Dr. Leonardo Di Giustino | Quantum Chromodynamics | Best Researcher Award

University of Insubria, Italy.

Leonardo Di Giustino is an Italian theoretical physicist specializing in Quantum Chromodynamics (QCD) and condensed matter physics. With two Ph.D. degrees in physics, his research spans from renormalization scale-setting in QCD to electron states in metal interfaces. He has held research positions at institutions such as the University of Insubria, Max Planck Institute, and SLAC National Accelerator Laboratory. In addition to his academic career, he has extensive experience as a high school teacher in mathematics and physics.

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Education🎓

Dr. Leonardo Di Giustino holds two Ph.D. degrees in physics, demonstrating his deep expertise in both theoretical and computational physics. He earned his Ph.D. in Physics (2022, cum laude) from the University of Insubria, Italy, with a thesis titled "The Renormalization Scale-Setting Problem in QCD," focusing on fundamental issues in quantum chromodynamics. Earlier, he completed his first Ph.D. in Physics (2005) at the University of Modena and Reggio Emilia, Italy, where his research, "Ab initio study of NiO-Fe interfaces: electron states and magnetic configurations," explored the electronic and magnetic properties of materials at the atomic level. His academic journey began with an M.Sc. in Physics (2001) from the University of Rome "La Sapienza," where he investigated "Semileptonic Inclusive Decays of Heavy Flavors." In addition to his research credentials, he holds High School Teaching Qualifications from the University of Modena and the University of Parma, equipping him with the expertise to educate and inspire future generations in mathematics and physics.

Experience🏢

Dr. Leonardo Di Giustino is a dedicated researcher with extensive experience in theoretical physics, particularly in quantum chromodynamics (QCD) and renormalization scale-setting methods. From 2022 to 2024, he served as a Postdoctoral Researcher at the University of Insubria, Italy, where he contributed to advancements in high-energy physics. His research journey includes international collaborations, such as his role as a Visiting Scientist at SLAC National Accelerator Laboratory, USA (2011, 2018–2019), where he worked alongside leading physicists on cutting-edge particle physics projects. Additionally, he was a Fellowship Researcher at the Max Planck Institute for Physics, Germany (2012–2013), further strengthening his expertise in theoretical physics. Earlier in his career, he was a Research Fellow at the University of Parma, Italy (2006–2007), contributing to fundamental studies in physics. Alongside his research activities, Dr. Di Giustino has been committed to education, serving as a Mathematics and Physics teacher since 2007, inspiring and mentoring students in scientific disciplines. His diverse experience highlights his dedication to both academic research and science education.

Research Interests🔬

Quantum Chromodynamics (QCD)

Renormalization and Regularization Methods in QCD

Collider Physics and Precision Calculations

Condensed Matter Physics & Magnetic Interfaces

Awards & Fellowships🏆

Angelo Della Riccia Foundation Fellowship (2011)

Max Planck Institute Fellowship (2012-2013)

Postdoctoral Fellowship, University of Insubria (2022-2024)

Selected Publications📚

1.Detailed Comparison of Renormalization Scale-Setting Procedures Based on the Principle of Maximum Conformality

Journal: Nuclear Physics B

Publication Date: April 2023

Contributors: Xu-Dong Huang, Jiang Yan, Hong-Hao Ma, Leonardo Di Giustino, Jian-Ming Shen, Xing-Gang Wu, Stanley J. Brodsky

Key Insights:

Compares various renormalization scale-setting methods.

Demonstrates the advantages of the Principle of Maximum Conformality (PMC) in eliminating scheme and scale ambiguities in QCD calculations.

2. Elimination of QCD Renormalization Scale and Scheme Ambiguities

Journal: Universe

Publication Date: April 2023

Contributors: Sheng-Quan Wang, Stanley Brodsky, Xing-Gang Wu, Jian-Ming Shen, Leonardo Di Giustino

Key Insights:

Focuses on how PMC removes renormalization ambiguities and improves QCD predictions.

Discusses applications of PMC in high-energy physics.

3. Elimination of QCD Renormalization Scale and Scheme Ambiguities (Preprint)

Publication Date: February 16, 2023

Contributors: Leonardo Di Giustino

Key Insights:

Early version of the Universe journal article.

Highlights the challenges in conventional renormalization procedures and how PMC provides a systematic solution.

4. The Renormalization Scale-Setting Problem in QCD (Ph.D. Thesis)

Publication Date: May 25, 2022

Contributors: Leonardo Di Giustino

Key Insights:

A comprehensive analysis of renormalization scale-setting methods in QCD.

Discusses theoretical foundations and applications of PMC.

5. Thrust Distribution for 3-Jet Production from e⁺e⁻ Annihilation within the QCD Conformal Window and in QED

Journal: Physics Letters B

Publication Date: December 2021

Contributors: Leonardo Di Giustino, Francesco Sannino, Sheng-Quan Wang, Xing-Gang Wu

Key Insights:

Applies PMC to 3-jet production in QCD and QED.

Examines the thrust distribution and its implications for high-energy physics.

Assoc Prof Dr. Muhammad Sulaman | Physics | Best Researcher Award

Associate Professor, Minzu University of China, China.

Muhammad Sulaman is an accomplished academic and researcher specializing in physics, particularly in the fields of optoelectronic devices and nanotechnology. With a strong foundation in condensed matter physics and a notable career trajectory, he currently serves as an Associate Professor at the School of Science, Minzu University of China. His extensive research contributions and expertise have established him as a prominent figure in the scientific community.

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Education 🎓

Muhammad Sulaman is a distinguished physicist who earned his PhD in Physics, specializing in Condensed Matter Physics, from the School of Physics at Beijing Institute of Technology in 2017. His academic journey reflects a profound commitment to advancing the field, as evidenced by his two postdoctoral fellowships in Optoelectronic Devices at the same institution. From 2017 to 2020, he was affiliated with the School of Optics and Photonics, where he deepened his research capabilities. Subsequently, he continued his postdoctoral research at the Beijing Key Lab of Nanophotonics and Ultrafine Optoelectronic Systems from 2020 to 2023, focusing on innovative optoelectronic solutions.

Prior to his doctoral studies, Muhammad Sulaman obtained a Master’s degree in Physics with a specialization in Nanotechnology and a Bachelor’s (Hons) in Physics (Computational Physics) from the University of the Punjab. His educational background, combined with extensive research experience, positions him as a knowledgeable contributor in the domains of nanophysics and optoelectronics, where he aims to make significant strides in technological advancements.

Experience 💼

Muhammad Sulaman currently serves as an Associate Professor at Minzu University of China, a position he has held since October 2023. His career is marked by a strong trajectory through several esteemed institutions. Prior to his current role, he completed two postdoctoral fellowships at the Beijing Institute of Technology from 2017 to 2023, where he specialized in Optoelectronic Devices. Additionally, he briefly served as an Assistant Professor at the Central Institute of Management Sciences in Lahore from July to October 2017, further showcasing his dedication to academia and research.

His foundational experience includes significant roles as a Senior Research Assistant and Demonstrator at the Centre of Excellence in Solid State Physics, where he honed his research skills. Furthermore, he has held various lecturer positions at multiple educational institutions in Lahore, contributing to the development of future physicists. Muhammad Sulaman’s diverse academic and research background positions him as a leading figure in the field of physics, particularly in areas related to condensed matter and optoelectronics.

Research Interests 🔬

Optoelectronic Devices
Focused on developing devices that utilize light for applications in various fields, including sensing and communication.

Nanomaterials for Photodetectors
Specializes in enhancing and creating nanomaterials tailored for high-performance photodetector applications.

Material Synergies
Investigates the interactions between materials like perovskites and quantum dots to optimize device performance and functionality.

High-Performance Device Creation
Aims to engineer devices that meet modern technological demands, ensuring improved efficiency and effectiveness.

Advancements in Nanophotonics
Contributes to innovations in imaging, sensing, and communication by leveraging unique properties of nanomaterials.

Interdisciplinary Collaborations
Seeks partnerships across disciplines to advance the fields of optoelectronics and nanotechnology, fostering collective progress.

Publications Top Notes 📚

“Synergetic Enhancement of CsPbI3 Nanorods-based High-Performance Photodetectors via PbSe Quantum Dot Interface Engineering,” Chemical Science, 2024, 15, 8514-8529. link

“Hybrid Bulk-Heterojunction of Colloidal Quantum Dots and Mixed-Halide Perovskite Nanocrystals for High-Performance Self-Powered Broadband Photodetectors,” Advanced Functional Materials, 2022, 32, 2201527. link

“Two Bulk-heterojunctions made of Blended Hybrid Nanocomposites for High-performance Broadband, Self-driven Photodetectors,” ACS Applied Materials & Interfaces, 2023, 15, 25671–25683. link

“Lead-free Tin-based Perovskites Nanocrystals for High-Performance Self-driven Bulk-Heterojunction Photodetectors,” Materials Today Physics, 2022, 27, 100829. link

“Interlayer of PMMA doped with Au nanoparticles for high-performance tandem photodetectors: a solution to suppress dark current and maintain high photocurrent,” ACS Applied Materials & Interfaces, 2020, link