Guy Bartal
Overview
Explore the profile of Guy Bartal including associated specialties, affiliations and a list of published articles.
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Articles
62
Citations
1227
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Recent Articles
1.
Tsesses S, Dreher P, Janoschka D, Neuhaus A, Cohen K, Meiler T, et al.
Science
. 2025 Feb;
387(6734):644-648.
PMID: 39913584
According to Noether's theorem, symmetries in a physical system are intertwined with conserved quantities. These symmetries often determine the system topology, which is made ever more complex with increased dimensionality....
2.
Kher-Aldeen J, Cohen K, Lotan S, Frischwasser K, Gjonaj B, Tsesses S, et al.
Light Sci Appl
. 2024 Oct;
13(1):298.
PMID: 39443459
Shaping and controlling electromagnetic fields at the nanoscale is vital for advancing efficient and compact devices used in optical communications, sensing and metrology, as well as for the exploration of...
3.
Bucher T, Ruimy R, Tsesses S, Dahan R, Bartal G, Vanacore G, et al.
Sci Adv
. 2023 Dec;
9(51):eadi5729.
PMID: 38134276
The complex range of interactions between electrons and electromagnetic fields gave rise to countless scientific and technological advances. A prime example is photon-induced nearfield electron microscopy (PINEM), enabling the detection...
4.
Cohen K, Tsesses S, Dolev S, Blechman Y, Ankonina G, Bartal G
Nano Lett
. 2023 Nov;
23(22):10243-10250.
PMID: 37910442
Controlling and manipulating surface waves is highly beneficial for imaging applications, nanophotonic device design, and light-matter interactions. While deep-subwavelength structuring of the metal-dielectric interface can influence surface waves by forming...
5.
Tsesses S, Dahan R, Wang K, Bucher T, Cohen K, Reinhardt O, et al.
Nat Mater
. 2023 Jan;
22(3):345-352.
PMID: 36702889
Spatial modulation of electron beams is an essential tool for various applications such as nanolithography and imaging, yet its conventional implementations are severely limited and inherently non-tunable. Conversely, proposals of...
6.
Frischwasser K, Cohen K, Tsesses S, Dolev S, Rosenblatt G, Bartal G
Phys Rev Lett
. 2022 Mar;
128(10):103901.
PMID: 35333065
Incorporating optical surface waves in nonlinear processes unlocks unique and sensitive nonlinear interactions wherein highly confined surface states can be accessed and explored. Here, we unravel the rich physics of...
7.
Karnieli A, Tsesses S, Bartal G, Arie A
Nat Commun
. 2021 Feb;
12(1):1092.
PMID: 33597504
Exploring material magnetization led to countless fundamental discoveries and applications, culminating in the field of spintronics. Recently, research effort in this field focused on magnetic skyrmions - topologically robust chiral...
8.
Chachamovitz Y, Bartal G
Opt Lett
. 2020 Sep;
45(17):4871-4874.
PMID: 32870879
The increasing interest in manipulating light on scales much smaller than its wavelength has driven intensive research on designing high efficiency optical antennas for near and far field applications. In...
9.
Tsesses S, Cohen K, Ostrovsky E, Gjonaj B, Bartal G
Nano Lett
. 2019 May;
19(6):4010-4016.
PMID: 31046293
In the past decade, the spin-orbit interaction (SOI) of light has been a driving force in the design of metamaterials, metasurfaces, and schemes for light-matter interaction. A hallmark of the...
10.
Herzig Sheinfux H, Lumer Y, Ankonina G, Genack A, Bartal G, Segev M
Science
. 2017 Jun;
356(6341):953-956.
PMID: 28572391
Anderson localization is an interference effect crucial to the understanding of waves in disordered media. However, localization is expected to become negligible when the features of the disordered structure are...