What is he best known for?
The fields of study he is best known for:
- Particle physics
- Electron
- Quantum chromodynamics
Daniel de Florian focuses on Particle physics, Quantum chromodynamics, Higgs boson, Large Hadron Collider and Nuclear physics. His research brings together the fields of Deep inelastic scattering and Particle physics. His Deep inelastic scattering study integrates concerns from other disciplines, such as Double beta decay, Particle Data Group, Tetraquark and Anomalous magnetic dipole moment.
Daniel de Florian usually deals with Quantum chromodynamics and limits it to topics linked to Hadron and Production. The concepts of his Higgs boson study are interwoven with issues in Physics beyond the Standard Model, Top quark, Standard Model and Electroweak interaction. The study incorporates disciplines such as Phenomenology, Elementary particle and Gauge boson in addition to Minimal Supersymmetric Standard Model.
His most cited work include:
- Review of Particle Physics (6209 citations)
- APS : Review of Particle Physics, 2018-2019 (5094 citations)
- Review of Particle Physics (2704 citations)
What are the main themes of his work throughout his whole career to date?
Daniel de Florian mainly investigates Particle physics, Quantum chromodynamics, Nuclear physics, Higgs boson and Hadron. His study in the field of Parton, Large Hadron Collider, Gluon and Resummation is also linked to topics like Order. His study in Quantum chromodynamics is interdisciplinary in nature, drawing from both Deep inelastic scattering and Pair production.
Daniel de Florian has included themes like Asymmetry and HERA in his Nuclear physics study. His Higgs boson research includes themes of Jet, Standard Model, Boson and Electroweak interaction. His Hadron research incorporates elements of Annihilation and Lepton.
He most often published in these fields:
- Particle physics (94.96%)
- Quantum chromodynamics (65.89%)
- Nuclear physics (36.82%)
What were the highlights of his more recent work (between 2015-2021)?
- Particle physics (94.96%)
- Quantum chromodynamics (65.89%)
- Parton (33.33%)
In recent papers he was focusing on the following fields of study:
Daniel de Florian mostly deals with Particle physics, Quantum chromodynamics, Parton, Higgs boson and Large Hadron Collider. His study deals with a combination of Particle physics and Order. His biological study spans a wide range of topics, including Collider and Lepton.
His work focuses on many connections between Parton and other disciplines, such as Annihilation, that overlap with his field of interest in Electron–positron annihilation and Pion. His Higgs boson study combines topics in areas such as Effective field theory and Invariant mass. His work is dedicated to discovering how Large Hadron Collider, Physics beyond the Standard Model are connected with Future Circular Collider and other disciplines.
Between 2015 and 2021, his most popular works were:
- APS : Review of Particle Physics, 2018-2019 (5094 citations)
- Oxford University Press : Review of Particle Physics, 2020-2021 (421 citations)
- Handbook of LHC Higgs Cross Sections: 4. Deciphering the Nature of the Higgs Sector (386 citations)
In his most recent research, the most cited papers focused on:
- Particle physics
- Electron
- Standard Model
His scientific interests lie mostly in Particle physics, Large Hadron Collider, Quantum chromodynamics, Higgs boson and Physics beyond the Standard Model. His Particle physics study incorporates themes from Deep inelastic scattering and Anomalous magnetic dipole moment. His work deals with themes such as Hadron and Nuclear physics, which intersect with Quantum chromodynamics.
In the field of Nuclear physics, his study on Electron–positron annihilation and Annihilation overlaps with subjects such as Hessian matrix. His study looks at the relationship between Physics beyond the Standard Model and topics such as Future Circular Collider, which overlap with Top quark. Daniel de Florian has researched Parton in several fields, including Minimal Supersymmetric Standard Model, Higgs sector and Effective field theory.
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