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W2806584180 abstract "Nonlinear optics in the extreme-ultraviolet (EUV) has been limited by lack of transparent media and small conversion efficiency. To overcome this problem we explore the advantage of using multiply charged ion plasmas as the interacting media between EUV and intense near-infrared (NIR) pulses. Such media are transparent to EUV and can withstand intense NIR driving pulses without damage. We calculate the third-order nonlinear polarizabilities of ${mathrm{Ar}}^{2+}$ and ${mathrm{Ar}}^{3+}$ ions for EUV and NIR four-wave mixing by using the well-proven Cowan code and find that the EUV-to-EUV conversion efficiency as high as 26% can be expected for practical experimental configurations using multi-terawatt NIR lasers. Such a high efficiency is possible because the driving pulse intensity can be scaled up to several orders of magnitude higher than in conventional nonlinear media, and the group-velocity and phase mismatch are insignificant at the experimental plasma densities. This effective scheme of wave mixing can be utilized for ultrafast EUV waveform measurement and control as well as wavelength conversion." @default.
W2806584180 created "2018-06-13" @default.
W2806584180 creator A5063531875 @default.
W2806584180 creator A5070212717 @default.
W2806584180 date "2018-05-29" @default.
W2806584180 modified "2023-10-17" @default.
W2806584180 title "Efficient extreme-UV-to-extreme-UV conversion by four-wave mixing with intense near-IR pulses in highly charged ion plasmas" @default.
W2806584180 cites W1964543251 @default.
W2806584180 cites W1966168574 @default.
W2806584180 cites W1967767651 @default.
W2806584180 cites W1975723641 @default.
W2806584180 cites W1976548621 @default.
W2806584180 cites W1976605764 @default.
W2806584180 cites W1979158163 @default.
W2806584180 cites W1984882765 @default.
W2806584180 cites W1985334408 @default.
W2806584180 cites W1991801420 @default.
W2806584180 cites W1995346844 @default.
W2806584180 cites W2000524600 @default.
W2806584180 cites W2001220683 @default.
W2806584180 cites W2005389972 @default.
W2806584180 cites W2005878958 @default.
W2806584180 cites W2011508602 @default.
W2806584180 cites W2012853433 @default.
W2806584180 cites W2016570295 @default.
W2806584180 cites W2025579322 @default.
W2806584180 cites W2027705741 @default.
W2806584180 cites W2028245542 @default.
W2806584180 cites W2033626867 @default.
W2806584180 cites W2033627791 @default.
W2806584180 cites W2038955173 @default.
W2806584180 cites W2040591678 @default.
W2806584180 cites W2047752056 @default.
W2806584180 cites W2049674474 @default.
W2806584180 cites W2050587790 @default.
W2806584180 cites W2050777310 @default.
W2806584180 cites W2051360542 @default.
W2806584180 cites W2057563743 @default.
W2806584180 cites W2058086540 @default.
W2806584180 cites W2058929610 @default.
W2806584180 cites W2069718103 @default.
W2806584180 cites W2072427150 @default.
W2806584180 cites W2073209611 @default.
W2806584180 cites W2074950862 @default.
W2806584180 cites W2076941862 @default.
W2806584180 cites W2080135993 @default.
W2806584180 cites W2082732751 @default.
W2806584180 cites W2083311959 @default.
W2806584180 cites W2087841569 @default.
W2806584180 cites W2095305341 @default.
W2806584180 cites W2103424999 @default.
W2806584180 cites W2109001048 @default.
W2806584180 cites W2111372412 @default.
W2806584180 cites W2111427617 @default.
W2806584180 cites W2120417813 @default.
W2806584180 cites W2123706803 @default.
W2806584180 cites W2146667651 @default.
W2806584180 cites W2146938703 @default.
W2806584180 cites W2147821154 @default.
W2806584180 cites W2156345210 @default.
W2806584180 cites W2159759190 @default.
W2806584180 cites W2163370365 @default.
W2806584180 cites W2217020084 @default.
W2806584180 cites W2474178918 @default.
W2806584180 cites W2518598486 @default.
W2806584180 cites W2549633085 @default.
W2806584180 cites W3035572042 @default.
W2806584180 cites W3106477914 @default.
W2806584180 cites W4211101250 @default.
W2806584180 cites W4244110490 @default.
W2806584180 cites W4245312620 @default.
W2806584180 doi "https://doi.org/10.1103/physreva.97.053840" @default.
W2806584180 hasPublicationYear "2018" @default.
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