract

Explosions are spectacular and intriguing phenomena that expose the dynamics of matter under extreme conditions. We investigated, using time-resolved imaging, explosions induced by ultraintense X-ray laser pulses in water drops and jets. Our observations revealed an explosive vaporization followed by high-velocity interacting flows of liquid and vapour, and by the generation of shock trains in the liquid jets. These flows are different from those previously observed in laser ablation, owing to a simpler spatial pattern of X-ray absorption. We show that the explosion dynamics in our experiments is consistent with a redistribution of absorbed energy, mediated by a pressure or shock wave in the liquid, and we model the effects of explosions, including their adverse impact on X-ray laser experiments. X-ray laser explosions have predictable dynamics that may prove useful for controlling the state of pure liquids over broad energy scales and timescales, and for triggering pressure-sensitive molecular dynamics in solutions.

Original language	English (US)
Pages (from-to)	966-971
Number of pages	6
Journal	Nature Physics
Volume	12
Issue number	10
DOIs	https://doi.org/10.1038/nphys3779
State	Published - Oct 1 2016

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1038/nphys3779

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Stan, C. A., Milathianaki, D., Laksmono, H., Sierra, R. G., McQueen, T. A., Messerschmidt, M., Williams, G. J., Koglin, J. E., Lane, T. J., Hayes, M. J., Guillet, S. A. H., Liang, M., Aquila, A. L., Willmott, P. R., Robinson, J. S., Gumerlock, K. L., Botha, S., Nass, K., Schlichting, I., ... Boutet, S. (2016). Liquid explosions induced by X-ray laser pulses. Nature Physics, 12(10), 966-971. https://doi.org/10.1038/nphys3779

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title = "Liquid explosions induced by X-ray laser pulses",

abstract = "Explosions are spectacular and intriguing phenomena that expose the dynamics of matter under extreme conditions. We investigated, using time-resolved imaging, explosions induced by ultraintense X-ray laser pulses in water drops and jets. Our observations revealed an explosive vaporization followed by high-velocity interacting flows of liquid and vapour, and by the generation of shock trains in the liquid jets. These flows are different from those previously observed in laser ablation, owing to a simpler spatial pattern of X-ray absorption. We show that the explosion dynamics in our experiments is consistent with a redistribution of absorbed energy, mediated by a pressure or shock wave in the liquid, and we model the effects of explosions, including their adverse impact on X-ray laser experiments. X-ray laser explosions have predictable dynamics that may prove useful for controlling the state of pure liquids over broad energy scales and timescales, and for triggering pressure-sensitive molecular dynamics in solutions.",

author = "Stan, {Claudiu A.} and Despina Milathianaki and Hartawan Laksmono and Sierra, {Raymond G.} and McQueen, {Trevor A.} and Marc Messerschmidt and Williams, {Garth J.} and Koglin, {Jason E.} and Lane, {Thomas J.} and Hayes, {Matt J.} and Guillet, {Serge A.H.} and Mengning Liang and Aquila, {Andrew L.} and Willmott, {Philip R.} and Robinson, {Joseph S.} and Gumerlock, {Karl L.} and Sabine Botha and Karol Nass and Ilme Schlichting and Shoeman, {Robert L.} and Stone, {Howard A.} and S{\'e}bastien Boutet",

year = "2016",

month = oct,

day = "1",

doi = "10.1038/nphys3779",

language = "English (US)",

volume = "12",

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Stan, CA, Milathianaki, D, Laksmono, H, Sierra, RG, McQueen, TA, Messerschmidt, M, Williams, GJ, Koglin, JE, Lane, TJ, Hayes, MJ, Guillet, SAH, Liang, M, Aquila, AL, Willmott, PR, Robinson, JS, Gumerlock, KL, Botha, S, Nass, K, Schlichting, I, Shoeman, RL, Stone, HA & Boutet, S 2016, 'Liquid explosions induced by X-ray laser pulses', Nature Physics, vol. 12, no. 10, pp. 966-971. https://doi.org/10.1038/nphys3779

TY - JOUR

T1 - Liquid explosions induced by X-ray laser pulses

AU - Stan, Claudiu A.

AU - Milathianaki, Despina

AU - Laksmono, Hartawan

AU - Sierra, Raymond G.

AU - McQueen, Trevor A.

AU - Messerschmidt, Marc

AU - Williams, Garth J.

AU - Koglin, Jason E.

AU - Lane, Thomas J.

AU - Hayes, Matt J.

AU - Guillet, Serge A.H.

AU - Liang, Mengning

AU - Aquila, Andrew L.

AU - Willmott, Philip R.

AU - Robinson, Joseph S.

AU - Gumerlock, Karl L.

AU - Botha, Sabine

AU - Nass, Karol

AU - Schlichting, Ilme

AU - Shoeman, Robert L.

AU - Stone, Howard A.

AU - Boutet, Sébastien

PY - 2016/10/1

Y1 - 2016/10/1

N2 - Explosions are spectacular and intriguing phenomena that expose the dynamics of matter under extreme conditions. We investigated, using time-resolved imaging, explosions induced by ultraintense X-ray laser pulses in water drops and jets. Our observations revealed an explosive vaporization followed by high-velocity interacting flows of liquid and vapour, and by the generation of shock trains in the liquid jets. These flows are different from those previously observed in laser ablation, owing to a simpler spatial pattern of X-ray absorption. We show that the explosion dynamics in our experiments is consistent with a redistribution of absorbed energy, mediated by a pressure or shock wave in the liquid, and we model the effects of explosions, including their adverse impact on X-ray laser experiments. X-ray laser explosions have predictable dynamics that may prove useful for controlling the state of pure liquids over broad energy scales and timescales, and for triggering pressure-sensitive molecular dynamics in solutions.

AB - Explosions are spectacular and intriguing phenomena that expose the dynamics of matter under extreme conditions. We investigated, using time-resolved imaging, explosions induced by ultraintense X-ray laser pulses in water drops and jets. Our observations revealed an explosive vaporization followed by high-velocity interacting flows of liquid and vapour, and by the generation of shock trains in the liquid jets. These flows are different from those previously observed in laser ablation, owing to a simpler spatial pattern of X-ray absorption. We show that the explosion dynamics in our experiments is consistent with a redistribution of absorbed energy, mediated by a pressure or shock wave in the liquid, and we model the effects of explosions, including their adverse impact on X-ray laser experiments. X-ray laser explosions have predictable dynamics that may prove useful for controlling the state of pure liquids over broad energy scales and timescales, and for triggering pressure-sensitive molecular dynamics in solutions.

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SP - 966

EP - 971

JO - Nature Physics

JF - Nature Physics

IS - 10

ER -

Liquid explosions induced by X-ray laser pulses

Abstract

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