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W3012215951 endingPage "190046" @default.
W3012215951 startingPage "190046" @default.
W3012215951 abstract "This paper reviews the science of the optical near-field (ONF), which is created and localized in a nanometer-sized material (NM) or on its surface. It is pointed out that work on near-field optics was started in order to break through the diffraction limit in optical microscopy and had already come to an end without giving answers to the essential questions on the origin of the near-field optical interaction. However, recent studies have reincarnated these studies and identified the ONF as an off-shell quantum field. Based on this identification, a novel science called off-shell science has started on the basis that the dispersion relation between energy and momentum is invalid for the ONF. This quantum field is called the dressed photon because it is created as a result of the interaction between photons and electrons (or excitons) in a NM and, thus, it accompanies the energies of electrons or excitons. In reviewing current developments, this paper presents fifteen novel phenomena that are contrary to the common views in conventional optical science. Novel technologies developed by applying these phenomena are also reviewed. These include: nanometer-sized optical devices, nano-fabrication technology, and energy conversion technology. High-power Si light emitting diodes, Si lasers, and SiC polarization rotators are reviewed as examples of electrical to optical energy conversion. For future directions, this paper also reviews novel theoretical studies that have commenced recently by relying on physical and mathematical bases." @default.
W3012215951 created "2020-03-23" @default.
W3012215951 creator A5003218379 @default.
W3012215951 date "2020-01-01" @default.
W3012215951 modified "2023-10-16" @default.
W3012215951 title "<p style=text-align: left;>History, current developments, and future directions of near-field optical science" @default.
W3012215951 cites W1139488822 @default.
W3012215951 cites W1490211484 @default.
W3012215951 cites W1493219472 @default.
W3012215951 cites W1746904668 @default.
W3012215951 cites W1881283337 @default.
W3012215951 cites W1964301336 @default.
W3012215951 cites W1964555021 @default.
W3012215951 cites W1965188134 @default.
W3012215951 cites W1965410103 @default.
W3012215951 cites W1967240168 @default.
W3012215951 cites W1970233638 @default.
W3012215951 cites W1970335931 @default.
W3012215951 cites W1970528721 @default.
W3012215951 cites W1972615885 @default.
W3012215951 cites W1973845847 @default.
W3012215951 cites W1976444591 @default.
W3012215951 cites W1978932116 @default.
W3012215951 cites W1981167851 @default.
W3012215951 cites W1987097443 @default.
W3012215951 cites W1987562472 @default.
W3012215951 cites W1990868614 @default.
W3012215951 cites W1995061774 @default.
W3012215951 cites W1999520355 @default.
W3012215951 cites W2003369023 @default.
W3012215951 cites W2007465262 @default.
W3012215951 cites W2009254555 @default.
W3012215951 cites W2011098173 @default.
W3012215951 cites W2011200850 @default.
W3012215951 cites W2012762128 @default.
W3012215951 cites W2012903560 @default.
W3012215951 cites W2013412697 @default.
W3012215951 cites W2013550145 @default.
W3012215951 cites W2019650588 @default.
W3012215951 cites W2023178948 @default.
W3012215951 cites W2026460959 @default.
W3012215951 cites W2030009156 @default.
W3012215951 cites W2030400559 @default.
W3012215951 cites W2032467920 @default.
W3012215951 cites W2035517083 @default.
W3012215951 cites W2039945745 @default.
W3012215951 cites W2040461731 @default.
W3012215951 cites W2044996010 @default.
W3012215951 cites W2047146219 @default.
W3012215951 cites W2048218853 @default.
W3012215951 cites W2048561428 @default.
W3012215951 cites W2051302899 @default.
W3012215951 cites W2055170503 @default.
W3012215951 cites W2058807355 @default.
W3012215951 cites W2059790016 @default.
W3012215951 cites W2061855263 @default.
W3012215951 cites W2068221387 @default.
W3012215951 cites W2073974156 @default.
W3012215951 cites W2077545894 @default.
W3012215951 cites W2077709499 @default.
W3012215951 cites W2084308781 @default.
W3012215951 cites W2085189255 @default.
W3012215951 cites W2087009847 @default.
W3012215951 cites W2087335864 @default.
W3012215951 cites W2087793860 @default.
W3012215951 cites W2090777302 @default.
W3012215951 cites W2094896417 @default.
W3012215951 cites W2100253850 @default.
W3012215951 cites W2103179372 @default.
W3012215951 cites W2108371911 @default.
W3012215951 cites W2123551590 @default.
W3012215951 cites W2127242496 @default.
W3012215951 cites W2133862098 @default.
W3012215951 cites W2157064336 @default.
W3012215951 cites W2157481538 @default.
W3012215951 cites W2159012223 @default.
W3012215951 cites W2161205965 @default.
W3012215951 cites W2169282921 @default.
W3012215951 cites W2274633654 @default.
W3012215951 cites W2287693694 @default.
W3012215951 cites W2326697386 @default.
W3012215951 cites W2418590132 @default.
W3012215951 cites W2475431316 @default.
W3012215951 cites W2482434922 @default.
W3012215951 cites W2487505043 @default.
W3012215951 cites W2494560798 @default.
W3012215951 cites W2506378848 @default.
W3012215951 cites W2754858748 @default.
W3012215951 cites W2768952972 @default.
W3012215951 cites W2788990453 @default.
W3012215951 cites W2915514409 @default.
W3012215951 cites W2963954162 @default.
W3012215951 cites W2984095557 @default.
W3012215951 cites W4252305798 @default.
W3012215951 cites W4254486169 @default.
W3012215951 doi "https://doi.org/10.29026/oea.2020.190046" @default.
W3012215951 hasPublicationYear "2020" @default.
W3012215951 type Work @default.