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ANNALS OF PHYSICS

ISSN:

0003-4916

eISSN:

1096-035X

Disciplines
(Field of Science):

  • biomedical engineering (Engineering and Technology)
  • astronomy (Natural sciences)
  • physical sciences (Natural sciences)

Ministry points: Help

Ministry points - current year
Year Points List
Year 2025 100 Ministry scored journals list 2024
Ministry points - previous years
Year Points List
2025 100 Ministry scored journals list 2024
2024 100 Ministry scored journals list 2024
2023 100 Ministry Scored Journals List
2022 100 Ministry Scored Journals List 2019-2022
2021 100 Ministry Scored Journals List 2019-2022
2020 100 Ministry Scored Journals List 2019-2022
2019 100 Ministry Scored Journals List 2019-2022
2018 40 A
2017 40 A
2016 35 A
2015 35 A
2014 35 A
2013 40 A
2012 40 A
2011 40 A
2010 32 A

Model:

Hybrid

Points CiteScore:

Points CiteScore - current year
Year Points
Year 2023 5.3
Points CiteScore - previous years
Year Points
2023 5.3
2022 5.4
2021 5
2020 4.3
2019 4.2
2018 4.2
2017 4.4
2016 4.2
2015 3.5
2014 4.2
2013 4.8
2012 5.1
2011 5.4

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Sherpa Romeo:

https://v2.sherpa.ac.uk/id/publication/10581

Papers published in journal

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total: 2

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Catalog Journals

Year 2022
  • Zero-range potentials for Dirac particles: Bound-state problems
    Publication

    - ANNALS OF PHYSICS - Year 2022

    A model in which a massive Dirac particle in $\mathbb{R}^{3}$ is bound by $N\geqslant1$ spatially distributed zero-range potentials is presented. Interactions between the particle and the potentials are modeled by subjecting a particle's bispinor wave function to certain limiting conditions at the potential centers. Each of these conditions is parametrized by a $2\times2$ Hermitian matrix (or, equivalently, a real scalar and a...

    Full text available to download

Year 2019
  • Relativistic two-dimensional hydrogen-like atom in a weak magnetic field
    Publication

    - ANNALS OF PHYSICS - Year 2019

    A two-dimensional (2D) hydrogen-like atom with a relativistic Dirac electron, placed in a weak, static, uniform magnetic field perpendicular to the atomic plane, is considered. Closed forms of the first- and second-order Zeeman corrections to energy levels are calculated analytically, within the framework of the Rayleigh–Schrödinger perturbation theory, for an arbitrary electronic bound state. The second-order calculations are...

    Full text to download in external service

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