Mohamed Arbi Khlifi | High Energy Physics | Research Excellence Award

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Research Excellence Award

Mohamed Arbi Khlifi
Islamic University of Madinah, Saudi Arabia

Mohamed Arbi Khlifi
Researcher Mohamed Arbi Khlifi
Affiliation Islamic University of Madinah
Country Saudi Arabia
Scopus ID 59541492600
Documents 42
Citations 241
h-index 8
Subject Area High Energy Physics
Event Global Particle Physics Excellence Awards

The Research Excellence Award recognizes the scholarly contributions and scientific achievements of Mohamed Arbi Khlifi in the field of High Energy Physics. His academic work at the Islamic University of Madinah has contributed to the advancement of particle physics research through peer-reviewed publications, interdisciplinary collaborations, and sustained engagement in theoretical and experimental scientific studies.[1] The recognition reflects continued involvement in contemporary physics investigations relevant to high-energy particle interactions, cosmological observations, and advanced theoretical frameworks.[2]

Abstract

Mohamed Arbi Khlifi has developed a research portfolio centered on High Energy Physics, emphasizing analytical modeling, particle interaction studies, and contemporary theoretical approaches in modern physics.[1] His publication record demonstrates consistent scholarly engagement across internationally indexed scientific journals. The academic profile associated with his Scopus record indicates measurable citation activity and a growing influence within specialized areas of particle physics research.[2] Recognition through the Global Particle Physics Excellence Awards reflects contributions to scientific knowledge dissemination and academic research advancement in the global physics community.

Keywords

High Energy Physics, Particle Physics, Theoretical Physics, Scientific Research, Physics Publications, Experimental Physics, Particle Interactions, Academic Excellence, Research Impact, Physics Awards

Introduction

High Energy Physics remains one of the most significant scientific disciplines for understanding the structure of matter, fundamental forces, and cosmological evolution.[3] Researchers in this field contribute to theoretical developments, computational modeling, and experimental investigations that shape contemporary scientific understanding. Mohamed Arbi Khlifi’s academic activities align with these broader scientific objectives through contributions to peer-reviewed research and interdisciplinary collaboration.[2]

The increasing complexity of particle physics research requires sustained analytical expertise, publication consistency, and international scholarly engagement. Recognition through academic awards programs is commonly associated with measurable research outputs, citation metrics, and contributions to scientific advancement.

Research Profile

Mohamed Arbi Khlifi is affiliated with the Islamic University of Madinah in Saudi Arabia. His Scopus-authorized academic profile documents 42 indexed publications with 241 citations and an h-index of 8.[1] These indicators reflect sustained scholarly productivity and research visibility within the international academic community.

The researcher’s work is primarily associated with High Energy Physics and related scientific investigations involving particle interactions, advanced theoretical analysis, and contemporary physics methodologies.[3] The publication profile further indicates participation in collaborative scientific environments and international research dissemination.

Research Contributions

The research contributions of Mohamed Arbi Khlifi encompass several areas relevant to theoretical and experimental particle physics. His scholarly activities include analytical modeling, interpretation of particle interaction phenomena, and scientific publication within recognized academic indexing systems.[1]

  • Development of theoretical frameworks associated with high-energy particle interactions.
  • Participation in peer-reviewed scientific publishing within internationally indexed journals.
  • Contribution to interdisciplinary discussions involving modern particle physics methodologies.
  • Engagement in collaborative scientific research environments and academic dissemination.
  • Support for emerging scientific dialogue related to advanced physical theories and cosmological observations.

Publications

The publication record associated with Mohamed Arbi Khlifi reflects active scholarly communication in High Energy Physics and related scientific domains. Indexed research outputs contribute to citation visibility and academic engagement across international scientific databases.[1]

  • Peer-reviewed articles addressing theoretical particle interaction studies.
  • Scientific contributions indexed within Scopus and related international databases.
  • Research dissemination through physics-oriented journals and conference proceedings.
  • Collaborative publications supporting contemporary developments in High Energy Physics.

Several publication records are associated with DOI-based indexing systems that facilitate long-term accessibility and scholarly referencing.

Research Impact

Research impact indicators such as citation counts, h-index metrics, and indexed publication visibility are frequently used to evaluate academic contribution within the scientific community. Mohamed Arbi Khlifi’s citation profile demonstrates measurable engagement from researchers and institutions working in related scientific disciplines.

The cumulative citation activity associated with his publications suggests ongoing relevance of the research outputs within specialized areas of particle physics and theoretical scientific inquiry.[1] Such metrics also support broader recognition through international academic evaluation systems and scientific award platforms.

Award Suitability

The Global Particle Physics Excellence Awards recognize researchers who demonstrate scholarly productivity, scientific contribution, and sustained engagement in advanced particle physics research. Mohamed Arbi Khlifi’s academic profile aligns with several commonly recognized indicators of research excellence, including publication consistency, citation visibility, and participation in internationally indexed scientific communication.

His contributions to High Energy Physics, combined with measurable academic metrics and international research dissemination, support suitability for recognition within professional scientific award programs focused on physics research excellence.[1]

Conclusion

Mohamed Arbi Khlifi has established a documented academic presence in High Energy Physics through indexed publications, measurable citation activity, and sustained scholarly engagement. His affiliation with the Islamic University of Madinah and his participation in contemporary particle physics research reflect continued contributions to scientific knowledge and international academic discourse.[2] Recognition through the Research Excellence Award within the Global Particle Physics Excellence Awards framework acknowledges these scholarly achievements and their relevance to ongoing scientific advancement.

References

  1. Elsevier. (n.d.). Scopus author details: Mohamed Arbi Khlifi, Author ID 59541492600. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=59541492600
  2. ORCID. (n.d.). ORCID profile of Mohamed Arbi Khlifi.
    https://orcid.org/0000-0001-5438-0625
  3. CERN. (n.d.). Introduction to High Energy Physics and particle interaction studies.
    https://home.cern/science/physics

Wasikul Islam | Beyond Standard Model (BSM) Searches | Excellence in Research

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Dr. Wasikul Islam | Beyond Standard Model (BSM) Searches | Excellence in Research

Scientist at University of Wisconsin-Madiosn, USA, United States.

🔬 Dr. Wasikul Islam is a high-energy physicist specializing in beyond Standard Model (BSM) searches, detector development, and machine learning applications in experimental physics. He is a Scientist I at the University of Wisconsin-Madison and a Visiting Research Affiliate at SLAC National Accelerator Laboratory, Stanford University. Previously, he was a Postdoctoral Research Associate at CERN, earning the 2023 Postdoc Excellence Award and Wisconsin Initiative for Science Literacy Award 2024. With a Ph.D. in Physics from Oklahoma State University and research experience at CERN, Argonne National Lab, and Aligarh Muslim University, Dr. Islam has contributed to 600+ peer-reviewed publications. He actively participates in outreach, mentoring, and leadership roles in the ATLAS Experiment at CERN.

Professional Profile:

ORCID

Google Scholar

Suitability for Excellence in Research Award – Dr. Wasikul Islam

Dr. Wasikul Islam is an outstanding candidate for the Excellence in Research Award, given his pioneering work in high-energy physics, particularly in beyond Standard Model (BSM) searches, detector development, and machine learning applications in experimental physics. With 600+ peer-reviewed publications, leadership roles in the ATLAS Experiment at CERN, and prestigious awards, Dr. Islam has significantly advanced the field of particle physics. His contributions to anomaly detection, Higgs boson research, and AI-driven physics tools demonstrate his research excellence.

Education & Experience

🎓 Education:

  • Ph.D. in Physics – Oklahoma State University, USA (2015–2021)

  • M.Sc. & B.Sc. in Physics – Aligarh Muslim University, India (2010–2015)

💼 Experience:

  • Scientist I – University of Wisconsin-Madison (2024–Present)

  • Visiting Research Affiliate – SLAC National Accelerator Laboratory, Stanford University (2023–Present)

  • Postdoctoral Research Associate (CERN-based) – University of Wisconsin-Madison (2021–2024)

  • Resident Associate – Argonne National Laboratory (2018)

  • Graduate Research Aide – HEP-CCE, Argonne National Laboratory (2017)

  • Summer Intern – CERN (2015)

Professional Development

🧑‍🏫 Dr. Islam has played key roles in ATLAS Experiment’s BSM physics searches, serving as a Contact Person for Flavor Tagging Derivations and Editor for ATLAS/CERN publications. He has mentored researchers as an APS Career Mentoring Fellow and reviewed APS conferences. Passionate about outreach, he translated the ATLAS Coloring Book into Bangla, volunteered for CERN Open Days, andconducted physics outreach at ICHEP-2022. Additionally, he taught Python programming to visually challenged students with VisionAid.org. His involvement in United Nations Youth Assembly (2017) highlights his advocacy for higher education on global platforms.

Research Focus

🔎 Dr. Islam’s research primarily explores beyond Standard Model (BSM) physics, machine learning applications in anomaly detection, and detector upgrades for the High-Luminosity LHC. His contributions include the development of a new b-tagging calibration algorithm, W-prime boson searches, and multi-body resonance studies. He has worked extensively on vertex identification, 4D tracking, and Higgs boson decays (H → µµ). As a co-developer of the AD-Filter web tool, he integrates artificial intelligence for new physics searches. His phenomenology studies focus on collider event reconstruction, enhancing future experimental capabilities.

Awards & Honors

🏆 2024Wisconsin Initiative for Science Literacy Award, University of Wisconsin-Madison
🏆 2023Postdoc Excellence Award, University of Wisconsin-Madison
🏆 2018ANL-ASC Graduate Fellowship, Argonne National Laboratory
🏆 2017HEP-CCE Summer Fellowship, Argonne National Laboratory
🏆 2015CERN Summer Internship, ALICE Experiment
🏆 2010–2015INSPIRE-SHE Scholarship (Top 1% in India), Govt. of India
🏆 2013–2015University Postgraduate Merit Scholarship, Aligarh Muslim University

Publication Top Notes

🔬 Luminosity Determination in pp Collisions at sqrt(s) = 7 TeV Using the ATLAS Detector at the LHC – 📑 arXiv preprint arXiv:1101.2185 – 🔢 Cited by: 4627 – 📅 2011

🔬 Electron and Photon Performance Measurements with the ATLAS Detector Using the 2015–2017 LHC Proton-Proton Collision Data – 📑 Journal of Instrumentation 14 (12), P12006-P12006 – 🔢 Cited by: 1674 – 📅 2019

🔬 ATLAS b-jet Identification Performance and Efficiency Measurement with Events in pp Collisions at TeV – 📑 The European Physical Journal C 79, 1-36 – 🔢 Cited by: 1391 – 📅 2019

🔬 Combined Measurements of Higgs Boson Production and Decay Using Up to of Proton-Proton Collision Data at Collected with the ATLAS Experiment – 📑 Physical Review D 101 (1), 012002 – 🔢 Cited by: 1280 – 📅 2020

🔬 Performance of Electron and Photon Triggers in ATLAS during LHC Run 2 – 📑 The European Physical Journal C 80, 1-41 – 🔢 Cited by: 1266 – 📅 2020

🔬 Luminosity Determination in Collisions at TeV Using the ATLAS Detector at the LHC – 📑 arXiv preprint arXiv:2212.09379 – 🔢 Cited by: 1265 – 📅 2022

Conclusion

Dr. Islam’s groundbreaking research, leadership in high-energy physics, and innovative use of AI in experimental physics make him a prime candidate for the Excellence in Research Award. His ability to bridge fundamental physics with advanced computational techniques while actively engaging in global scientific outreach and mentorship exemplifies excellence in research.

Uzma Tabassam | High Energy Physics | Best Researcher Award

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Dr. Uzma Tabassam | High Energy Physics | Best Researcher Award 

Dr. Uzma Tabassam, COMSATS University Islamabad, Islamabad Pakistan, Pakistan

Dr. Uzma Tabassam is a dedicated physicist specializing in experimental nuclear astrophysics and high-energy physics. With a Ph.D. from the University of Camerino, Italy, and extensive experience in particle detector technology, Dr. Tabassam is a leading figure in experimental nuclear research at COMSATS University Islamabad. She excels in particle detector fabrication, simulations, and spectroscopy, playing an active role in global physics collaborations like the ALICE experiment.

PROFILE

Google Scholar Profile

Educational Details

Dr. Tabassam completed her Ph.D. in Experimental Nuclear Astrophysics at the University of Camerino, Italy, from 2009 to 2012. She holds an MS in Physics with a specialization in Quantum Computation and Nano-science from COMSATS Institute of Information Technology, Islamabad, which she earned in 2008. Her foundational academic journey began with an MSc in Physics from Quaid-i-Azam University, Islamabad, from 2003 to 2006, followed by a BSc in Physics from Islamabad College for Girls, F-6/2, Pakistan, between 2001 and 2003.

Professional Experience

With a strong focus on experimental nuclear physics and high energy physics, Dr. Tabassam has been involved in various collaborative research projects, including the ALICE experiment at CERN. Her work entails using advanced simulation tools like GEANT4 and Monte Carlo event generators (HIJING2.0, PYTHIA8, UrQMD, EPOS-LHC, and more) for the analysis of particle interactions. She has extensive experience in detector construction, UHV fabrication, and operating sophisticated tools such as electron microscopes and spectroscopic detectors (NaI(Tl), HPGe, SSBD, BF3).

Research Interest

Experimental Nuclear Astrophysics

High-Energy Physics Phenomenology

Particle Detector Fabrication

GEANT4 Simulations

Particle Spectroscopy Her contributions to these fields help advance the understanding of particle interactions at the nuclear and astrophysical levels.

Skills and Competencies

Proficient in O2 software and AliRoot for ALICE experiment data analysis

Expertise in Monte Carlo event generators such as PYTHIA8, UrQMD, and EPOS

Advanced user of ROOT data analysis framework and GEANT4 simulations

C++ programming for simulation and analysis

Particle detector fabrication (UHV) and spectroscopy with detectors like NaI(Tl), HPGe, SSBD, and BF3

Experience with front-end electronics for alpha, beta, and gamma spectroscopy

Proficiency in Linux, Latex, Microsoft Word, and Origin for data analysis

Top Notable Publications

Enhanced production of multi-strange hadrons in high-multiplicity proton–proton collisions

Authors: J Adam, D Adamová, MM Aggarwal, G Aglieri Rinella, M Agnello, et al.

Journal: Nature Physics

Volume: 13 (6), Pages 535-539

Year: 2017

Citations: 1802

Anisotropic Flow of Charged Particles in Pb-Pb Collisions at

Authors: J Adam, D Adamová, MM Aggarwal, G Aglieri Rinella, M Agnello, et al.

Journal: Physical Review Letters

Volume: 116 (13), 132302

Year: 2016

Citations: 465

Production of charged pions, kaons, and (anti-)protons in Pb-Pb and inelastic collisions at TeV

Authors: S Acharya, D Adamová, SP Adhya, A Adler, J Adolfsson, MM Aggarwal, et al.

Journal: Physical Review C

Volume: 101 (4), 044907

Year: 2020

Citations: 450

Transverse momentum spectra and nuclear modification factors of charged particles in pp, p-Pb and Pb-Pb collisions at the LHC

Authors: S Acharya, FT Acosta, D Adamová, J Adolfsson, MM Aggarwal, et al.

Journal: Journal of High Energy Physics

Year: 2018 (11), Pages 1-33

Citations: 422

Measurement of D0, D+, D+ and Ds+ production in Pb-Pb collisions at TeV*

Authors: S Acharya, FT Acosta, D Adamová, J Adolfsson, MM Aggarwal, et al.

Journal: Journal of High Energy Physics

Year: 2018 (10), Pages 1-35

Citations: 421

Differential studies of inclusive J/ψ and ψ(2S) production at forward rapidity in Pb-Pb collisions at TeV

Authors: J Adam, D Adamová, MM Aggarwal, G Aglieri Rinella, M Agnello, et al.

Journal: Journal of High Energy Physics

Year: 2016 (5), Pages 1-49

Citations: 371

Multiplicity dependence of light-flavor hadron production in collisions at

Authors: S Acharya, FT Acosta, D Adamová, A Adler, J Adolfsson, MM Aggarwal, et al.

Journal: Physical Review C

Volume: 99 (2), 024906

Year: 2019

Citations: 335

Conclusion

Based on her academic credentials, significant research contributions, and extensive skillset, Dr. Uzma Tabassam is highly suitable for the Best Researcher Award. Her expertise in experimental high-energy physics and nuclear astrophysics, along with her involvement in global research collaborations, makes her a prime candidate to be recognized for her outstanding contributions to the scientific community.