Williams, D. B. & Carter, C. B. Transmisijska elektronska mikroskopija (Pomlad, 2009).
Haider, M. et al. A spherical-aberration-corrected 200kV transmission electron microscope. Ultramikroskopija 7553-60 (1998).
Chen, Z. et al. Elektronska psihografija dosega meje atomske ločljivosti, ki jih določajo vibracije rešetke. Znanost 372826-831 (2021).
Hoppe, W. Beugung im inhomogenen Primärstrahlwellenfeld. I. Prinzip einer Phasenmessung von Elektronenbeungungsinterferenzen. Acta Crystallogr. A 25495-501 (1969).
Miao, J., Charalambous, P., Kirz, J. & Sayre, D. Razširitev metodologije rentgenske kristalografije za omogočanje slikanja mikrometrskih nekristalnih vzorcev. Narava 400342-344 (1999).
Rodenburg, J. M. Ptychography and related diffractive imaging methods. Adv. Imaging Electron Phys. 15087-184 (2008).
Zheng, G., Shen, C., Jiang, S., Song, P. & Yang, C. Concept, implementations and applications of Fourier ptychography. Nat. Rev. Phys. 3207-223 (2021).
Pfeiffer, F. X-ray ptychography. Nat. Fotonika 129-17 (2017).
Nellist, P. D., McCallum, B. C. & Rodenburg, J. M. Resolution beyond the ‘information limit’ in transmission electron microscopy. Narava 374630-632 (1995).
Maiden, A. M., Humphry, M. J., Zhang, F. & Rodenburg, J. M. Superresolution imaging via ptychography. J. Opt. Soc. Am. A 28604-612 (2011).
Humphry, M. J., Kraus, B., Hurst, A. C., Maiden, A. M. & Rodenburg, J. M. Ptychographic electron microscopy using high-angle dark-field scattering for sub-nanometre resolution imaging. Nat. Komun. 3730 (2012).
Pelz, P. M., Qiu, W. X., Bucker, R., Kassier, G. & Miller, R. J. D. Low-dose cryo electron ptychography via non-convex Bayesian optimization. Sci. Rep. 79883 (2017).
Ophus, C. Štiridimenzionalna skenirajoča transmisijska elektronska mikroskopija (4D-STEM): od skenirajoče nanodifrakcije do ptihografije in naprej. Microsc. mikroanalno. 25563-582 (2019).
Ding, Z. et al. Three-dimensional electron ptychography of organic-inorganic hybrid nanostructures. Nat. Komun. 134787 (2022).
Gao, W. et al. Real-space charge-density imaging with sub-angstrom resolution by four-dimensional electron microscopy. Narava 575480-484 (2019).
Kohno, Y., Seki, T., Findlay, SD, Ikuhara, Y. in Shibata, N. Vizualizacija intrinzičnih magnetnih polj antiferomagneta v realnem prostoru. Narava 602234-239 (2022).
Zachman, M. J. et al. Mapping pm-scale lattice distortions and measuring interlayer separations in stacked 2D materials by interferometric 4D-STEM. Microsc. mikroanalno. 281752-1754 (2022).
Rodenburg, JM & Bates, RHT Teorija super-ločljivostne elektronske mikroskopije z dekonvolucijo Wignerjeve porazdelitve. Phil. Trans. R. Soc. Lond. A 339521-553 (1997).
McCallum, B. C. & Rodenburg, J. M. Two-dimensional demonstration of Wigner phase-retrieval microscopy in the STEM configuration. Ultramikroskopija 45371-380 (1992).
Chapman, H. N. Phase-retrieval X-ray microscopy by Wigner-distribution deconvolution. Ultramikroskopija 66153-172 (1996).
Pennycook, T. J., Martinez, G. T., Nellist, P. D. & Meyer, J. C. High dose efficiency atomic resolution imaging via electron ptychography. Ultramikroskopija 196131-135 (2019).
O’Leary, C. M. et al. Phase reconstruction using fast binary 4D STEM data. Appl Phys. Lett. 116124101 (2020).
Gao, C. et al. Overcoming contrast reversals in focused probe ptychography of thick materials: an optimal pipeline for efficiently determining local atomic structure in materials science. Appl Phys. Lett. 121081906 (2022).
Elser, V. Phase retrieval by iterated projections. J. Opt. Soc. Am. A 2040-55 (2003).
Rodenburg, J. M. & Faulkner, H. M. L. A phase retrieval algorithm for shifting illumination. Appl Phys. Lett. 854795-4797 (2004).
Thibault, P. et al. Rentgenska difrakcijska mikroskopija visoke ločljivosti. Znanost 321379-382 (2008).
Maiden, AM & Rodenburg, JM. Izboljšan algoritem za pridobitev ptihografske faze za difrakcijsko slikanje. Ultramikroskopija 1091256-1262 (2009).
Maiden, A. M., Humphry, M. J. & Rodenburg, J. M. Ptychographic transmission microscopy in three dimensions using a multi-slice approach. J. Opt. Soc. Am. A 291606-1614 (2012).
Sha, H., Cui, J. & Yu, R. Deep sub-angstrom resolution imaging by electron ptychography with misorientation correction. Sci. Adv. 8, eabn2275 (2022).
Sha, H. et al. Ptychographic measurements of varying size and shape along zeolite channels. Sci. Adv. 9, eadf1151 (2023).
Sha, H. et al. Sub-nanometer-scale mapping of crystal orientation and depth-dependent structure of dislocation cores in SrTiO3. Nat. Komun. 14162 (2023).
Dong, Z. et al. Atomic-level imaging of zeolite local structures using electron ptychography. J. Am. Kemija. Soc. 1456628-6632 (2023).
Zhang, H. et al. Three-dimensional inhomogeneity of zeolite structure and composition revealed by electron ptychography. Znanost 380633-663 (2023).
Cowley, J. M. & Moodie, A. F. The scattering of electrons by atoms and crystals. I. A new theoretical approach. Acta Crystallogr. 10609-619 (1957).
Allen, L. J., Alfonso, A. J. D. & Findlay, S. D. Modelling the inelastic scattering of fast electrons. Ultramikroskopija 15111-22 (2015).
Odstrcil, M. et al. Ptihografsko koherentno difrakcijsko slikanje z ortogonalno sprostitvijo sonde. Odločite se Express 248360-8369 (2016).
Das, S. et al. Opazovanje polarnih skyrmionov pri sobni temperaturi. Narava 568368-372 (2019).
Veličkov, B., Kahlenberg, V., Bertram, R. & Bernhagen, M. Crystal chemistry of GdScO3, DyScO3, SmScO3 and NdScO3. Z. Kristallogr. 222466-473 (2007).
Lee, D. et al. Emergence of room-temperature ferroelectricity at reduced dimensions. Znanost 3491314-1317 (2015).
Gao, P. et al. Atomic mechanism of polarization-controlled surface reconstruction in ferroelectric thin films. Nat. Komun. 711318 (2016).
Kirkland E. J. Advanced Computing in Electron Microscopy (Pomlad, 2020).
Jurling, A. S. & Fienup, J. R. Applications of algorithmic differentiation to phase retrieval algorithms. J. Opt. Soc. Am. A 311348-1359 (2014).
Odstrcil, M., Menzel, A. & Guizar-Sicairos, M. Iterativni reševalec najmanjših kvadratov za posplošeno psihografijo največje verjetnosti. Odločite se Express 263108-3123 (2018).
Pelz, P. M. et al. Phase-contrast imaging of multiply-scattering extended objects at atomic resolution by reconstruction of the scattering matrix. Phys. Rev. Res. 3023159 (2021).
Uhlemann, S. & Haider, M. Residual wave aberrations in the first spherical aberration corrected transmission electron microscope. Ultramikroskopija 72109-119 (1998).
Krivanek, O. L., Dellby, N. & Lupini, A. R. Towards sub-Å electron beams. Ultramikroskopija 781-11 (1999).
Schwiegerling, J. Review of Zernike polynomials and their use in describing the impact of misalignment in optical systems. In Proc. Optical System Alignment, Tolerancing, and Verification XI (eds Sasián, J. & Youngworth, R. N.) 103770D (SPIE, 2017); https://doi.org/10.1117/12.2275378
Bertoni, G. et al. Near-real-time diagnosis of electron optical phase aberrations in scanning transmission electron microscopy using an artificial neural network. Ultramikroskopija 245113663 (2023).
Paszke, A. et al. PyTorch: an imperative style, high-performance deep learning library. In Proc. 33rd International Conference on Neural Information Processing Systems (eds Wallach, H. M., Larochelle, H., Beygelzimer, A., d’Alché-Buc, F. & Fox, E. B.) 721 (Curran Associates, 2019).
Burdet, N. et al. Evaluation of partial coherence correction in X-ray ptychography. Odločite se Express 235452-5467 (2015).
Nellist, P. D. & Rodenburg, J. M. Beyond the conventional information limit: the relevant coherence function. Ultramikroskopija 5461-74 (1994).
Yang, W., Sha, H. & Yu, R. 4D datasets used for local-orbital ptychographic reconstruction [data set]. Zenodo https://doi.org/10.5281/zenodo.10246206 (2023).
- Distribucija vsebine in PR s pomočjo SEO. Okrepite se še danes.
- PlatoData.Network Vertical Generative Ai. Opolnomočite se. Dostopite tukaj.
- PlatoAiStream. Web3 Intelligence. Razširjeno znanje. Dostopite tukaj.
- PlatoESG. Ogljik, CleanTech, Energija, Okolje, sončna energija, Ravnanje z odpadki. Dostopite tukaj.
- PlatoHealth. Obveščanje o biotehnologiji in kliničnih preskušanjih. Dostopite tukaj.
- vir: https://www.nature.com/articles/s41565-023-01595-w
- ][str
- 07
- 1
- 10
- 11
- 12
- 13
- 14
- 15%
- 16
- 17
- 19
- 1994
- 1995
- 1996
- 1998
- 1999
- 20
- 2008
- 2011
- 2012
- 2014
- 2015
- 2016
- 2017
- 2018
- 2019
- 2020
- 2021
- 2022
- 2023
- 22
- 23
- 24
- 25
- 26
- 27
- 28
- 29
- 2D
- 2D materiali
- 30
- 31
- 32
- 33
- 35%
- 36
- 39
- 40
- 41
- 43
- 45
- 46
- 49
- 50
- 51
- 52
- 65
- 7
- 75
- 8
- 9
- 97
- 98
- a
- Dosega
- AL
- algoritem
- algoritmični
- algoritmi
- poravnava
- omogočajo
- skupaj
- am
- an
- in
- aplikacije
- pristop
- članek
- umetni
- sodelavci
- At
- atomsko
- b
- Bajezijski
- Poleg
- by
- kanali
- kemija
- klik
- KOHERENTNO
- sestava
- računalništvo
- Koncept
- Konferenca
- konfiguracija
- kontrast
- konvencionalne
- popravljen
- Crystal
- datum
- nabor podatkov
- nabor podatkov
- globoko
- globoko učenje
- Opisuje
- določanje
- diagnoza
- dimenzije
- dislokacija
- Odmerek
- e
- E&T
- učinkovitosti
- učinkovito
- elektronov
- pojav
- Eter (ETH)
- Ocena
- podaljšan
- razširitev
- zunanja
- FAST
- Področja
- filmi
- prva
- osredotočena
- za
- lisica
- iz
- funkcija
- splošno
- Haider
- visoka
- visokozmogljivo
- visoka ločljivost
- http
- HTTPS
- Hybrid
- i
- slikanje
- vpliv
- nujno
- izvedbe
- izboljšalo
- in
- Podatki
- Facebook Global
- intrinzično
- učenje
- Knjižnica
- LIMIT
- Meje
- LINK
- lokalna
- kartiranje
- materiali
- Matrix
- meritve
- merjenje
- Mehanizem
- Metodologija
- Metode
- Meyer
- Mikroskop
- Mikroskopija
- Miller
- modeliranje
- nanotehnologija
- Narava
- mreža
- Nevronski
- nevronska mreža
- Novo
- predmeti
- Opazovanje
- of
- on
- optimalna
- optimizacija
- premagovanje
- deloma
- faza
- plinovod
- platon
- Platonova podatkovna inteligenca
- PlatoData
- polar
- Sonda
- obravnavati
- Napovedi
- pitorha
- R
- Zmanjšana
- reference
- povezane
- sprostitev
- pomembno
- Resolucija
- iskanje
- Razkrito
- pregleda
- s
- skeniranje
- Učenjak
- Znanost
- nastavite
- Oblikujte
- PREMIKANJE
- Velikosti
- pesem
- zloženi
- Stem
- Struktura
- strukture
- slog
- Površina
- sistem
- sistemi
- T
- O
- njihove
- Teoretični
- Teorija
- 3
- Tridimenzionalni
- do
- proti
- trans
- uporaba
- Rabljeni
- uporabo
- različno
- Preverjanje
- preko
- vizualizacija
- za
- W
- Wave
- z
- X
- x-ray
- zefirnet
- zhang
