SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2904493162> ?p ?o ?g. }

Showing items 1 to 100 of ±124 with 100 items per page.

W2904493162 endingPage "082401" @default.
W2904493162 startingPage "082401" @default.
W2904493162 abstract "Many diffraction and imaging techniques have been developed and used to measure the strains in epitaxial films with different degrees of accuracy. In this tutorial, we will focus on measurements of strains in epitaxial films using electron diffraction techniques. These include reflection high-energy electron diffraction (RHEED), azimuthal reflection high-energy electron diffraction, low-energy electron diffraction (LEED), and high-resolution low-energy electron diffraction techniques. These diffraction techniques are surface sensitive and are suitable for in situ measurements of strains in ultrathin epitaxial films quantitatively. In particular, RHEED and LEED are simple to operate and readily available in many laboratories. We discuss the instrument limit of strain measurement in each technique. A nominal definition of the resolving power of an instrument to resolve a strain state is given as the percentage of intrinsic instrumental broadening in the reciprocal unit with respect to the first reciprocal Brillouin zone (2π/lattice constant) of a sample. It is shown that the resolving power of these diffraction techniques ranges from 2% to 0.2%. Experimental strategies without modifying the instrument and to achieve a strain detection capability beyond the definition of the nominal resolving power of these techniques are presented." @default.
W2904493162 created "2018-12-22" @default.
W2904493162 creator A5020867211 @default.
W2904493162 creator A5072602254 @default.
W2904493162 date "2019-02-28" @default.
W2904493162 modified "2023-09-27" @default.
W2904493162 title "Strain measurement of ultrathin epitaxial films using electron diffraction techniques" @default.
W2904493162 cites W1456284778 @default.
W2904493162 cites W1648864106 @default.
W2904493162 cites W1731701259 @default.
W2904493162 cites W1908507922 @default.
W2904493162 cites W1948123192 @default.
W2904493162 cites W1966224435 @default.
W2904493162 cites W1966452521 @default.
W2904493162 cites W1968271700 @default.
W2904493162 cites W1974071360 @default.
W2904493162 cites W1981620787 @default.
W2904493162 cites W1986012569 @default.
W2904493162 cites W1986218733 @default.
W2904493162 cites W1988692861 @default.
W2904493162 cites W1992300986 @default.
W2904493162 cites W1994608853 @default.
W2904493162 cites W1995299393 @default.
W2904493162 cites W1995707299 @default.
W2904493162 cites W1999023892 @default.
W2904493162 cites W2007111857 @default.
W2904493162 cites W2010767099 @default.
W2904493162 cites W2018609669 @default.
W2904493162 cites W2026468848 @default.
W2904493162 cites W2028713576 @default.
W2904493162 cites W2037636114 @default.
W2904493162 cites W2045176160 @default.
W2904493162 cites W2054098706 @default.
W2904493162 cites W2056034128 @default.
W2904493162 cites W2061783196 @default.
W2904493162 cites W2063539117 @default.
W2904493162 cites W2064276988 @default.
W2904493162 cites W2064397840 @default.
W2904493162 cites W2068875828 @default.
W2904493162 cites W2075944754 @default.
W2904493162 cites W2081854764 @default.
W2904493162 cites W2087112133 @default.
W2904493162 cites W2087467126 @default.
W2904493162 cites W2092872386 @default.
W2904493162 cites W2094817770 @default.
W2904493162 cites W2118399639 @default.
W2904493162 cites W2146269326 @default.
W2904493162 cites W2160333870 @default.
W2904493162 cites W2170581012 @default.
W2904493162 cites W2309922715 @default.
W2904493162 cites W2540737557 @default.
W2904493162 cites W2558808523 @default.
W2904493162 cites W2565626491 @default.
W2904493162 cites W2610689043 @default.
W2904493162 cites W2626510021 @default.
W2904493162 cites W2755947364 @default.
W2904493162 cites W2780907440 @default.
W2904493162 cites W2784322058 @default.
W2904493162 cites W2792347500 @default.
W2904493162 cites W2963929956 @default.
W2904493162 cites W3102748008 @default.
W2904493162 cites W1982021287 @default.
W2904493162 doi "https://doi.org/10.1063/1.5049357" @default.
W2904493162 hasPublicationYear "2019" @default.
W2904493162 type Work @default.
W2904493162 sameAs 2904493162 @default.
W2904493162 citedByCount "6" @default.
W2904493162 countsByYear W29044931622020 @default.
W2904493162 countsByYear W29044931622021 @default.
W2904493162 countsByYear W29044931622022 @default.
W2904493162 countsByYear W29044931622023 @default.
W2904493162 crossrefType "journal-article" @default.
W2904493162 hasAuthorship W2904493162A5020867211 @default.
W2904493162 hasAuthorship W2904493162A5072602254 @default.
W2904493162 hasConcept C100083437 @default.
W2904493162 hasConcept C110738630 @default.
W2904493162 hasConcept C120665830 @default.
W2904493162 hasConcept C121332964 @default.
W2904493162 hasConcept C171250308 @default.
W2904493162 hasConcept C192562407 @default.
W2904493162 hasConcept C200096950 @default.
W2904493162 hasConcept C207114421 @default.
W2904493162 hasConcept C2779227376 @default.
W2904493162 hasConcept C27805521 @default.
W2904493162 hasConcept C36022815 @default.
W2904493162 hasConcept C6448772 @default.
W2904493162 hasConcept C77557913 @default.
W2904493162 hasConcept C89957378 @default.
W2904493162 hasConceptScore W2904493162C100083437 @default.
W2904493162 hasConceptScore W2904493162C110738630 @default.
W2904493162 hasConceptScore W2904493162C120665830 @default.
W2904493162 hasConceptScore W2904493162C121332964 @default.
W2904493162 hasConceptScore W2904493162C171250308 @default.
W2904493162 hasConceptScore W2904493162C192562407 @default.
W2904493162 hasConceptScore W2904493162C200096950 @default.
W2904493162 hasConceptScore W2904493162C207114421 @default.
W2904493162 hasConceptScore W2904493162C2779227376 @default.
W2904493162 hasConceptScore W2904493162C27805521 @default.