JETP Letters is an international peer reviewed journal for rapid publication of short communications describing the basic theoretical and experimental research in all fields of physics from solid state to elementary particles. The journal has 24 issues per year and welcomes manuscripts from all countries in the English or Russian language. TOPICS COVERED All topics of experimental and theoretical physics including gravitation, field theory, elementary particles and nuclei, plasma, nonlinear phenomena, condensed matter, superconductivity, superfluidity, lasers, and surfaces. PEER REVIEW JETP Letters is a peer reviewed journal. We use a single blind peer review format. Our team of reviewers includes over 60 experts from 6 countries. The average period from submission to first decision in 2018 was 10 days, and that from first decision to acceptance was 18 days. The rejection rate for submitted manuscripts in 2018 was 45%. The final decision on the acceptance of an article for publication is made by the Editorial Board. Any invited reviewer who feels unqualified or unable to review the manuscript due to the conflict of interests should promptly notify the editors and decline the invitation. Reviewers should formulate their statements clearly in a sound and reasoned way so that authors can use reviewer’s arguments to improve the manuscript. Personal criticism of the authors must be avoided. Reviewers should indicate in a review (i) any relevant published work that has not been cited by the authors, (ii) anything that has been reported in previous publications and not given appropriate reference or citation, (ii) any substantial similarity or overlap with any other manuscript (published or unpublished) of which they have personal knowledge.
JETP Letters
Description
Identifiers
ISSN | 0021-3640 |
e-ISSN | 1090-6487 |
DOI | 10.1134/11448.1090-6487 |
Publisher
Pleiades Publishing
Additional information
Data set: Springer
Articles
JETP Letters > 2019 > 110 > 6 > 424-429
The compressibility of electrons in a bilayer electron system implemented in a GaAs double quantum well is investigated. Manifestations of the negative compressibility of a low-density two-dimensional electron system in zero and quantizing magnetic fields are observed. It is found that the magnetic field ranges where incompressible phases at the spin-resolved Landau level filling factors of 2 and...
JETP Letters > 2019 > 110 > 6 > 430-435
Features of spin-wave dynamics in a ring magnonic microwaveguide that appear at change in the direction of the equilibrium magnetization with respect to the axis of symmetry of the structure have been studied by micromagnetic simulation based on the numerical solution of the Landau–Lifshitz–Gilbert equation. Mechanisms of control of lateral spin wave transport in yttrium iron garnet stripes located...
JETP Letters > 2019 > 110 > 6 > 411-416
The enhancement of the electric field in plasmonic nanostructures on a Si substrate in the near-infrared range is studied theoretically. Two-dimensional square arrays of circular holes of various diameters in a gold film serve as metasurfaces allowing the conversion of the external electromagnetic radiation into surface plas-mon modes at the Au-Si interface. It is established that illumination of...