SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3103607324> ?p ?o ?g. }

Showing items 1 to 100 of ±136 with 100 items per page.

W3103607324 endingPage "719" @default.
W3103607324 startingPage "711" @default.
W3103607324 abstract "Atomic-size vortex beams have great potential in probing materials' magnetic moment at atomic scales. However, the limited depth of field of vortex beams constrains the probing depth in which the helical phase front is preserved. On the other hand, electron channeling in crystals can counteract beam divergence and extend the vortex beam without disrupting its topological charge. Specifically, in this paper, we report atomic vortex beams with topological charge pm1 can be coupled to the 2p columnar bound states and propagate for more 50 nm without being dispersed and losing its helical phase front. We gave numerical solutions to the 2p columnar orbitals and tabulated the characteristic size of the 2p states of two typical elements, Co and Dy, for various incident beam energies and various atomic densities. The tabulated numbers allow estimates of the optimal convergence angle for maximal coupling to 2p columnar orbital. We also have developed analytic formulae for beam energy, convergence-angle, and hologram dependent scaling for various characteristic sizes. These length scales are useful for the design of pitch-fork apertures and operations of microscopes in the vortex-beam imaging mode." @default.
W3103607324 created "2020-11-23" @default.
W3103607324 creator A5049550458 @default.
W3103607324 creator A5067699683 @default.
W3103607324 date "2012-07-26" @default.
W3103607324 modified "2023-09-23" @default.
W3103607324 title "On-Column 2<i>p</i>Bound State with Topological Charge ±1 Excited by an Atomic-Size Vortex Beam in an Aberration-Corrected Scanning Transmission Electron Microscope" @default.
W3103607324 cites W1966043311 @default.
W3103607324 cites W1968582548 @default.
W3103607324 cites W1975010541 @default.
W3103607324 cites W1976940018 @default.
W3103607324 cites W1977519761 @default.
W3103607324 cites W1981484387 @default.
W3103607324 cites W1982665337 @default.
W3103607324 cites W1986280260 @default.
W3103607324 cites W2003734339 @default.
W3103607324 cites W2006354005 @default.
W3103607324 cites W2008310167 @default.
W3103607324 cites W2011140218 @default.
W3103607324 cites W2011706733 @default.
W3103607324 cites W2011890678 @default.
W3103607324 cites W2012707371 @default.
W3103607324 cites W2020963824 @default.
W3103607324 cites W2025987783 @default.
W3103607324 cites W2029439565 @default.
W3103607324 cites W2037165138 @default.
W3103607324 cites W2040288503 @default.
W3103607324 cites W2040926588 @default.
W3103607324 cites W2049723054 @default.
W3103607324 cites W2054322765 @default.
W3103607324 cites W2054374786 @default.
W3103607324 cites W2059938363 @default.
W3103607324 cites W2061195989 @default.
W3103607324 cites W2063052837 @default.
W3103607324 cites W2066858417 @default.
W3103607324 cites W2069845974 @default.
W3103607324 cites W2075853094 @default.
W3103607324 cites W2079592229 @default.
W3103607324 cites W2085651933 @default.
W3103607324 cites W2085833280 @default.
W3103607324 cites W2091593633 @default.
W3103607324 cites W2094051120 @default.
W3103607324 cites W2094055587 @default.
W3103607324 cites W2106788343 @default.
W3103607324 cites W2109969010 @default.
W3103607324 cites W2113685968 @default.
W3103607324 cites W2115138743 @default.
W3103607324 cites W2121032007 @default.
W3103607324 cites W2122095187 @default.
W3103607324 cites W2138836771 @default.
W3103607324 cites W2148317024 @default.
W3103607324 cites W2149705812 @default.
W3103607324 cites W2167078243 @default.
W3103607324 cites W2330787628 @default.
W3103607324 cites W3035572042 @default.
W3103607324 cites W4242241790 @default.
W3103607324 cites W4244696065 @default.
W3103607324 cites W4298179779 @default.
W3103607324 cites W4386007456 @default.
W3103607324 doi "https://doi.org/10.1017/s1431927612000499" @default.
W3103607324 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/22832117" @default.
W3103607324 hasPublicationYear "2012" @default.
W3103607324 type Work @default.
W3103607324 sameAs 3103607324 @default.
W3103607324 citedByCount "26" @default.
W3103607324 countsByYear W31036073242013 @default.
W3103607324 countsByYear W31036073242014 @default.
W3103607324 countsByYear W31036073242015 @default.
W3103607324 countsByYear W31036073242016 @default.
W3103607324 countsByYear W31036073242017 @default.
W3103607324 countsByYear W31036073242018 @default.
W3103607324 countsByYear W31036073242019 @default.
W3103607324 countsByYear W31036073242020 @default.
W3103607324 countsByYear W31036073242022 @default.
W3103607324 crossrefType "journal-article" @default.
W3103607324 hasAuthorship W3103607324A5049550458 @default.
W3103607324 hasAuthorship W3103607324A5067699683 @default.
W3103607324 hasBestOaLocation W31036073242 @default.
W3103607324 hasConcept C119440689 @default.
W3103607324 hasConcept C120665830 @default.
W3103607324 hasConcept C121332964 @default.
W3103607324 hasConcept C140820882 @default.
W3103607324 hasConcept C146088050 @default.
W3103607324 hasConcept C147120987 @default.
W3103607324 hasConcept C168834538 @default.
W3103607324 hasConcept C184779094 @default.
W3103607324 hasConcept C193016168 @default.
W3103607324 hasConcept C2984025587 @default.
W3103607324 hasConcept C41999313 @default.
W3103607324 hasConcept C44280652 @default.
W3103607324 hasConcept C520434653 @default.
W3103607324 hasConcept C62172962 @default.
W3103607324 hasConcept C62520636 @default.
W3103607324 hasConcept C77223115 @default.
W3103607324 hasConcept C97355855 @default.
W3103607324 hasConceptScore W3103607324C119440689 @default.
W3103607324 hasConceptScore W3103607324C120665830 @default.
W3103607324 hasConceptScore W3103607324C121332964 @default.