Sternlicht H, Rheinheimer W, Hoffmann MJ, Kaplan WD (2016) The mechanism of grain boundary motion in SrTiO 3. In: Hawkes PW, Spence JCH (eds) Science of microscopy. Kirkland AI, Chang SL-Y, Hutchison JL (2007) Atomic resolution transmission electron microscopy. Measurement of the antisymmetric aberrations. Meyer RR, Kirkland AI, Saxton WO (2004) A new method for the determination of the wave aberration function for high-resolution TEM.: 2. Measurement of the symmetric aberrations. Meyer RR, Kirkland AI, Saxton WO (2002) A new method for the determination of the wave aberration function for high resolution TEM: 1. (84)90037-8Ĭoene WMJ, Thust A, de Beeck MO, Van Dyck D (1996) Maximum-likelihood method for focus-variation image reconstruction in high resolution transmission electron microscopy. Kirkland EJ (1984) Improved high resolution image processing of bright field electron micrographs. Kirkland EJ (1982) Nonlinear high resolution image processing of conventional transmission electron micrographs. Ĭhang L-Y, Kirkland AI (2006) Comparisons of linear and nonlinear image restoration. Philos Trans R Soc A Math Phys Eng Sci 367:3755–3771. Haigh SJ, Sawada H, Kirkland AI (2009) Optimal tilt magnitude determination for aberration-corrected super resolution exit wave function reconstruction. Kirkland AI, Saxton WO, Chand G (1997) Multiple beam tilt microscopy for super resolved imaging.
SUPERIMPOSED BOUNDARY SERIES
Kirkland AI, Saxton WO, Chau KL, Tsuno K, Kawasaki M (1995) Super-resolution by aperture synthesis: tilt series reconstruction in CTEM. Haigh SJ, Sawada H, Takayanagi K, Kirkland AI (2010) Exceeding conventional resolution limits in high-resolution transmission electron microscopy using tilted illumination and exit-wave restoration. In: Vogt T, Dahmen W, Binev P (eds) Modeling nanoscale imaging in electron microscopy. Haigh S, Kirkland A (2012) High resolution exit wave restoration. Īllen LJ, McBride W, O’Leary NL, Oxley MP (2004) Exit wave reconstruction at atomic resolution. Kirkland AI, Meyer RR (2004) “Indirect” high-resolution transmission electron microscopy: aberration measurement and wavefunction reconstruction. Houben L (2006) Aberration-corrected HRTEM of defects in strained La 2CuO 4 thin films grown on SrTiO 3. Tillmann K, Houben L, Thust A, Urban K (2006) Spherical-aberration correction in tandem with the restoration of the exit-plane wavefunction: synergetic tools for the imaging of lattice imperfections in crystalline solids at atomic resolution. Urban KW (2008) Studying atomic structures by aberration-corrected transmission electron microscopy. An allocational question emerges from both regular assets, like water from a typical source, and business assets, like oil from underneath lining land.Lentzen M, Jahnen B, Jia CL, Thust A, Tillmann K, Urban K (2002) High-resolution imaging with an aberration-corrected transmission electron microscope. This limit disregards the social associations on this scene.Īn allocational limit debate is an argument about the right to assets. The geometric boundary between Iraq and Saudi Arabia.Ī superimposed boundry can be characterized as the limit forced on a geological locale or region by a colonizing, vanquishing or an outside power and therefore, the prior social associations and examples are totally disregarded.Ī few instances of a superimposed limit is the mathematical limit among Iraq and Saudi Arabia, Uganda and Kenya, just as different limits forced on Africa by the Europeans during the period of imperialism.Ī superimposed limit is a limit that has been forced on a space by an outside or vanquishing power.An example of a superimposed boundary is:
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