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W325579002 abstract "This chapter discusses various principles used by aberration-corrected instruments and the performance they should be able to attain. This chapter also provides various application examples from areas chapter consider especially promising, and discuss what may be next for aberration-corrected scanning transmission electron microscopy (STEM). Aberration correction has greatly improved the performance and the range of useful applications of STEMs. It is now possible to form atomic resolution images and spectra at primary energies as low as 60 keV. Electron probes can be produced that are smaller than the typical atom and yet contain enough current for rapid EELS analysis with sensitivity down to the single atom level. This is leading to a new range of applications for the STEM- electron energy-loss spectroscopy (EELS) technique, which may well begin to rival the sensitivity of the atom probe." @default.
W325579002 created "2016-06-24" @default.
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W325579002 creator A5066533581 @default.
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W325579002 date "2008-01-01" @default.
W325579002 modified "2023-10-06" @default.
W325579002 title "Chapter 3 Advances in Aberration-Corrected Scanning Transmission Electron Microscopy and Electron Energy-Loss Spectroscopy" @default.
W325579002 cites W1876297499 @default.
W325579002 cites W1964802275 @default.
W325579002 cites W1966272533 @default.
W325579002 cites W1967605976 @default.
W325579002 cites W1967725407 @default.
W325579002 cites W1968240415 @default.
W325579002 cites W1981794368 @default.
W325579002 cites W1985184948 @default.
W325579002 cites W1985496437 @default.
W325579002 cites W1987374671 @default.
W325579002 cites W1987818258 @default.
W325579002 cites W1989447781 @default.
W325579002 cites W1991135845 @default.
W325579002 cites W1993725667 @default.
W325579002 cites W1994975224 @default.
W325579002 cites W1999599674 @default.
W325579002 cites W2005291468 @default.
W325579002 cites W2011487971 @default.
W325579002 cites W2016575161 @default.
W325579002 cites W2018020686 @default.
W325579002 cites W2018218551 @default.
W325579002 cites W2029035749 @default.
W325579002 cites W2030708643 @default.
W325579002 cites W2034066770 @default.
W325579002 cites W2037558854 @default.
W325579002 cites W2038418691 @default.
W325579002 cites W2039714018 @default.
W325579002 cites W2039739820 @default.
W325579002 cites W2042087988 @default.
W325579002 cites W2043316095 @default.
W325579002 cites W2044071938 @default.
W325579002 cites W2045886340 @default.
W325579002 cites W2048003872 @default.
W325579002 cites W2048380342 @default.
W325579002 cites W2055287419 @default.
W325579002 cites W2056715156 @default.
W325579002 cites W2057037833 @default.
W325579002 cites W2058478696 @default.
W325579002 cites W2066744201 @default.
W325579002 cites W2071166164 @default.
W325579002 cites W2072850511 @default.
W325579002 cites W2073619562 @default.
W325579002 cites W2075747877 @default.
W325579002 cites W2079470062 @default.
W325579002 cites W2079601813 @default.
W325579002 cites W2093910468 @default.
W325579002 cites W2096552716 @default.
W325579002 cites W2101397512 @default.
W325579002 cites W2102336805 @default.
W325579002 cites W2111439234 @default.
W325579002 cites W2112661812 @default.
W325579002 cites W2117052518 @default.
W325579002 cites W2127837300 @default.
W325579002 cites W2128629135 @default.
W325579002 cites W2128916246 @default.
W325579002 cites W2129363329 @default.
W325579002 cites W2136237632 @default.
W325579002 cites W2142358136 @default.
W325579002 cites W2146377329 @default.
W325579002 cites W2150036704 @default.
W325579002 cites W2152929825 @default.
W325579002 cites W2160577243 @default.
W325579002 cites W2162532420 @default.
W325579002 cites W2163395708 @default.
W325579002 cites W2163786183 @default.
W325579002 cites W2169715078 @default.
W325579002 cites W2522661270 @default.
W325579002 cites W2568517666 @default.
W325579002 cites W3038794461 @default.
W325579002 cites W4230676791 @default.
W325579002 cites W4233282851 @default.
W325579002 cites W4250521397 @default.
W325579002 cites W4255874613 @default.
W325579002 cites W4361864726 @default.
W325579002 doi "https://doi.org/10.1016/s1076-5670(08)01003-3" @default.
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