Shiva Rostam Zadeh | baryogenesis and magnetogenesis | Research Excellence Award

Research Excellence Award

Shiva Rostam Zadeh
Affiliation IPM Institute for Research in Fundamental Sciences
Country Iran
Scopus ID 57191484903
Documents 9
Citations 53
h-index 5
Subject Area Baryogenesis and Magnetogenesis
Event Global Particle Physics Excellence Awards

Shiva Rostam Zadeh is a researcher affiliated with the IPM Institute for Research in Fundamental Sciences, Iran, whose scholarly activities contribute to the fields of particle physics, cosmology, baryogenesis, and magnetogenesis. His research explores fundamental mechanisms governing the early universe, addressing theoretical frameworks that seek to explain matter-antimatter asymmetry and the origin of cosmic magnetic fields. The present academic recognition article summarizes the researcher’s profile, scientific contributions, publication record, research impact, and suitability for recognition under the Global Particle Physics Excellence Awards.[1]

Abstract

This article presents an academic overview of Shiva Rostam Zadeh and his contributions to theoretical particle physics and cosmology. His research primarily focuses on baryogenesis and magnetogenesis, two important areas that seek to explain fundamental properties of the universe. Through peer-reviewed publications and international scientific engagement, the researcher has contributed to ongoing discussions regarding the origin of matter dominance and cosmic magnetic structures observed across astronomical scales.[1][2]

Keywords

Baryogenesis, Magnetogenesis, Particle Physics, Cosmology, Early Universe Physics, Matter-Antimatter Asymmetry, Fundamental Physics, Theoretical Physics, Cosmic Magnetic Fields, Research Excellence Award.

Introduction

Particle physics and cosmology remain among the most active areas of modern scientific inquiry. Researchers working at the intersection of these disciplines investigate the fundamental laws that govern the universe and attempt to address unresolved questions regarding its origin and evolution. Studies involving baryogenesis and magnetogenesis are particularly important because they provide theoretical explanations for observed cosmological phenomena and contribute to the broader understanding of fundamental interactions.[2]

Research Profile

According to available scholarly records, Shiva Rostam Zadeh has authored and co-authored multiple scientific publications indexed within international academic databases. His research portfolio is associated with theoretical investigations in cosmology and particle physics, with emphasis on mechanisms that may explain the generation of baryon asymmetry and primordial magnetic fields.[1]

Research Contributions

The researcher’s contributions are centered on theoretical models that address key cosmological questions. These investigations examine physical processes believed to have occurred during the early stages of the universe and evaluate their implications for observable phenomena. Such work contributes to the broader scientific effort to connect particle interactions with cosmological evolution.[2]

  • Theoretical studies in baryogenesis.
  • Research on cosmic magnetic field generation mechanisms.

Publications

The publication record indexed through Scopus demonstrates active participation in peer-reviewed scientific communication. Publications contribute to the dissemination of theoretical findings and support ongoing development within cosmology and particle physics research communities.[1]

  1. Peer-reviewed articles related to baryogenesis.
  2. Studies addressing cosmological magnetic field generation.

Research Impact

Research impact indicators provide one measure of scholarly influence. Available records indicate 53 citations and an h-index of 5, reflecting engagement by the scientific community with the researcher’s published work. Citation-based metrics should be interpreted alongside qualitative indicators such as originality, relevance, and contribution to scientific understanding.[1]

Award Suitability

Based on documented scholarly activities, publication output, citation metrics, and specialization within baryogenesis and magnetogenesis, Shiva Rostam Zadeh demonstrates attributes commonly considered during evaluations for scientific recognition programs. His work aligns with the objectives of the Global Particle Physics Excellence Awards, which seek to acknowledge contributions advancing knowledge in particle physics and cosmology.[1][3]

Conclusion

Shiva Rostam Zadeh’s academic profile reflects sustained engagement in theoretical particle physics and cosmological research. Through publications, citations, and contributions to the understanding of baryogenesis and magnetogenesis, the researcher has participated in advancing scientific discourse within these specialized fields. Recognition through academic award platforms provides an opportunity to highlight such contributions and encourage continued research excellence.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Shiva Rostam Zadeh, Author ID 57191484903. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57191484903
  2. Abbaslu, S., Rezaei, A., Rostam Zadeh, S., & Gousheh, S. S. (2025). The generation of baryon asymmetry and hypermagnetic field by the chiral vortical effect in the presence of sphalerons. Nuclear Physics B, 1015, 116895.
    https://doi.org/10.1016/j.nuclphysb.2025.116895
  3. Global Particle Physics Excellence Awards. (n.d.). Award evaluation and recognition framework.
    https://physicistparticle.com/

Riasat Ali | Particle physics and cosmology | Editorial Board Member | 3098

Editorial Board Member

Riasat Ali
Riasat Ali
Affiliation Shanghai University
Country China
Scopus ID 57212863194
Documents 76
Citations 1,159
h-index 20
Subject Area Particle Physics and Cosmology
Event Global Particle Physics Excellence Awards
ORCID Connected via Scopus

Riasat Ali is a researcher affiliated with Shanghai University, China, whose academic work focuses on particle physics, cosmology, black hole physics, gravitation, and related theoretical investigations. His research profile demonstrates continuous scholarly engagement in contemporary astrophysical and gravitational studies, particularly in modified gravity models, plasma effects on black hole shadows, and quantum gravity-inspired thermodynamics.[1]

Abstract

This article presents an overview of the academic profile and scholarly contributions of Riasat Ali in the fields of particle physics and cosmology. His research portfolio includes investigations into black hole thermodynamics, plasma-induced gravitational lensing, Hawking radiation, and modified gravity theories. Through publications in recognized international journals, his work contributes to ongoing discussions in theoretical astrophysics and gravitational physics.[1][2]

Keywords

Particle physics, cosmology, black hole physics, Horndeski gravity, Hawking radiation, plasma physics, gravitational lensing, modified gravity, astrophysics, quantum gravity.

Introduction

Theoretical particle physics and cosmology continue to provide important frameworks for understanding gravitational phenomena, spacetime geometry, and high-energy astrophysical systems. Researchers working in these areas frequently examine black hole behavior, quantum corrections, and observational signatures associated with relativistic environments. Riasat Ali has contributed to these themes through studies involving black hole shadows, photon deflection, and thermodynamic properties within alternative gravity frameworks.[2]

Research Profile

According to Scopus author records, Riasat Ali has authored or co-authored 76 indexed documents and accumulated more than 1,159 citations with an h-index of 20. His publications primarily focus on gravitational physics, black hole thermodynamics, plasma effects in astrophysical systems, and modified theories of gravity.[1]

His recent works examine topics such as charged hairy black holes in Horndeski gravity, photon deflection in dispersive media, and generalized uncertainty principle corrections in black hole systems. These investigations contribute to the broader understanding of relativistic astrophysical environments and quantum-inspired gravitational models.[2]

Research Contributions

  • Investigated unstable equilibrium and chaos-bound violations in charged hairy black holes within Horndeski gravity frameworks.
  • Studied photon deflection and black hole shadow formation under the influence of plasma and dispersive media.
  • Explored Hawking temperature corrections and thermodynamic properties associated with generalized uncertainty principles.
  • Published research associated with modified gravity theories including Rastall gravity and f(Q,BQ) gravity models.

Publications

  1. “Unstable equilibrium and chaos-bound violation for a charged hairy black hole in Horndeski gravity,” New Astronomy, 2026.
  2. “Deflection of photon and shadow cast for black hole spacetime under the impact of a dispersive medium,” Indian Journal of Physics, 2026.
  3. “Greybody Factor and Hawking Temperature of ModMax-AdS Black Holes Surrounded by Perfect Fluid Dark Matter,” Fortschritte Der Physik, 2025.
  4. “Exploring plasma and dark matter on photon deflection by Reissner–Nordström black hole with scalar hair and its shadow,” Annals of Physics, 2025.

Research Impact

The research contributions of Riasat Ali demonstrate interdisciplinary engagement between cosmology, astrophysics, and gravitational theory. His publication metrics and citation record indicate continued academic visibility within theoretical physics communities. The integration of plasma physics, dark matter models, and quantum corrections into black hole studies reflects current directions in modern gravitational research.[1]

Award Suitability

Riasat Ali’s research profile aligns with the objectives of the Global Particle Physics Excellence Awards, particularly in the recognition of emerging contributions to theoretical particle physics and cosmology. His sustained publication activity, citation impact, and involvement in advanced gravitational studies support his suitability for editorial and scholarly recognition within the international academic community.

Conclusion

Riasat Ali has established a notable academic presence in the domains of particle physics and cosmology through research on black hole dynamics, modified gravity, and relativistic astrophysics. His scholarly activities, publication output, and citation performance indicate active participation in contemporary theoretical physics research and continued contribution to advancing cosmological understanding.

References

  1. Elsevier. (2026). Scopus author details: Riasat Ali, Author ID 57212863194. Scopus.
    http://scopus.com/authid/detail.uri?authorId=57212863194
  2. Ali, R. H. (2026). Unstable equilibrium and chaos-bound violation for a charged hairy black hole in Horndeski gravity. New Astronomy.
    10.1016/j.newast.2026.102564
  3. Ali, R. H. (2025). Exploring plasma and dark matter on photon deflection by Reissner–Nordström black hole with scalar hair and its shadow. Annals of Physics.
    https://doi.org/10.1016/j.aop.2025.170201
  4. Google Scholar. (2026). Riasat Ali citation profile.
    https://scholar.google.com/citations?user=Stp2lpMAAAAJ&hl=en