Simultaneous observation of nascent plasma and bubble induced by laser ablation in water with various pulse durations

We investigate the effects of pulse duration on the dynamics of the nascent plasma and bubble induced by laser ablation in water. To examine the relationship between the nascent plasma and the bubble without disturbed by shot-to-shot fluctuation, we observe the images of the plasma and the bubble si...

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Veröffentlicht in:	Journal of applied physics 2015-05, Vol.117 (17)
Hauptverfasser:	Tamura, Ayaka, Matsumoto, Ayumu, Fukami, Kazuhiro, Nishi, Naoya, Sakka, Tetsuo
Format:	Artikel
Sprache:	eng
Schlagworte:	70 PLASMA PHYSICS AND FUSION TECHNOLOGY Applied physics BREAKDOWN BUBBLES CHARGE-COUPLED DEVICES CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS Delay time ELECTROMAGNETIC PULSES EMISSION SPECTRA EMISSION SPECTROSCOPY FLUCTUATIONS Irradiation Laser ablation Laser induced breakdown spectroscopy LASER RADIATION Lasers Line spectra Liquid phases PLASMA Pulse duration PULSED IRRADIATION QUENCHING Spectrum analysis TIME DELAY Variation VISIBLE RADIATION WATER
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container_title	Journal of applied physics
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creator	Tamura, Ayaka Matsumoto, Ayumu Fukami, Kazuhiro Nishi, Naoya Sakka, Tetsuo
description	We investigate the effects of pulse duration on the dynamics of the nascent plasma and bubble induced by laser ablation in water. To examine the relationship between the nascent plasma and the bubble without disturbed by shot-to-shot fluctuation, we observe the images of the plasma and the bubble simultaneously by using two intensified charge coupled device detectors. We successfully observe the images of the plasma and bubble during the pulsed-irradiation, when the bubble size is as small as 20 μm. The light-emitting region of the plasma during the laser irradiation seems to exceed the bubble boundary in the case of the short-pulse (30-ns pulse) irradiation, while the size of the plasma is significantly smaller than that of the bubble in the case of the long-pulse (100-ns pulse) irradiation. The results suggest that the extent of the plasma quenching in the initial stage significantly depends on the pulse duration. Also, we investigate how the plasma-bubble relationship in the very early stage affects the shape of the atomic spectral lines observed at the later delay time of 600 ns. The present work gives important information to obtain high quality spectra in the application of underwater laser-induced breakdown spectroscopy, as well as to clarify the mechanism of liquid-phase laser ablation.
doi_str_mv	10.1063/1.4919729
format	Article
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To examine the relationship between the nascent plasma and the bubble without disturbed by shot-to-shot fluctuation, we observe the images of the plasma and the bubble simultaneously by using two intensified charge coupled device detectors. We successfully observe the images of the plasma and bubble during the pulsed-irradiation, when the bubble size is as small as 20 μm. The light-emitting region of the plasma during the laser irradiation seems to exceed the bubble boundary in the case of the short-pulse (30-ns pulse) irradiation, while the size of the plasma is significantly smaller than that of the bubble in the case of the long-pulse (100-ns pulse) irradiation. The results suggest that the extent of the plasma quenching in the initial stage significantly depends on the pulse duration. Also, we investigate how the plasma-bubble relationship in the very early stage affects the shape of the atomic spectral lines observed at the later delay time of 600 ns. 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To examine the relationship between the nascent plasma and the bubble without disturbed by shot-to-shot fluctuation, we observe the images of the plasma and the bubble simultaneously by using two intensified charge coupled device detectors. We successfully observe the images of the plasma and bubble during the pulsed-irradiation, when the bubble size is as small as 20 μm. The light-emitting region of the plasma during the laser irradiation seems to exceed the bubble boundary in the case of the short-pulse (30-ns pulse) irradiation, while the size of the plasma is significantly smaller than that of the bubble in the case of the long-pulse (100-ns pulse) irradiation. The results suggest that the extent of the plasma quenching in the initial stage significantly depends on the pulse duration. Also, we investigate how the plasma-bubble relationship in the very early stage affects the shape of the atomic spectral lines observed at the later delay time of 600 ns. 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To examine the relationship between the nascent plasma and the bubble without disturbed by shot-to-shot fluctuation, we observe the images of the plasma and the bubble simultaneously by using two intensified charge coupled device detectors. We successfully observe the images of the plasma and bubble during the pulsed-irradiation, when the bubble size is as small as 20 μm. The light-emitting region of the plasma during the laser irradiation seems to exceed the bubble boundary in the case of the short-pulse (30-ns pulse) irradiation, while the size of the plasma is significantly smaller than that of the bubble in the case of the long-pulse (100-ns pulse) irradiation. The results suggest that the extent of the plasma quenching in the initial stage significantly depends on the pulse duration. Also, we investigate how the plasma-bubble relationship in the very early stage affects the shape of the atomic spectral lines observed at the later delay time of 600 ns. The present work gives important information to obtain high quality spectra in the application of underwater laser-induced breakdown spectroscopy, as well as to clarify the mechanism of liquid-phase laser ablation.</abstract><cop>Melville</cop><pub>American Institute of Physics</pub><doi>10.1063/1.4919729</doi><oa>free_for_read</oa></addata></record>
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subjects	70 PLASMA PHYSICS AND FUSION TECHNOLOGY Applied physics BREAKDOWN BUBBLES CHARGE-COUPLED DEVICES CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS Delay time ELECTROMAGNETIC PULSES EMISSION SPECTRA EMISSION SPECTROSCOPY FLUCTUATIONS Irradiation Laser ablation Laser induced breakdown spectroscopy LASER RADIATION Lasers Line spectra Liquid phases PLASMA Pulse duration PULSED IRRADIATION QUENCHING Spectrum analysis TIME DELAY Variation VISIBLE RADIATION WATER
title	Simultaneous observation of nascent plasma and bubble induced by laser ablation in water with various pulse durations
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