Development of a real-time transmittance monitoring system for a transparent sample in a shock compression experiment

Development of a real-time transmittance monitoring system for a transparent sample in a shock compression experiment

Optical transmittance measurement plays an important role in studying the phase transition mechanism of transparent liquids. A new real-time transmittance monitoring system was constructed to investigate the phase transition in transparent liquids under dynamic compression. The results show that for...

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Veröffentlicht in:Europhysics letters 2019-10, Vol.128 (2), p.20003
Hauptverfasser: Ren, Y. H., Wu, L., Fan, Z. N., Wang, Y. G., Liu, F. S., Chen, J. Y., Zhang, M. J., Sun, Y. Y.
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05.70.-a
07.35.+k
62.50.-p
Benzene
Liquids
Monitoring
Phase transitions
Real time
Time dependence
Time measurement
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container_end_page
container_issue 2
container_start_page 20003
container_title Europhysics letters
container_volume 128
creator Ren, Y. H.
Wu, L.
Fan, Z. N.
Wang, Y. G.
Liu, F. S.
Chen, J. Y.
Zhang, M. J.
Sun, Y. Y.
description Optical transmittance measurement plays an important role in studying the phase transition mechanism of transparent liquids. A new real-time transmittance monitoring system was constructed to investigate the phase transition in transparent liquids under dynamic compression. The results show that for water, there are a transition occurring on sub-μs time scales during the second shock compress, which presents good agreement with Dolan's result. This finding demonstrates that the water response is indeed strongly time-dependent. A similar experiment has also been done for the shocked benzene, but no obviously phase transition information has been obtained.
doi_str_mv 10.1209/0295-5075/128/20003
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subjects 05.70.-a
07.35.+k
62.50.-p
Benzene
Liquids
Monitoring
Phase transitions
Real time
Time dependence
Time measurement
title Development of a real-time transmittance monitoring system for a transparent sample in a shock compression experiment
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