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Nature
Resumen/Descripción – provisto por la editorial en inglés
Nature is a weekly international journal publishing the finest peer-reviewed research in all fields of science and technology on the basis of its originality, importance, interdisciplinary interest, timeliness, accessibility, elegance and surprising conclusions. Nature also provides rapid, authoritative, insightful and arresting news and interpretation of topical and coming trends affecting science, scientists and the wider public.Palabras clave – provistas por la editorial
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Disponibilidad
| Institución detectada | Período | Navegá | Descargá | Solicitá |
|---|---|---|---|---|
| No detectada | desde jul. 2012 / hasta dic. 2023 | Nature.com | ||
| No detectada | desde jul. 2006 / hasta ago. 2012 | Ovid |
Información
Tipo de recurso:
revistas
ISSN impreso
0028-0836
ISSN electrónico
1476-4687
Editor responsable
Springer Nature
País de edición
Reino Unido
Fecha de publicación
1869-
Tabla de contenidos
Isotopes tracked on a sub-nanometre scale using electron spectroscopy
Jordan A. Hachtel
Palabras clave: Multidisciplinary.
Pp. 36-37
Light-dependent development is tailored in visual neurons
Sergi Roig Puiggros
; Denis Jabaudon
Palabras clave: Multidisciplinary.
Pp. 37-38
Lung microbes mediate spinal-cord autoimmunity
Aubrey M. Schonhoff; Sarkis K. Mazmanian
Palabras clave: Multidisciplinary.
Pp. 38-40
Progress and prospects in magnetic topological materials
B. Andrei Bernevig; Claudia Felser; Haim Beidenkopf
Palabras clave: Multidisciplinary.
Pp. 41-51
A persistent ultraviolet outflow from an accreting neutron star binary transient
N. Castro Segura; C. Knigge; K. S. Long; D. Altamirano; M. Armas Padilla; C. Bailyn; D. A. H. Buckley; D. J. K. Buisson; J. Casares; P. Charles; J. A. Combi; V. A. Cúneo; N. D. Degenaar; S. del Palacio; M. Díaz Trigo; R. Fender; P. Gandhi; M. Georganti; C. Gutiérrez; J. V. Hernandez Santisteban; F. Jiménez-Ibarra; J. Matthews; M. Méndez; M. Middleton; T. Muñoz-Darias; M. Özbey Arabacı; M. Pahari; L. Rhodes; T. D. Russell; S. Scaringi; J. van den Eijnden; G. Vasilopoulos; F. M. Vincentelli; P. Wiseman
Palabras clave: Multidisciplinary.
Pp. 52-57
Recovery time of a plasma-wakefield accelerator
R. D’Arcy; J. Chappell; J. Beinortaite; S. Diederichs; G. Boyle; B. Foster; M. J. Garland; P. Gonzalez Caminal; C. A. Lindstrøm; G. Loisch; S. Schreiber; S. Schröder; R. J. Shalloo; M. Thévenet; S. Wesch; M. Wing; J. Osterhoff
<jats:title>Abstract</jats:title><jats:p>The interaction of intense particle bunches with plasma can give rise to plasma wakes<jats:sup>1,2</jats:sup> capable of sustaining gigavolt-per-metre electric fields<jats:sup>3,4</jats:sup>, which are orders of magnitude higher than provided by state-of-the-art radio-frequency technology<jats:sup>5</jats:sup>. Plasma wakefields can, therefore, strongly accelerate charged particles and offer the opportunity to reach higher particle energies with smaller and hence more widely available accelerator facilities. However, the luminosity and brilliance demands of high-energy physics and photon science require particle bunches to be accelerated at repetition rates of thousands or even millions per second, which are orders of magnitude higher than demonstrated with plasma-wakefield technology<jats:sup>6,7</jats:sup>. Here we investigate the upper limit on repetition rates of beam-driven plasma accelerators by measuring the time it takes for the plasma to recover to its initial state after perturbation by a wakefield. The many-nanosecond-level recovery time measured establishes the in-principle attainability of megahertz rates of acceleration in plasmas. The experimental signatures of the perturbation are well described by simulations of a temporally evolving parabolic ion channel, transferring energy from the collapsing wake to the surrounding media. This result establishes that plasma-wakefield modules could be developed as feasible high-repetition-rate energy boosters at current and future particle-physics and photon-science facilities.</jats:p>
Palabras clave: Multidisciplinary.
Pp. 58-62
High-density switchable skyrmion-like polar nanodomains integrated on silicon
Lu Han; Christopher Addiego; Sergei Prokhorenko; Meiyu Wang; Hanyu Fu; Yousra Nahas; Xingxu Yan; Songhua Cai; Tianqi Wei; Yanhan Fang; Huazhan Liu; Dianxiang Ji; Wei Guo; Zhengbin Gu; Yurong Yang; Peng Wang; Laurent Bellaiche; Yanfeng Chen; Di Wu; Yuefeng Nie; Xiaoqing Pan
Palabras clave: Multidisciplinary.
Pp. 63-67
Imaging of isotope diffusion using atomic-scale vibrational spectroscopy
Ryosuke Senga; Yung-Chang Lin; Shigeyuki Morishita; Ryuichi Kato; Takatoshi Yamada; Masataka Hasegawa; Kazu Suenaga
Palabras clave: Multidisciplinary.
Pp. 68-72
All-perovskite tandem solar cells with improved grain surface passivation
Renxing Lin; Jian Xu; Mingyang Wei; Yurui Wang; Zhengyuan Qin; Zhou Liu; Jinlong Wu; Ke Xiao; Bin Chen; So Min Park; Gang Chen; Harindi R. Atapattu; Kenneth R. Graham; Jun Xu; Jia Zhu; Ludong Li; Chunfeng Zhang; Edward H. Sargent; Hairen Tan
Palabras clave: Multidisciplinary.
Pp. 73-78