Open Access
Applied Physics Letters, volume 113, issue 18, pages 181103
Terahertz wave generation from liquid water films via laser-induced breakdown
Publication type: Journal Article
Publication date: 2018-10-29
Journal:
Applied Physics Letters
Quartile SCImago
Q1
Quartile WOS
Q2
Impact factor: 4
ISSN: 00036951, 10773118
Physics and Astronomy (miscellaneous)
Abstract
Understanding the physics of terahertz (THz) wave generation from water is essential for developing liquid THz sources. This letter reports detailed experimental measurements of THz wave emission by focusing intense laser pulses onto water films. The simulation based on a ponderomotive force-induced dipole is supported by the observation of the THz intensity dependence on the laser incidence angle. This work provides fundamental insights into the THz wave generation process in water and an alternative perspective for studying laser-induced breakdown in liquids.Understanding the physics of terahertz (THz) wave generation from water is essential for developing liquid THz sources. This letter reports detailed experimental measurements of THz wave emission by focusing intense laser pulses onto water films. The simulation based on a ponderomotive force-induced dipole is supported by the observation of the THz intensity dependence on the laser incidence angle. This work provides fundamental insights into the THz wave generation process in water and an alternative perspective for studying laser-induced breakdown in liquids.
Citations by journals
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1 publication, 2.17%
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1 publication, 2.17%
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1 publication, 2.17%
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1 publication, 2.17%
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1 publication, 2.17%
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1 publication, 2.17%
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1 publication, 2.17%
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1 publication, 2.17%
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1 publication, 2.17%
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1 publication, 2.17%
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1 publication, 2.17%
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Proceedings of the National Academy of Sciences of the United States of America
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Proceedings of the National Academy of Sciences of the United States of America
1 publication, 2.17%
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Citations by publishers
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Optical Society of America
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9 publications, 19.57%
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6 publications, 13.04%
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3 publications, 6.52%
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2 publications, 4.35%
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2 publications, 4.35%
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1 publication, 2.17%
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American Association for the Advancement of Science (AAAS)
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American Association for the Advancement of Science (AAAS)
1 publication, 2.17%
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The Chemical Society of Japan
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1 publication, 2.17%
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Opto-Electronic Advances
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1 publication, 2.17%
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Stichting SciPost
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Stichting SciPost, 1, 2.17%
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1 publication, 2.17%
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IEEE
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IEEE
1 publication, 2.17%
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Proceedings of the National Academy of Sciences (PNAS)
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Proceedings of the National Academy of Sciences (PNAS)
1 publication, 2.17%
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- We do not take into account publications that without a DOI.
- Statistics recalculated only for publications connected to researchers, organizations and labs registered on the platform.
- Statistics recalculated weekly.
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E Y. et al. Terahertz wave generation from liquid water films via laser-induced breakdown // Applied Physics Letters. 2018. Vol. 113. No. 18. p. 181103.
GOST all authors (up to 50)
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E Y., Jin Q., Tcypkin A., ZHANG X. Terahertz wave generation from liquid water films via laser-induced breakdown // Applied Physics Letters. 2018. Vol. 113. No. 18. p. 181103.
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TY - JOUR
DO - 10.1063/1.5054599
UR - https://doi.org/10.1063%2F1.5054599
TI - Terahertz wave generation from liquid water films via laser-induced breakdown
T2 - Applied Physics Letters
AU - E, Yiwen
AU - Jin, Qi
AU - Tcypkin, Anton
AU - ZHANG, X.-C.
PY - 2018
DA - 2018/10/29 00:00:00
PB - American Institute of Physics (AIP)
SP - 181103
IS - 18
VL - 113
SN - 0003-6951
SN - 1077-3118
ER -
Cite this
BibTex
Copy
@article{2018_E,
author = {Yiwen E and Qi Jin and Anton Tcypkin and X.-C. ZHANG},
title = {Terahertz wave generation from liquid water films via laser-induced breakdown},
journal = {Applied Physics Letters},
year = {2018},
volume = {113},
publisher = {American Institute of Physics (AIP)},
month = {oct},
url = {https://doi.org/10.1063%2F1.5054599},
number = {18},
pages = {181103},
doi = {10.1063/1.5054599}
}
Cite this
MLA
Copy
E., Yiwen, et al. “Terahertz wave generation from liquid water films via laser-induced breakdown.” Applied Physics Letters, vol. 113, no. 18, Oct. 2018, p. 181103. https://doi.org/10.1063%2F1.5054599.
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